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Physiological responses in chronic pain patients LLLT protocol

Scott D. Fender and David Diffee. Pain Research Group, Arvada, Colorado, U.S.A.

Use of Low Reactive Level Laser Therapy (LLLT) utilizing helium-neon lasers has increased lately especially in pain control. New protocols are being developed aimed at a complex of primary and secondary symptomologies. One of these protocols, Stellate Ganglion Stimulation, has shown in our research a unique set of developments.

Targeting the area of the stellate ganglion is showing great promise in the rehabilitation of patients with a history of chronic musculoskeletal pain syndromes, but several patients with preexisting psychological symptomology have exacerbated during the initial stages of the utilization of this protocol. Patients with a history of psychological diagnosis for dysthymia, anxiety, post-traumatic stress disorder or minor diffuse brain injury have shown exacerbation of these symptomologies during the initial phases of stimulation treatment.

Overall, response to this form of therapy seems to be positive but some patients require dermatomal and/or site-specific therapy to maximize outcome. With specific psychological treatment combined with a more conservative amount of stimulation initially, the increase in these symptoms shows a tendency to remit with the pain response.

Our continued research is currently focusing on the mechanisms for this type of response as well as protocol refinement to maximize its effectiveness. 

Laser Therapy Science and Clinical Studies

CLASS IV LASER THERAPY – AKA PHOTOMEDICINE IS DELIVERING MANY BENEFITS THROUGH INTEGRATIVE MEDICINE PRACTITIONERS

Clinical Results Reveal Many Transformative and Encouraging Benefits Such As:

1. Anti-Inflammatory Effect
Effect of Laser Therapy on the Expression of Inflammatory Mediators… Pubmed

Laser Therapy reduces inflammation with vasodilation, activation of the lymphatic drainage system, and reduction of pro-inflammatory mediators; as a result, inflammation, erythema, bruising, and edema are reduced. This is one of the primary goals in Photomedicine (Laser) Therapy.

2. Analgesic Effect

Anti-inflammatory and Analgesic Effects of Laser Therapy… Pubmed

Reduction of pain through the suppression of nerve signal transmission over unmyelinated c-fibers; production of high levels of peptides such as endorphins and enkephalins from the brain and adrenal glands, offering successful treatment of many conditions; a suppression of nociceptors, an increase of simulated threshold, an increased release of tissue endorphins.    

3. Accelerated Tissue Repair and Cell Growth

Effect of Laser Therapy on Proliferation and Differentiation of Cells… Pubmed

Photons of light from lasers penetrate deeply into tissue and accelerate cellular reproduction and growth. Laser light increases the energy available to the cells so that they can take on nutrients and get rid of waste products more quickly; perfect for integrative medicine.

4. Improved Vascular Activity

Blood Flow After Laser Therapy. Pubmed

Laser therapy is purported to improve blood flow in soft tissues. Modulating circulation would promote healing by controlling postinjury ischemia, hypoxia, edema, and secondary tissue damage. 

5. Increased Metabolic Activity
Blood Flow After Laser Therapy. Pubmed

Laser therapy creates higher outputs of specific enzymes, greater oxygen and food particle loads for blood cells.

6. Trigger Points and Acupuncture Points
Efficacy of Laser Therapy Applied at Acupuncture Points. Pubmed

Laser therapy stimulates muscle trigger points and acupuncture points on a non-invasive basis, providing musculoskeletal pain relief.

7. Reduced Fibrous Tissue Formation
Muscle regeneration is a complex phenomenon, involving replacement of damaged fibers by new muscle fibers. During this process, there is a tendency to form scar tissue or fibrosis by deposition of collagen that could be detrimental to muscle function. Laser therapy significantly reduced the lesion percentage area in the injured muscle (p<0.05), increased mRNA levels of the transcription factors MyoD and myogenin (p<0.01) and the pro-angiogenic vascular endothelial growth factor (p<0.01). Moreover, Laser Therapy decreased the expression of the profibrotic transforming growth factor TGF-β mRNA (p<0.01) and reduced type I collagen deposition (p<0.01). These results suggest that potomedicine could be an effective therapeutic approach for promoting skeletal muscle regeneration while preventing tissue fibrosis after muscle injury. Pubmed

8. Improved Nerve Function
Therapeutic laser energy accelerates the process of nerve cell regeneration and increases the amplitude of action potentials to optimize motor and sensory nerve functions, and stimulates the regeneration of myelin and other nerve tissues to decrease pain. 

Efficacy of Laser Therapy in Nerve Injury Repair – a New Era in Therapeutic Agents and Regenerative Treatments. Pubmed

9. Immunoregulation
Laser therapy benefits the immune system by stimulating immunoglobulins and lymphocytes; energy is absorbed by targeted chromophores (molecular enzymes) that react to laser light. The production of adenosine triphosphate (ATP) accelerates in targeted tissues, stimulating increased energy for all chemical reactions in targeted cells. 

The Potential Role of (Laser Therapy) in Long COVID-19 Patient Rehabilitation. Pubmed

10. Faster Wound Healing
Laser therapy accelerates the body’s natural healing processes by using stimulated light energy to increase blood flow, reduce pain, accelerate tissue repair, heal wounds, and improve nerve function and vascular activity. Pubmed

11. Tendinitis and Myofascial Pain Syndrome

(includes Epicondylitis, trochanteritis, etc): Lögdberg-Andersson, M., et al. (1997). Low Level Laser Therapy (LLLT) of Tendinitis and Myofascial Pains – A Randomized, Double-Blind, Controlled Study. LLLT 9, pp. 79-86.

12. Tinnitus: Gungor, A., et al. (2007).
Effectiveness of transmeatal low power laser irradiation for chronic tinnitus.

The Journal of Laryngology & Otology, DOI 10.1017/S0022215107009619&

Compare: REMY30 30 Watt QUAD Wave to K-Laser 

 
Specification REMY 30W QUAD Klaser®
Cube 30
1. Diode Power (watts) 30 45
2. Wavelengths (nm) 637, 810, 905, 980 Adjustable 635, 810,
910, 980
3. Pulsing Sweep, Single & CW Sweep,
Single & CW
4. Software Upgradable Thru WiFi Thru WiFi
5. Pulsing Steps Up to 12 Up to 6
6. Adapts for Patient Size and skin color Yes Yes
7. Hand Free Option Yes Yes
8. Deliver Rates 25 j/sec CW, 0-24.8 j/sec pulse 30 j/sec CW, 0-29.5 j/sec pulse
9. Warranty 5 Years 5 Years
10. Interchangeable Heads 5 6
11. Estimated Prices $14,595 $37,500
Includes Custom Marketing Yes No
Includes Training Package Yes No

 

Notes:
1. This is the total power of the diodes in the system and not the guaranteed output.
2. This shows the wavelengths used and reveals if the blend of the different wavelengths are independently adjustable. Some systems are a “fixed blend” of multi-wavelengths meaning that the user does not have independent control of each wavelength. Remy does permit independent wavelength adjustments. 810nm is the best wavelength for a photo-chemical reaction as in PBM. 980nm is primarily for rapid analgesic pain and inflammation reduction. It produces about 1/30th the photo-chemical reaction as 810nm (based on research).
3. Systems with “sweep” will automatically rotate through multiple pulsing frequencies in a single program. This allows the laser to optimize the treatment, treating multiple symptoms in one program. Lower-tech systems have just one “single” pulsing frequency per program.
4. Wifi connected system can auto-update software and protocols over the internet. Laser therapy is still evolving so this allows these lasers to continuously improve over time, while unconnected systems go obsolete.
5. Pulsing technology is rapidly evolving. Better systems allow for multiple pulsing steps. For example, this can allow the same program to be optimized for both pain (step 1) and inflammation reduction (step 2).
6. Common knowledge about PBM will state that dosage is based on condition, patient size and skin color. Darker and larger patients need a higher dosage. This is also just common sense. Better system follow the best practices.
7. Interchangeable heads allow the user to swap the handpiece for different applications, thus providing superior results for more conditions. 
8. Delivery rate is really what you are paying for but some system claim high delivery rates and don’t really deliver the claimed rate in the therapy sessions. Claiming high peak powers is a way to make the system appear to have more value than it really does.
9. Higher quality systems have a better warranty.
10. OPTIONAL – Hands free systems allow practitioners to treat patient unattended. The REMY VET30W QUAD can be used with a Bluetooth remote so the patient can turn on and off the system themselves (a nice safety feature) when using the hands-free system.
11. It is common to pay excessively for a more known brand name. Some more established brands charge significant prices without delivering superior power, performance or efficacy.

As you can see from the comparison table, the REMY 30W QUAD offers superior performance at a fraction of the cost of a similar class 4 laser. Both REMY and the competing manufacturers offer multiple models but in all the cases, the REMY Laser offers superior performance at a much lower cost.

Conclusion: In this analysis, we compare the REMY 30W QUAD wavelength system to the new Cube 30. Prior to the release of the Cube 30, their flagship was the Cube 4+. The Klaser is made in Italy and their quality and designs are some of the best. That is why the REMY 30W QUAD designers took alot of quality and design elements from the K-laser and took them to a higher level. If you compare the REMY 30W QUAD to the Cube 4+, which sold for $27,500, it beats it’s performance hands down. Both system are very similar in the way the software and operating system control the therapy so the main area where the REMY 30W QUAD comes out ahead is when you include the price, training and support in your decision.

Class IV Laser Therapy Science, Clinical Studies and Education

Class IV Laser Therapy Science, Clinical Studies and Education

To date, there are now over 5000 Proof Positive Clinical Studies and Research Papers that reveal beyond a shadow of a doubt that laser therapy, phototherapy aka Photobiomodulation (PBM) is effective at treating a wide range of conditions that were previously untreatable, except sometimes through drugs and surgery. There are over quarter million health care providers using cold lasers in their practice and over a million laser users, so laser therapy is definitely NOT an “experimental” therapy. Research reveals how and why therapeutic lasers are exceptionally effective for pain relief, the reduction of inflammation, increasing circulation of both blood and lymph, and supporting the body to heal on a cellular level.

Further down you will find an online book which provides a compendium of scientific and clinical studies conducted by researchers and clinicians and published in journals which are properly notated on their respective pages. Before you scroll down to look at all the research studies I want to provide you with a short summary of what Cold Laser Equipment and also Class 4 Lasers are being successfully used for so that you can start to see the big picture. 

*Please bear in mind that results will vary from person to person. While many of the following clinical studies have shown positive results, no medical claims are being made other than for those issues such as pain and inflammation, for a specific lasers that have been cleared for such by the FDA. 

Controlled Double Blind Studies with Cold Laser Therapy

Following is a list of cold laser controlled, randomized, double-blind studies,* which have shown that Cold Laser Therapy is an effective treatment modality for a wide range of treatment indications such as:

  • Acne Vulgaris
  • Achilles tendonitis
  • Ankle sprains
  • Arthritis
  • Carpal tunnel syndrome
  • Chronic back pain
  • Chronic neck pain
  • Epicondylitis
  • Herpes simplex
  • Lymphedema
  • Myofascial pain syndrome
  • Oral mucositis
  • Shoulder pain
  • Sports injuries
  • Stroke
  • Temporomandibular dysfunction
  • Tinnitus

*Achilles tendinitis: Bjordal, J.M., et al. (2006). A randomized, placebo controlled trial of low level laser therapy for activated Achilles tendinitis with microdialysis measurement of peritendinous prostaglandin E2 concentrations. British Journal of Sports Medicine 40, pp. 75-80.

Acne vulgaris: Seaton, E.D., et al. (2003). Pulsed-dye laser treatment for inflammatory acne vulgaris: randomised controlled trial. The Lancet 362, pp. 1347-1352. Acute pain
(Review paper): Bjordal, J.M., et al. (2006). Low-Level Laser

Therapy in Acute Pine: A Systematic Review of Possible Mechanisms of Action and Clinical Effets in Randomized Placebo-Controlled Trials. Photomedicine and Laser Surgery 24(2), pp. 158-168.

Carpal tunnel syndrome: Ekim, A., et al. (2007). Effect of low level laser therapy in rheumatoid arthritis patients with carpal tunnel syndrome. Swiss Medical Weekly 23-24, pp. 347-352.

Chronic neck pain: Chow, R.T., et al. (2006). The effect of 300 mW, 830 nm laser on chronic neck pain: A double-blind, randomized, placebo-controlled study. Pain 124(1-2), pp. 201-210.

Herpes simplex: Schindl, A., and Neumann, R. (1999). Low-Intensity Laser Therapy is an Effective Treatment for Recurrent Herpes Simplex Infection. Results from a Randomized Double-Blind Placebo-Controlled Study. Investigative Dermatology 113, pp. 221-223.

Myofascial Pain Syndrome

Gur, A., et al. (2004). Efficacy of 904 nm Gallium Arsenide Low Level Laser Therapy in the Management of Chronic Myofascial Pain in the Neck: A Double-Blind and Randomize-Controlled Trial.

Lasers in Surgery and Medicine 35, pp. 229-235.

Oral Mucositis: Bensadoun, R.J., et al. (1999). Low-energy He/Ne laser in the prevention of radiation-induced mucositis – A multicenter phase III randomized study in patients with head and neck cancer.

Support Care Cancer 7, DOI 10.1007/s005209900034.

Osteoarthritic Knee Pain

(Review paper): Bjordal, J.M., et al. (2007). Short-term efficacy of physical interventions in Osteoarthritic knee pain. A systematic review and meta-analysis of randomised placebo-controlled trials. BNC – Musculoskeletal Disorders, DOI 10.1186/1471-2474-8-51.

Postmastectomy Lymphedema

Carati, C.J., et al. (2003). Treatment of Postmastectomy Lymphedema with Low-Level Laser Therapy.

American Cancer Society, DOI 10.1002/cncr.11641.

Stroke: Lampl, Y., et al. (2007).
Infrared Laser Therapy for Ischemic Stroke: A new Treatment Strategy. Results of the NeuroThera Effectiveness and Safety Trial-1

(NEST-1). Stroke, DOI 10.1161/STROKEAHA.106.478230.

Tendinitis and Myofascial Pain Syndrome

(includes Epicondylitis, trochanteritis, etc): Lögdberg-Andersson, M., et al. (1997). Low Level Laser Therapy (LLLT) of Tendinitis and Myofascial Pains – A Randomized, Double-Blind, Controlled Study. LLLT 9, pp. 79-86.

Tinnitus: Gungor, A., et al. (2007).
Effectiveness of transmeatal low power laser irradiation for chronic tinnitus.

The Journal of Laryngology & Otology, DOI 10.1017/S0022215107009619

Pain scores and side effects in response to low-level laser therapy (LLLT)/ Cold Laser Therapy for physical trigger points

E Liisa Laakso Carolyn Richardson, and Tess Cramond

1: Physiotherapy Department, Royal Brisbane Hospital, Brisbane; 2: Physiotherapy Department, University of Queensland, Brisbane; and 3: Pain Clinic, Royal Brisbane Hospital, Brisbane, Queensland, Australia.

Clinically, Low Level Laser Therapy – LLLT has been used successfully in the treatment of chronic pain but many have questioned the scientific basis for its use. Many studies have been poorly designed or poorly controlled.

A double-blind, placebo-controlled, random allocation study was designed to analyse the effect of second daily infrared (JR) laser (820 nm, 25 mW) and visible red laser (670 nm, 10 mW) at 1 J/cm2 and 5 J/cm2 on chronic pain. Forty-one consenting subjects with chronic pain conditions exhibiting myofascial trigger points in the neck and upper trunk region underwent five treatment sessions over a two week period. To assess progress, pain scores were measured using visual analogue scales before and after each treatment. The incidence of side effects was recorded.

All groups demonstrated significant reductions in pain over the duration of the study with those groups which received infrared (820 nm) laser at I J/cm2 and 5 J/cm2. demonstrating the most significant effects (p < 0.001). Only those subjects who had active laser treatment experienced side effects.

Results indicated that responses to LLLT at the parameters used in this study are subject to placebo and may be dependant on power output, dose and/or wavelength. 

Mechanistic approach to GaAIAs diode laser effects on production of reactive oxygen species from human neutrophils as a model for therapeutic modality at cellular level

Makoto Yamaya*, Chiyuki Shiroto’, Hiroki Kobayashi*, Shinji Naganuma*, Jyuichi Sakamoto*, Koh-Jun Suzuki*, Shigeyuki Nakaji*, Kazuo Sugawara* and Takashi Kumae *Department of’ Hygiene, Hirosaki University School of Medicine. Hirosaki; .-Shiroto Clinic Coshogawara, Aomori: Department of Industrial Health. The Institute of Public Health, Tokyo. Japan.

There have been many reports on the applications of low reactive level laser (LLL) therapy for pain attenuation or pain removal. Our group has reported previously on the effects of in vitro irradiation of LLLT particularly on the phagocytic activity of human Neutrophils, using luminol-dependent chemiluminescence (LmCL) for measurement of reactive oxygen species (ROS) production from human Neutrophils. However, the mechanisms of the attenuation of phagocytic activity of NEUTROPHILS by LLL irradiation is not yet full understood.

In this study. we used luminol-dependent and lucigenin-dependent chemiluminescence (LgCL) for detection of affected ROS producing process of human Neutrophils by LLL irradiation. Two soluble action stimuli, N-formyl-Met-Leu-Phc (fMLP) and phorbol myristate acetate (PMA) were used to avoid the possible influence of lag-time from recognition to uptake of particles at the ROS production.

In case of using fMLP as a stimulus, the maximum luminescence intensity of LULL was increased hut LgCL luminescence was decreased by LLL irradiation. When PMA was used as a stimulus, the times to reach the maximum luminescence intensity of LmCL and LgCL were shortened by LLL irradiation, but there was no effect on the maximum luminescence intensity of both.

These results suggest that LLL irradiation enhances the ROS production activity of human Neutrophils by the activation of the superoxide converting system, the active clement in which is mainly myeloperoxidase. LLL irradiation enabled a more rapid activation of the superoxide production system, NADPH -oxidase. 

Mechanisms of the analgesic effect of therapeutic lasers in vivo

L Navratil (1) and I Dylevsky (2)

1: Outpatient Department of Radiobiology, Institute of Biophysics, First Medical Faculty, and 2: Department of Functional Anatomy, Second Medical Faculty and Faculty of Physical Education Charles University, Prague, Czech Republic

The analgesic effects in the course of application of therapeutic lasers to affected tissue have been described in a number of works in the literature. Although a few scientific- based reports have appeared, those on laser-induced analgesia are mainly clinical works describing the effect of the therapy which, however, do not study the mechanism of the laser action.

There are several different possible responses induced by non-invasive low level laser therapy (LLLT). The purpose of the present communication is to review the arrangement and characterization of these responses. By being aware of these effects, the laser therapist can acquire a physiological and morphological scheme making possible the appropriate choice of the site of application of LLLT, choice of the irradiation technique, and selection of appropriate doses. 

Low level laser therapy of tendinitis and myofacial pains a randomized, double-blind, controlled study

Mimmi Logdberg-Anderssont (1), Sture Mutzell (2), and Ake Hazel (3)

1: Akersberga Health Care Centre,
2: Danderyd University Hospital, Danderyd, and
3: Vaxholm Health Care Centre, Stockholm, Sweden.

The purpose of this randomised, double-blind study was to examine the effect of GaAs laser therapy for tendonitis and myofascial pain in a sample from the general population of Akersberga in the northern part of Greater Stockholm.

176 patients (of an original group of 200) completed the scheduled course of treatment. The patients were assigned randomly to either a laser group (92 patients, of whom 74 had tendonitis, completed the study) or a placebo group (84 patients, of whom 68 had tendonitis, completed the study). All 176 patients received six treatments during a period of 3-4 weeks. Their pain was estimated objectively using a pain threshold meter, and subjectively with a visual analogue scale before, at the end of, and four weeks after the end of treatment.

Laser therapy had a significant, positive effect compared with placebo measured from the first assessment to the third assessment, four weeks after the end of treatment. Laser treatment was most effective on acute tendonitis. 

LLLT using a diode laser in successful treatment of a herniated lumbar/sacral disc, with magnetic resonance imaging (MRI) assessment

Tatsuhide Abe. Abe Orthopaedic Clinic Futuoka City Fukuoka Prefecture Japan X12′ A 40- year-old woman presented at the Abe Orthopedic Clinic with a 2-year history of lower hack pain and pain in the left hip and leg diagnosed as a ruptured disc between the 5th lumbar/lst sacral vertebrae. The condition had failed to respond to conventional treatment methods including pelvic traction, nonsteroid anti-inflammatory drugs and aural block anesthetic injections.

MRI scans were made of the affected disc, showing it protruding on the left side through the aural membrane. The gallium aluminum arsenide (GaAlAs) diode laser (830 nm, 60 mW) was used in outpatient therapy and after 7 months, the patient’s condition had dramatically improved demonstrated by motility exercises. This improvement was confirmed by further MRI scans, which showed clearly the normal condition of the previously herniated L5/SI disc. 

Effect of Low-Level Laser Radiation on Some Rheological Factors in Human Blood: An in Vitro Study

Dan G. Siposan, Adalbert Lukacs. Journal of Clinical Laser Medicine & Surgery. August 1, 2000, 18(4): 185-195. doi:10.1089/10445470050144038. Dan G. Siposan Doctoral candidate Technical Military Academy, Bucharest, Romania

Adalbert Lukacs Doctoral candidate Center of Transfusion Hematology of the Army, Bucharest, Romania

Objective: The purpose of this study was to investigate the in vitro effects of low-level laser radiation (LLLR) on some rheological factors of the human blood, such as complete blood count (CBC) parameters and blood sedimentation rate (BSR). We were mainly concerned with the alterations caused by LLLR action on blood cells (erythrocytes and leukocytes) of fresh blood obtained from apparently healthy adult patients. We used low doses ranging between 0.80 Jââ?¬Â¢cm-3 and 4.40 Jââ?¬Â¢cm-3, at the very low-power densities of the laser radiation, so as not to damage the cell structure and not to alter in an undesired manner their functions.

Methods: Blood samples were taken from 22 volunteers. Where health problems existed, they were indicated for each case. The parameters mentioned above were measured before (control samples) and after irradiation. A He-Ne laser, operating in a continuous wave, as a radiation source (632.8 nm, 1 mW, mean power density incident on blood samples around 30 mW cm-2, beam spot diameter 2 mm) was used. The measurements were performed immediately after irradiation. Only the erythrocyte complex was irradiated. EDTA anticoagulant was used. Results: The measurements using a computerized hemoanalyzer type SERONO showed significant differences between control and irradiated blood samples concerning the following parameters: RBC (in 22% of cases), HGB (47.3%), HCT (84.2%), RDW (11%), PLT (5.26%), MPV (33.3%), WBC (5.26%), MONO (26.3%), and GRAN (63.15%). In the case of BSR (44%), the significant differences were noticed especially in the cases of patients suffering from some acute or chronic diseases. No significant differences were noticed in the cases of MCV, MCH, MCHC, RDW, and LYMPH.

Conclusions: This study has shown that LLLR, even though used at low doses and low power densities, produced some changes of the rheological factors of the blood, as follows: a revitalizing and regenerating effect on mitosis stimulation and a nondamaging and biostimulating effect on the cell membrane (by keeping unmodified MCV, MCH, and MCHC). In 3 cases out of 22, hemolysis (complete or partially) occurred, but we are not yet sure whether this was caused by laser exposure or by certain environmental physical factors

Blood Trauma Cold Laser Clinical Studies

The following is a summary of some of the clinical studies that were conducted using cold laser to treat blood trauma. These studies are presented here to demonstrate the wide uses of a cold lasers in the treatment of different medical conditions.

Intravascular laser irradiation of blood in treatment of traumatic abdominal organs injuries

Koshelev VN, Chalyk IuV.

Khirurgiia (Mosk). 1998;(5):40-2.

The application of intravascular laser irradiation of the blood (ILIB) in combined postoperative intensive care in 28 patients with traumatic injuries of parenchymal organs and severe intraabdominal bleeding (more than 20% CBV) contributed to substantial improvement of the results of treatment and reduction of complications rate. ILIB boosts functional activity of leucocytes, normalizes the system of hemostasis and antioxidant defense.

Laser radiation to correct disorders of blood albumin transport in severe mechanical trauma

Kravchenko-Berezhnaia NR, Moroz VV, Kozhura VL.

The paper provides evidence for that it is expedient to perform multi-stage intravascular low-intensity laser blood radiation in patients with severe mechanical trauma and massive blood loss in the early posttraumatic period. The use of laser radiation at a wavelength of 632.0 nm by inserting a disposable light guide (its end power was 1.5-2.0 mW, and the duration of a session–30 min) as part of complex therapy in this group of patients romotes the increase of plasma albumin transport ability and the general stimulation of natural detoxifixation mechanisms.

Clinical application of GaAIAs 830 NM diode laser in treatment of rheumatoid arthritis

Kanji Asada, Yasutaka Yutani, Akira Sakawa and Akira Shimazu. Department of Orthopedic Surgery, Osaka City University Medical School, Japan

The authors have been involved in the treatment of rheumatoid arthritis (RA), in particular chronic poly-arthritis and the associated pain complaints. The biggest problem facing such patients is joint contracture, leading to bony ankylosis. This in turn severely restricts the range of motion (ROM) of the RA-affected joints, thereby seriously restricting the patient’s quality of life (QOL). The authors have determined that in these cases, daily rehabilitation practice is necessary to maintain the patient’s QOL at a reasonable level.

The greatest problem in the rehabilitation practice is the severe pain associated with RA- affected joints, which inhibits restoration of mobility and improved ROM. LLLT or low reactive level laser therapy has been recognized in the literature as having been effective in pain removal and attenuation. The authors accordingly designed a clinical trial to assess the effectiveness of LLLT in RA related pain (subjective self-assessment) and ROM improvement (objective documented data).

From July 1988 to June 1990, 170 patients with a total of 411 affected joints were treated using a GaAlAs diode laser system (830 nm, 60 mW C/W). Patients mean age was 61 years, with a ratio of males: females of 1: 5.25 (16%: 84%). Effectiveness was graded under three categories: excellent (remarkable improvement), good (clearly apparent improvement), and unchanged (little or no improvement).

For pain attenuation, scores were: excellent – 59.6%; good – 30.4%; unchanged – 10%.

For ROM improvement the scores were: excellent – 12.6%; good – 43.7%; unchanged – 43.7%. This gave a total effective rating for pain attenuation of 90%, and for ROM improvement of 56.3%. 

Candida Albicans Cold Laser Clinical Studies

The following is a summary of some of the clinical studies that were conducted using cold laser to treat candida albicans. These studies are presented here to demonstrate the wide uses of a cold lasers in the treatment of different medical conditions.

Effect of low-level laser therapy on Candida albicans growth in patients with denture stomatitis.

Maver-Biscanin M, Mravak-Stipetic M, Jerolimov V. Department of Prosthodontics, Clinical Hospital Centre, Zagreb, Croatia. mirela.maver@zg.htnet.hr
PMID: 15954824 [PubMed – indexed for MEDLINE

OBJECTIVE: The purpose of our report is to present the effect of low-level laser therapy on Candida albicans growth and palatal inflammation in two patients with denture stomatitis.

BACKGROUND DATA: The most common oral mucosal disorder in denture wearers is denture stomatitis, a condition that is usually associated with the presence of the yeast Candida albicans. Different treatment methods have been suggested to treat this symptom, none of which is proven to be absolutely effective.

METHODS: Two denture-wearing patients, both with palatal inflammation diagnosed as Newton type II denture stomatitis were treated with low-power semiconductor diode laser (BTL-2000, Prague, Czech Republic) at different wavelengths (685 and 830 nm) for 5 d consecutively. In both patients, palatal mucosa and acrylic denture base were irradiated in noncontact mode (probe distance of 0.5 cm from irradiated area) with different exposure times-5 min (830 nm, 3.0 J/cm2, 60 mW) and 10 min (685 nm, 3.0 J/cm2, 30 mW). The effect of laser light on fungal growth in vivo was evaluated after the final treatment using the swab method and semiquantitative estimation of Candida albicans colonies growth on agar plates. The severity of inflammation was evaluated using clinical criteria.

RESULTS: After lowlevel laser treatment, the reduction of yeast colonies on the agar plates was observed and palatal inflammation was diminished.

CONCLUSION: LLLT is effective in the treatment of denture stomatitis. Further placebo controlled studies are in progress. 

Burn Scars Cold Laser Clinical Studies

The following is a summary of some of the clinical studies that were conducted using cold laser to treat burn scars. These studies are presented here to demonstrate the wide uses of a cold lasers in the treatment of different medical conditions.

Low Level Laser Therapy’s conservative approach to the burn scar

K . Gaida / Burns , Volume 30 , Issue 4 , Pages 362 – 367

Burn scars are known to be difficult to treat because of their tendency to worsen with hypertrophy and contracture. Various experimental and clinical efforts have been made to alleviate their effects but the problem has not been solved.

Since patients keep asking for Low Level Laser Therapy (LLLT) and believe in its effectiveness on burn scars, and since former studies show contradictory results of the influence of LLLT on wound healing, this prospective study was designed to objectify the effects of LLLT on burn scars.

Nineteen patients with 19 burn scars were treated with a 400mW 670nm Softlaser twice a week over 8 weeks. In each patient a control area was defined, that was not irradiated. Parameters assessed were the Vancouver Scar Scale (VSS) for macroscopic evaluation and the Visual Analogue Scale (VAS) for pruritus and pain. Photographical and clinical assessments were recorded in all the patients.

Seventeen out of 19 scars exhibited an improvement after treatment. The average rating on the VSS decreased from 7.10�±2.13 to 4.68�±2.05 points in the treated areas, whereas the VSS in the control areas decreased from 6.10�±2.86 to 5.88�±2.72. A correlation between scar duration and improvement through LLLT could be found. No negative effects of LLLT were reported. The present study shows that the 400mW 670nm softlaser has a positive, yet sometimes limited effect on burn scars concerning macroscopic appearance, pruritus, and pain.

Candida Albicans Cold Laser Clinical Studies

The following is a summary of some of the clinical studies that were conducted using cold laser to treat candida albicans. These studies are presented here to demonstrate the wide uses of a cold lasers in the treatment of different medical conditions.

Bronchitis Cold Laser Clinical Studies

The following is a summary of some of the clinical studies that were conducted using cold laser to treat bronchitis. These studies are presented here to demonstrate the wide uses of a cold lasers in the treatment of different medical conditions.

The use of the low-level laser therapy (LLLT) in the treatment of some pulmonary diseases (10 – years experience)

DERBENJEV V. A. (1) ; MIKHAILOV V. A. (1) ; DENISOV I. N. (2) ; Affiliation(s) du ou des auteurs / Author(s) Affiliation(s) (1) Scientific and Practical Center of Laser Medicine, Moscow, RUSSIE, FEDERATION DE (2) I. M. Setchenov Moscow Medical Academy, RUSSIAN FEDERATION

The purpose of the present study was to compare the efficacy of the treatment of some pulmonary diseases with or without LLLT. 130 patients (49 of them with acute pneumonia, 42 – with chronic bronchitis, 39 – with chronic bronchial asthma) received LLLT and drug therapy, and 30 patients received only drug therapy (control group). The obtained results on the use of LLLT show that the period of convalescence in patients with both pneumonia and exacerbation of chronic bronchitis was lower with 4 – 6 days compared with control group. 68% patients with chronic bronchitis have staunch remission more than three month. Patients with bronchial asthma reported the decreasing of both number ofbronchospasm and doses of bronchodilators and glucocorticoids after LLLT. They have no exacerbation of asthma during 3 – 6 months; then these patients need the repetition of LLLT. In conclusion, LLLT is the suitable and effective complement to the treatment of pulmonary diseases. 

Asthma Cold Laser Clinical Studies

The following is a summary of some of the clinical studies that were conducted using cold laser to treat Asthma. These studies are presented here to demonstrate the wide uses of a cold lasers in the treatment of different medical conditions.

Treatment of bronchial asthma with low-level laser in attack-free period at children

Ailioaie, C.; Ailioaie, Laura AA(Univ. of Medicine and Pharmacy)
Proc. SPIE Vol. 4166, p. 303-308, Laser Florence ’99: A Window on the Laser Medicine World, Leonardo Longo; Alfons G. Hofstetter; Mihail L. Pascu; Wilhelm R. Waidelich; Eds.
06/2000 SPIE (c) 2000 SPIE–The International Society for Optical Engineering. Downloading of the abstract is permitted for personal use only. 2000SPIE.4166..303A

Bronchial asthma is a common disease in both the pediatric and adult populations, characterized by wide variations over short periods of time in resistance to airflow in intrapulmonary airways. A primary goal in the use of low- level laser therapy (LLLT) was the safe, effective and rapid palliation of symptoms owing to tracheal or bronchial obstruction. We have investigated the effects of LLLT comparatively with other modality trials in children’s asthma. In the study were included 98 patients aged 10-18 years diagnosed with moderate or severe asthma, in attack- free period. The patients were divided into 3 groups. Group 1 received only laser therapy using extra meridian acupuncture points and scanning technique. Group 2 was treated only with inhaled Serevent 2 X 25 micrometers , two times daily, 3 months. Group 3 was tread with Theophylline retard in dosage of 15-mg/kg/12 h, 3 months. At the end of treatment we remarked a noticeable improvement of the clinical, functional and immunological characteristics at 83 percent of patients in group 1, comparatively with only 70 percent (group 2) and 53 percent (group 3). The LLLT had a very good action on bronchial patency , displayed an immunocorrecting action and is recommended in attack-free periods at children.

The following is a summary of some of the clinical studies that were conducted using cold laser to treat blood irritation. These studies are presented here to demonstrate the wide uses of a cold lasers in the treatment of different medical conditions. 

The Effects of Laser Therapy in the Early Stages of Rheumatoid Arthritis Onset

C. Ailioaie, M. D.

Medical Office for Laser Therapy, Iassy, RO
Laura Marinela Lupusoru-Ailioaie, M. D.
“Al.I.Cuza” University, Dept. of Medical Physics, Iassy, RO

1.PURPOSE:

To study the effects of laser therapy, in comparison with other modality trials (NSAIDs), at the onset of (RA).

2.SUBJECTS and METHODS:

In the study 59 patients were included, in the first 6 – 12 months from RA onset. The patients were divided into three groups: Group 1 (21 patients) received laser therapy; Group 2 (18 patients) was submitted to placebo laser therapy and NSAIDs medication; Group 3 (20 patients) was treated only with NSAIDs. Physical therapy was instituted in all three groups.

A GaAIAs diode laser (830 nm, maximum output power 200 mW) was used. During 4 months, courses of laser therapy – once daily for 8 days, monthly – were administered to Group 1 and laser placebo Group 2. The density of energy (2 – 4 J/cm2) and frequency (5 Hz or 10 Hz) were dependent on the number and severity of pain in affected joints.

3.RESULTS:

The analysis of the clinical and biological parameters at the end of treatment showed a statistical significant decrease of duration of morning stiffness of pain at rest and during movements and improved acute phase reactants. The overall efficacy rate in these studies was 86% in group 1, 50% in the placebo laser group, and 40% in group 3.

4.DISCUSSION and CONCLUSIONS:

After 4 months of treatment, our investigations showed that infra-red laser therapy was able to restore function, to relieve pain and to avoid the complications of the disease or NSAIDs therapy (digestive or renal) at RA onset,beeing the most perspective modality of treatment.

The effect of laser therapy in complex treatment of patients with rheumatoid arthritis.

Korolkova O M et al.

115 patients with rheumatoid arthritis (RA) of II-III degrees were treated with basic RA medications and infrared laser. In a control group of 20 patients only basic medication was given. 10 areas of the body were irradiated daily, increasing the dose every day during a period of 8-10 days. The effectiveness of the therapy was controlled through laboratory tests on i.a. inflammatory agents and the activity of lipid peroxidation. The results were statistically significant. The best effect was found in patients with degree II RA. Steroid medication could be reduced 8-10 days earlier in this group of patients and in some cases the medication could even be excluded. Degree III patients had a more moderate benefit of the laser treatment.

The interauricular laser therapy of rheumatoid arthritis.

Sidorov-V-D, Mamiliaeva-D-R, Gontar-E-V, Reformatskaia-SIu.Vopr-Kurortol-Fizioter-Lech-Fiz-Kult. 1999; (3): 35-43.

Investigations have proved the ability of interauricular low- intensity infrared laser therapy (0.89 nm, 7.6 J/cm) to produce anti- inflammatory,immunomodulating action in patients with rheumatoid arthritis. The method has selective, pathogenetically directed immunomodulating effect the mechanism of which is similar to that of basic antirheumatic drugs and of intravenous laser radiation of blood. This laser therapy can be used as an alternative to intravenous blood radiation being superior as a noninvasive method.Interauricular laser therapy can potentiate the effects of nonsteroid anti-inflammatory drugs, cytostatics and diminish their side effects.

CLINICAL APPLICATION OF GaAIAs 830 NM DIODE LASER IN TREATMENT OF RHEUMATOID ARTHRITIS

Kanji Asada, Yasutaka Yutani, Akira Sakawa and Akira Shimazu. DepartmentofOrthopaedic Surgery, Osaka City UniversityMedical School, Japan

The authors have been involved in the treatment of rheumatoid arthritis (RA), in particular chronic poly-arthritis and the associated pain complaints. The biggest problem facing such patients is joint contracture, leading to bony ankylosis. This in turn severely restricts the range of motion (ROM) of the RA-affected joints, thereby seriously restricting the patient’s quality of life (QOL). The authors have determined that in these cases, daily rehabilitation practice is necessary to maintain the patient’s QOL at a reasonable level. The greatest problem in the rehabilitation practice is the severe pain associated with RA-affected joints, which inhibits restoration of mobility and improved ROM. LLLT or low reactive level laser therapy has been recognized in the literature as having been effective in pain removal and attenuation. The authors accordingly designed a clinical trial to assess the effectiveness of LLLT in RA related pain (subjective self-assessment) and ROM improvement (objective documented data). From July 1988 to June 1990, 170 patients with a total of 411 affected joints were treated using a GaAlAs diode laser system (830 nm, 60 mW C/W). Patients mean age was 61 years, with a ratio of males: females of 1: 5.25 (16%: 84%). Effectiveness was graded under three categories: excellent (remarkable improvement), good (clearly apparent improvement), and unchanged (little or no improvement). For pain attenuation, scores were: excellent&emdash;59.6%; good&emdash;30.4%; unchanged&emdash;10%. For ROM improvement the scores were: excellent&emdash;12.6%; good&emdash;43.7%; unchanged&emdash;43.7%. This gave a total effective rating for pain attenuation of 90%, and for ROM improvement of 56.3%.

LASER THERAPY OF RHEUMATOID ARTHRITIS.

Goldman JA, Chiapella J, Casey H, Bass N, Graham J, McClatcheyW, Dronavalli RV, Brown R, Bennett WJ, Miller SB, Wilson CH, Pearson B, Haun C, Persinski L, Huey H, MuckerheideM

Thirty people with classical or definite rheumatoid arthritis received laser exposure to a Q- switch neodymium laser that operated at 1.06 micrometer with an output of 15 joules/cm2 for 30 nsec. One hand was lased attheproximalinterphalangeal (PIP) and metacarpal phalangeal (MCP) joints, whereas the other hand was sham lased. The patient, physician, and occupational therapy evaluators did not know which hand was being lased. Twenty- one patients noted improvement of both their MCP and PIP joints of both hands during laser therapy. Twenty-seven noted improvement of their PIP joints and 26 noted improvement of the MCP joints during therapy. Heat, erythema, pain, swelling, and tenderness all improved with time in both hands, but the lased hand had more significant improvement in erythema and pain. There was also significant improvement in grasp and tip pressure on the lased side. The level of circulating immune complexes as measured by platelet aggregation decreased during lasing. The improvement may be related to laser exposure. The exact role that laser radiation has upon rheumatoid arthritis and its mechanism of action remain.

LASER THERAPY IN RHEUMATOLOGY

Judit OrtutayM.D., Klara Barabas M.D., Ph.D., *Adam Mester MD National Institute of Rheumatology and Physiotherapy, Budapest *Semmelweis University, Faculty of Medicine, Dept. of Diagnostic Radiology and Oncotherapy, National Laser Therapy Centre, Peterfy Sandor Teaching Hospital, Budapest .

Barabas irradiated first the joints of rheumatoid arthritis (RA) patients without skin ulcer. In the first open study objectively the range of motion and circumference of the treated joints were measured, Ritchie index as semiobjective parameter, subjective parameters as joint tenderness and pain on a visual analogous scale (VAS) were registered. The walking time was registered as a functional disability parameter. Laboratory activity parameters and the 99mTechnetium index was measured. The second part of the clinical study was double blinded, Infra Red (10mWand 100 mW) lasers were used versus dummy devices with the same outlook. The third part of the study were in vitro experiments. Synovial membranes of rheumatoid arthritis patients The DNA/RNA ratio of the RA group was compared to the control group. Significant difference was detected between the two groups. The fourth phase of clinical studies was to detect the effects of laser irradiation in other rheumatic diseases: psoriatic arthritis,sacroileitis, osteoarthritis, entesopathy, tenosynovitis, bursitis calcarea, fibromyalgia, localised muscle spasm, periarthritis humeroscapularis etc. The different wavelengths (604, 630, 660, 670, 690, 750, 780, 790, 820, 830, 904, 1053, 1219 nm,) were compared (30 – 100 mW) with other physiotherapy modalities, like ultrasound. Acknowledgement: The Central Research Institute of the Hungarian Academy of Sciences and LASOTRONIC AG (Switzerland) was helping the research.

Low level laser therapy (classes I, II and III) in the treatment of rheumatoid arthritis.

Brosseau L, Welch V, Wells G, deBie R, Gam A, Harman K, Morin M, Shea B,Tugwell P. School of Rehabilitation Sciences, Faculty of Health Sciences, University of Ottawa, 451 Smyth Road, Ottawa, Ontario, Canada, K1H-8M5.

BACKGROUND: Rheumatoid arthritis (RA) affects a large proportion of the population. Low Level Laser Therapy (LLLT) was introduced as an alternative non-invasive treatment for RA about 10 years ago. LLLT is a light source that generates extremely pure light, of a single wavelength. The effect is not thermal, but rather related to photochemical reactions in the cells. The effectivenessofLLLT for rheumatoid arthritis is still controversial.

OBJECTIVES: To assess the effectiveness of LLLT in the treatment of RA.

SEARCH STRATEGY: We searched MEDLINE, EMBASE, the registries of the Cochrane Musculoskeletal group and the field of Rehabilitation and Related Therapies as well as the Cochrane Controlled Trials Register up to January 30, 2000.

SELECTION CRITERIA: Following an a priori protocol, we selected only randomized controlled trials of LLLT for the treatment of patients with a clinical diagnosis of RA were eligible. Abstracts were excluded unless further data could be obtained from the authors.

DATA COLLECTION AND ANALYSIS: Two reviewers independently select trials for inclusion, then extracted data and assessed quality using predetermined forms. Heterogeneity was tested with Cochran’s Q test. A fixed effects model was used throughout for continuous variables, except where heterogeneity existed, in which case, a random effects model was used. Results were analyzed as weighted mean differences (WMD) with 95% confidence intervals (CI), where the difference between the treated and control groups was weighted by the inverse of the variance. Standardized mean differences (SMD) were calculated by dividing the difference between treated and control by the baseline variance. SMD were used when different scales were used to measure the same concept (e.g. pain). Dichotomous outcomes were analyzed with odds ratios.

MAIN RESULTS: A total of 204 patients were included in the five placebo-controlled trials, with 112 randomized to laser therapy. Relative to a separate control group, LLLT reduced pain by 70% relative to placebo and reduced morning stiffness duration by 27.5 minutes (95%CI: 2.9 to 52 minutes) and increased tip to palm flexibility by 1.3 cm (95% CI: 0. 8 to 1.7 cm). Other outcomes such as functional assessment, range of motion and local swelling did not differ between groups. There were no significant differences between subgroups based on LLLT dosage, wavelength, site of application or treatment length. For RA, relative to a control group using the opposite hand, there was no difference between the control and treatment hand, but all hands improved in terms of pain relief and disease activity.

REVIEWER’S CONCLUSIONS: In summary, LLLT for RA is beneficial as a minimum of a four- week treatment with reductions in pain and morning stiffness. On the one hand, this meta- analysis found that pooled data gave some evidence of a clinical effect, but the outcomes were in conflict, and it must therefore be concluded that firm documentation of the application of LLLT in RA is not possible. Clinicians and researchers should consistently report the characteristics of the LLLT device and the application techniques used. New trials on LLLT should make use of standardized, validated outcomes. Despite some positive findings, this meta-analysis lacked data on how LLLT effectiveness is affected by four important factors: wavelength, treatment duration of LLLT, dosage and site of application over nerves instead of joints.

THE EFFECTIVENESS OF LASER THERAPY IN COMPLEX TREATMENT OF PATIENTS WITH RHEUMATOID ARTHRITIS

O.M. Korolkova, V.T. Burlachuk, O.V. Gordienko, E.A. Afanasevskaya Voronezh State Medical Academy, Voronezh Regional Hospital, Voronezh, Russia

The purpose of this research is to evaluate the effectiveness of laser therapy among patients with different extents of rheumatoid arthritis (RA) disease. There has been a study of 115 patients with RA activity II-III (the main group) who apart from the basic therapy also received laser treatment.
The apparatus ALT “Mustang” with the power of 2-10 W and infrared wave range has been used. The laser influence has been aimed at the area of a damaged joint. The duration of laser influence is from 5 to 17 minutes, adding 1-2 minutes daily. The number of fields is 10, the number of treatment procedures -8-10, The control group consists of 20 patients with RA (basic therapy only).

The control of effectiveness of the therapy was based on the complex laboratory data, including definition of non-specific factors of inflammation and the factors of activity of lipid peroxidation.
The greatest effect of the therapy has been achieved in the main group of patients with activity II. In comparison with the control group we managed to receive improve-ment 8- 10 days earlier which allowed us to reduce the demand of steroids and in case of 20 patients even cancel taking them. We received statistically reliable fall of the activity of inflammation andlipidperoxidation. More moderate effect of the therapy was reached treating patients from the main group with activity III.

THE USE OF SUPRAVASCULAR BLOOD RADIATION WITH INFRARED LASER FOR TREATMENT OF SECONDARY VASCULITIS IN PATIENTS WITH RHEUMATOID ARTHRITIS

Y.L. Grinstein, S.V. Ivlev Medical Academy. Krasnoyarsk, Russia

The purpose of this work was to study the opportunity of the use ofsupravascular blood radiation with infrared laser (IR-laser) for the treatment of secondaryvasculitis in patients with rheumatoid arthritis (RA). The investigation included 12 patients with RA and secondary vasculitis signs. They received a course ofsupravascular blood radiation with IR-Iaser (wavelength 820-850 nm, 7-10 procedures). Control group consisted of 8 patients. Placebo laser therapy (LT) was administered to 7 patients. Such characteristics as hemostasis properties, a state of microcirculation in bulbar conjunctiva vessels were studied in all patients before and after treatment. It was revealed significant decrease of both XIIa-depended fibrinolysis and Willibrand’s factor level. The improvement of blood rheological properties was confirmed by a decrease of erythrocyte aggregation and improvement of its deformability.

Bulbarconjunctivalmicroscopia revealed significant diminution of intravascular change index, significant increase of arteriola-venula ratio. The improvement of nephritis manifestations (significant decrease of proteinuria level). The changesofhemostasis parameters microcirculation system were not significant in patients receiving both placebo LT and conventional therapy. Conclusions: 1) It was revealed significant diminution of endothelium lesion andXIla-dependedfibrinolysis restoration after IR-laser therapy in patients with RA and secondaryvasculitis. 2) Both microcirculation state in bulbar conjunctiva vessels and blood rheological properties significantly improve after IR-laser therapy. It is confirmed by a significant improvement of erythrocytedeformability and a decrease of its aggregation. 3) IR-laser therapy leads to urinary syndrome regression.

DIAGNOSTIC SIGNIFICANCE OF THE IMMUNITY INDICES INVESTIGATION IN THE USE OF LASER THERAPY IN PATIENTS WITH RHEUMATOID ARTHRITIS AND THE DISEASE COURSE PROGNOSIS

A.V. Nikitin, V.D. Khvan, E.F. Yevstratova Medical Academy, Voronezh, Russia

The results of the examination of the patients with rheumatoid arthritis (RA) have shown the systemic lesion of all the links of the immune system. Many-sided positive in-fluence of low energy laser irradiation on the impairment of immune homeostasis has been shown. The aim of the investigation was to study the possibility of the low energy laser irradiation use in patients with RA depending on some immunity indices and the disease course prognosis.

60 patients with RA at the age of more than 16 years old hav-ing inflammatory process activity of the I-II degrees according to the RA criteria of the American Rheumatological Association classification have been examined. 30 patients of the control group underwent the conventional treatment with non-steroid antiinflammatory drugs, basic treatment with delagil and physiotherapy. 30 patients of the main group underwent the conventional treatment and laser therapy on the joints by the infra-red laser installation “UZOR” with the wavelength of 0,89 um, the output power of 2 mW in combination with the above-vein blood irradiation by the helium-neon laser installation “ALOK-1” with the output power of 0,6 mW. The treatment was carried out daily during 15 days.

The immunity indices analysis before and after the treatment in both groups has established their obvious improvement in patients treated by laser irradiation: T- lympocytes (CD3 (p < 0.05), immunoglobulins ? (p < 0.05), T-helpers inductors (CD4+) (p < 0.05). The positive dynamics of the immunity indices in the studied group cor-related with the clinical improvement of the patients condition and depended on the marked immunity indices changes before the treatment, such as T-lymphocytes (CD3), Thelpers inductors (CD4+), immunoglobulins C. The marked positive dynamics of the abo- vementioned indices were not observed in the control group. 

Arthritis-Rheumatoid Cold Laser Clinical Studies

The following is a summary of some of the clinical studies that were conducted using a cold laser to treat Arthritis-Rheumatoid. These studies are presented here to demonstrate the wide uses of cold lasers in the treatment of different medical conditions.

50 year old female patient diagnosed as having Class 3 RA inflammatory phase of steady development. Probes used in treatments were 820nm (50mW) and 31 cluster probe with the 820nm probe being administered on each interphalangeal joint (30 seconds per point) followed by the cluster (one minute) over the whole hand. The pulsing frequency was 20 Hz and administration of treatment three times per week. The total number of treatments was 12 over a one month period.

You can see the improvement in the treatment of the condition and the third picture shows the progress at 13 treatments. After 6 months follow up it was found the initial inflammation was beginning to creep back, but the overall condition was much improved in comparison with the original status of the patient with no LLLT treatment.

Beneficial Effects of Laser Therapy in the Early Stages of Rheumatoid Arthritis Onset

Contantin Ailioaie1, Laura Marinela Lupusoru-Ailioaie2 1Medical Office for Laser Therapy, 1 Bistrita, B10-2, 6600-Iassy, Romania, 2AI.I. Cuza University, Dept. of Medical Physics, Iassy, Romania
LLLT Original Articles, Laser therapy Volume. 11-2, pg.79

The purpose of this study was to determine the effects of laser therapy in pain reduction and/or recovery of patients at the onset of Rheumatoid Arthritis (RA), compared with the traditional non-steroidal anti-inflammatory drugs (NSAIDs). Fifty-nine patients with RA of 6-12 months duration were included in the study. The patients were divided into 3 groups: Group 1 (21 patients) received laser therapy; Group 2 (18 patients) was submitted to placebo laser therapy and NSAIDs medication; Group 3 (20 patients) was treated only with NSAIDs. Physical therapy was instituted in all three groups. GaAIAs diode laser of 830 nm wavelength and 200mW maximum output power was used. Group 1 received laser therapy once each day, eight days per month, for a total of 32 treatments during a four-month period. The parameters used were 2-4 J/cm2 energy density, and a frequency of 5 Hz or 10 Hz depending on the number and severity of pain in the affected joints. Placebo laser treatment was given to group 2. the functional activity score, the acute pain phase reactants (ESR and C-reactive protein), T-lymphocytes and NK (natural killer) â?? cells were estimated. Synovial biopsies and Magnetic Resonance Imaging (MRI) of the synovial membrane were performed as well. The analysis of the clinical and biological parameters at the end of treatment showed a statistically significant decrease of duration of morning stiffness, of pain at rest and during movements, and improved acute phase reactants.

The overall efficacy rate in these studies was 86% in the first group, 50% in the laser placebo group and 40% in the NSAIDs-treated third group. After four months of treatment, our investigations showed that 830 nm infrared laser therapy promoted the restoration of function, relieving pain and limited the complications of RA.

Arthritis-Cervical Cold Laser Clinical Studies

The following is a summary of some of the clinical studies that were conducted using cold laser to treat Arthritis-Cervical. These studies are presented here to demonstrate the wide uses of a cold lasers in the treatment of different medical conditions.

The clinical efficacy of low-power laser therapy (lllt) on pain and function in cervical osteoarthritis.

Ozdemir F, Birtane M, Kokino S. Department of Physical Therapy and Rehabilitation, Medical Faculty of Trakya University, Edirne, Turkey.
Clin Rheumatol 2001;20(3):181-4

Pain is a major symptom in cervical osteoarthritis (COA). Low-power laser (LLLT) therapy has been claimed to reduce pain in musculoskeletal pathologies, but there have been concerns about this point. The aim of this study was to evaluate the analgesic efficacy of LPL therapy and related functional changes in COA. Sixty patients between 20 and 65 years of age with clinically and radiologically diagnosed COA were included in the study. They were randomised into two equal groups according to the therapies applied, either with LPL or placebo laser. Patients in each group were investigated blindly in terms of pain and pain-related physical findings, such as increased paravertebral muscle spasm, loss of lordosis and range of neck motion restriction before and after therapy. Functional improvements were also evaluated. Pain, paravertebral muscle spasm, lordosis angle, the range of neck motion and function were observed to improve significantly in the LPL group, but no improvement was found in the placebo group. LPL seems to be successful in relieving pain and improving function in osteoarthritic diseases.

Arteriosclerosis Cold Laser Clinical Studies

The following is a summary of some of the clinical studies that were conducted using cold laser to treat Arteriosclerosis. These studies are presented here to demonstrate the wide uses of a cold lasers in the treatment of different medical conditions.

Low Level Laser Therapy in the Treatment of Arteriosclerosis of the Lower Limbs

Attia M.A., EI-Kashef H. Laser center, Alhikmah Hospital, EI-Mansoura, Egypt Physics Department, Faculty of Science, Tanta Egypt

Abstract: Twenty patients with arteriosclerosis in the lower limbs were treated by low level laser therapy with lumbar paravertebral application a 20mW continuous wave He-Ne laser(632nm> and simultaneously a 250mW continuous diode laser (830 nm> was applied transcutaneously to the lumbar region by the scanner for 30 minutes 6 days per week for 2 months. The mean value of percentage of success was 87.2%. The results of the study indicate that low level laser therapy can influence beneficially arteriosclerosis in the lower limbs which is generally difficult to treat.

Introduction: Arteriosclerosis is a chronic obliterative disease affecting the lower portion of the aorta, its main branches and the arteries supplying the extremities. The condition occurs predominantly in patients between the ages of 45 and 70 years. It is present much more frequently in males than in females. It may be caused by an error in the metabolism of lipids (Oliver, 1955). Buck (1959) believed that the abnormal vascularization of the arterial wall has also been proposed as a significant factor in the development of the disease. Also, the Question of heredity as a factor in the pathogenesis of the disease must be raised (McKusick, 1958). The patient complains of pain in the extremities typical of intermittent calculation and difficulty in walking, finally rest pain is experienced particularly at night, characterized by a sensation of coldness or burning, hyperesthesia and tingling (Abramson, 1974). The purpose of the study was to evaluate the efficacy of low power laser in the treatment of arteriosclerosis. Materials and methods Twenty patients with arteriosclerosis of the lower limbs from the out-patient clinic of the General medicine Department of both Tanta University Hospital and Alhikmah Hospital, Mansoura were included in the study. The male to female ratio was 4:1. The ages ranged from 45 to 69 years. The duration of symptoms ranged from one to 8 months (table 1). The patients were experiencing pain in both calf muscles after walking distances (claudication distance) ranging from 200 to 500 meters. Three patients experienced rest pain at night. Clinical examinations revealed palpable walls of superficial arteries, particularly the dorsalis pedis. In the study, the claudication distance was determined for every patient in meters prior to treatment. Control normal individuals within the patients’ age group walked an average of 1500 meters without experiencing calf pain.

Results: Pain was relieved in 16 patients who received 3 to 7 courses of treatment. Eight patients were able to walk 1500 meters without experiencing any pain in the calf muscles, hence their rate of success was 100%. The remaining patients showed improvement from 73% to 95 (table 2). Three patients discontinued treatment for reasons not related to the treatment. One patient, age 69, with 4 months duration and claudication distance of 240 meters showed no improvement after receiving 7 courses of treatment. The mean rate of success was 87.2%.

Discussion: It was not easy to discuss the treatment of arteriosclerosis and only in the last 20 years have advancements been made. Although physical therapy is only part of the total management of arteriosclerosis of the lower limbs, it could play an important role in the management. No references were found in literature concentrating the use of low level laser therapy in the management of arteriosclerosis. This work has shown that low level laser therapy is capable of increasing the circulation in muscles and, with prolonged treatment, a considerable significant improvement in circulation can be achieved in cases of arteriosclerosis. Low level laser therapy not only influences the superficial circulation but also deep circulation. The mechanism of this action is probably due to the sympathetic effect, but it could also be used on the action of normal skin excitation. It can be assumed that apart from the increase in the pain threshold (Nikolova, 1968) and muscular excitation threshold, there is also an increase in the threshold for sympathicus stimulation (Pabst, 1960). By this paravertebral application, we must concede more importance to the sympathicus action, than to the direct action on the vasometer assumed by some authors (Monode, 1951; Zinn, 1956). The results obtained in the treatment of arteriosclerosis by means of low level laser therapy are certainly based on a number of different effects. First, there is sympathetic action. Also, the analgesic action of this type of current deserves special attention, since it is the cause of the subjective improvement which frequently precedes the objective improvement in cases of sever arteriosclerosis when pain is felt while resting. Also, rest pain did not mean the presence of irreversible pathologic change as the three patients with rest pain showed a good degree of improvement. The patient who showed no improvement after 7 courses of treatment may have an irreversible pathologic change and, this age of 69 years may have also contributed to the failure of treatment.

Conclusion: Low level laser therapy may be considered in the treatment of peripheral arteriosclerosis. 

Application of laser acupuncture in the treatment of periarthritis humeroscapularis

Branka Nikolic,. spec. Sport’s med. Address Zavod za zdravstvenu zastitu radnika ZTP-a “Beograd“, 11000 BeogradSlobodana Penezica Dr. 23 Yugoslavia

The effect of low intensity semi conductor laser was used as treatment methods for periarthritis humeroscapularis. The CC laser (Computer Controlled laser) was applied. Laser therapy has positive biological effects and antiinflamatory, antioedema effects and analgesia. We treated 18 patients with periarthritis humeroscapularis, 14 were female patients.

The laser was locally applied at the AC points Sj 14, Sj 15, Li 15, Li 10, Sj 5, Si 3, three times a week for the first week and twice a week for the second and the third week. After first treatment 12 of patients had pain – alleviating effect. After 6-7 treatments all had pain – alleviating effect and complete recovery of shoulder’s motor activity. Low intensity therapy has its place for treatment of periarthritis humeroscapularis.

Treatment of the acute Periarthritis humeroscapular with laserpuncture.

Odalys Gonzales Ãlvarez, Main Educational Clinic of Urgencies “Antonio Maceo”, Cerro Municipality, Havana City.

The periarthritis humeroscapular is a syndrome that contains very precise affections: the bursitis, the calcified tendinitis of supraespinoso, the bicipital tendinitis, among others. Pain and limitation of the joint movements of the shoulder characterize it. The treatment with laser of low power can produce resolution of the lesion, whenever it is made in early phases of the disease. In this study we propose the use of the laserpuncture, due to our accumulated experience in the treatment of these affection in acute phase, with acupuncture. A prospective study was carried out during 2 years (1997 – 1999), where 62 patients were selected because they accomplished the Approaches of Inclusion for the study. The sample was divided by aleatory assignment in 2 Groups of Treatment. Th study Group I was treated with laserpuncture, using Cuban laser equipment of HeNe of 632,8 nm and a dose of joule/cm2 was applied, and the Control Group II was treated with acupuncture needles. The conventional medical treatment was suspended. Daily sessions were given from Monday to Friday, for two weeks, until a total of 10. Both techniques demonstrated to be effective in the treatment of these affections, improving the clinical and radiological symptoms significantly when the treatment sessions was concluded. The patients accepted the laserpuncture better because of its painless character, less time of application, and the absence of bleeding and stress. 

Alzheimer’s Cold Laser Clinical Studies

The following is a summary of some of the clinical studies that were conducted using a cold laser to treat Alzheimer’s Syndrome. These studies are presented here to demonstrate the wide uses of a cold laser in the treatment of different medical conditions.

The Efficacy of 904 nm Laser Therapy for Alzheimer’s Diseases

Kazuyoshi Zenba, Vice president of Kanagawa Acupuncture Massage Association Prof. Masayuki Inoue, Secretary of JLPLTPA

Preface: Although we had reported about the possible efficacy of low power laser therapy (LPLT) for Senile Dementia(S D) 3 times from 1993 at the annual meetings of Japan Society for Laser Medicine, there was no practically useful treatment found for Alzheimer’s disease(AD) and Parkinson disease and other Senile Dementia even after the start of elderly-care-insurance system in Japan. As we have continued above said laser therapy for SD at home care visit of elderly persons and felt very useful and effective, we would like to report about recent situation of laser therapy for AD patients.

Especially recently, the number of Alzheimer’s disease patients is increasing by the arrival of super-aged world in Japan. However the cause of this disease is not known and there is no effective treatment established at present. As to the mechanism of LPLT, its main mechanism is mostly elucidated by the progress in the field of Molecular biology and widely used for the removal of pain, decrease of swelling and treatment of wound. However its application for the treatment of Brain diseases is hardly practiced.

We have continued the treatment of Senile Dementia patients by LPL considering it as to be one of practical and effective treatment of this disease LPLT is very useful for the medical treatment of the senile dementia patients at home for the expansion of ADL, pain relief, mitigation of inflammation, prevention of bedsore, the treatment of hemiplegia in a brain blood vessel obstacle and the braking of aggravation of Alzheimer’s disease without any fear of side effects by the irradiation of LPL to the head of patients. It will be not to exaggerate to say LPLT can be one of the main treatments of senior patients at home in the near future.

Object of study: To study the practical usefulness of LPLT for the treatment of Alzheimer’s disease patients at home in terms of improvement of ADL and QOL and also for the reduction of the burden of families of the care of patients.

Method of treatment: 15 Alzheimers disease patients, 5 male, and 10 female received irradiation of LPL for 2 minutes at each point, 2-3 times a week for one year. Laser irradiation points were as follows. Acupuncture points established as effective based on a long history of Oriental medicine. (1) Acupuncture point to improve blood circulation (2) Acupuncture point for the treatment of stroke (3) Acupuncture point for adjustment of blood pressure (4) Acupuncture point for adjustment of balance of autonomous nerve.( the forehead, the right and left temple, occiput).

In addition, the method (based on papers in Russia and Armenia that intravenous LPL irradiation improved the viscosity of blood) of irradiating LPL to the place which touches the pulse of an artery under collarbone was used as an additional medical treatment point.

LPL instrument: LTU-904H made by RianCorp Pty Ltd in Australia. Laser Type: Gallium Arsenide Laser diode (Ga-As)
Laser Wavelength: 904nm
Peak Power: 5W

Purse frequency: Low 2500 Hz, High 5000Hz Purse duration: 200 nanoseconds
Average power: Low 2.5mW, High 5mW

The evaluation method: Since the improvement and maintenance of Alzheimer patients in the care at home was the major subject of this study, the impression by care workers about the situation of patients was recorded as data of patients. Evaluation items were orientation, conversation capability, cooperativeness, the lack of composure, social role and activity, clothes and dress and leisure activities. Completely no change was O point, slight effective was 1 point and clearly effective was evaluated as 2 points. Summed up values were used for the judgment of the efficacy of LPL treatment for each patient and total evaluation of the usefulness of LPL therapy for Alzheimer’s disease.

Result: Among evaluation items, cooperativeness and the lack of composure were observed as useful as an effect, the effect appeared half a year after and continued after one year and later on.

It was suggested that LPLT was useful for the improvement of orientation disturbance, normalization of clothing and the dress. Because, many families and the care workers talked us LPL was very helpful since the present condition could be maintained, without getting worse.

After the start of LPL treatment, It was reported that the coldness of the hands and legs of patients vanished and joints and muscular stiffness were also mitigated. Therefore, the joint movable region was also secured comparatively. Also in excretion care, it became very easy to carry out the care of patients. It was able to say about all patients that their expression became quiet and came to show understanding to directions of a care worker. It is suggested by this that LPLT as one of practical treatment of patients at home by the improvement of care power at home.

Discussion: Since the senile-dementia-of-Alzheimer-type has a feature of advance of condition and it was said that condition became gradually critical, we tried this treatment expecting the maintenance of condition, and examination whether there was any delay effect. It is considered to have been suggested at least there was an effect of maintaining present condition in a certain field.

About the effect over the brain of laser irradiation, it was reported at the annual meeting of Japan Society for Laser Surgery and Medicine meeting in 1991 by Jun-Ichi Nishimura et al., of Department of Physiology, Yokohama City University School of Medicine. The 780 nm wavelength and 1mW laser irradiation to the inner core of rats made the increase of cerebral blood flows at hippocampus by the amount of about 20% in average (control:15, laser:15). Although after 30 minute it was confirmed having maintained the increase of 10%. In 1992 at the same medical conference, Takayuki Obata et. al., of the same Universityreported that laser irradiation of 780nm wavelength10mW to the head surface of rats activated cranial nerves activities (control:16, laser:15).

These reports suggested the possible use of LPL treatment to Senile Dementia and other brain disease patients. Unfortunately, these findings did not much attention to medical world In Japan. However, recently a possibility that ATP and cell-membrane potential of brain neuron could be controlled specifically by the irradiation of near-infrared lasers (830nm wavelength) on the surface of heads of rats was reported by Oda- Mochizuki etc.al.Ã?Ritsumeikan University, Synchrotron Light-Life Science Center. It was suggested by this research center that the condition of Epilepsy could be stabilized by Irradiating infrared laser from outside of heads of patients and decreasing the unusual excitement of cerebral neurons and in case of cerebral infarction, the aggravation of progress of Necrosis and Apoptosis of cerebral neurons could be stopped by making stabilize the electric potential of cell membrane of cerebral neurons.

Development of future research in this field is expected as what supports scientifically the medical treatment of LPL and the result of condition improvements, such as Senile Dementia, brain blood vessel obstacles, hemiplegia and Parkinson patients. Although the

wavelength of LPL used for Examination of the validity of LPL to Senile Dementia Patients” which we announced at the annual meetings of Japan Society for Laser Surgery and Medicine meeting over three years from 1993, was 780nm and out put was10mW, and 1mw. The LPL used for this examination was of the wavelength of 904nm and the peak value of a pulse was 5W and the average output was 5mW. However, the same medical treatment effect was confirmed. Although it is thought that there was no wavelength dependability of laser to the efficacy over the Alzheimer’s diseases of LPL(780,830,904nm lasers are equally effective for pain removal and wound healing), how is it sure enough? A question remains.

By this examination, at least the following effects were confirmed. Namely (1) the advance of condition of Alzheimer’s diseases has been blocked (2) and the expression of patients changed to smiling from disinterestedness, cooperativeness came out, an understanding came to be shown to a partner (3) We received comments from many families that the care of patients became much easier than before. It is considered that the head irradiation of near-infrared laser light makes the cerebral blood flow improve, activates nerve activities and has applied brakes to the advance of the apoptosis of brain cells as animal experiments are proving. Since the medical treatment efficacy is seldom acknowledged to middle degree class and a serious patient, although it is hard to call it the fundamental cure for Alzheimer’s disease by the present method, if medical a treatment is started in early-stage and continued, it may be possible to call it one of practical cures which can stop subsequent advance of disease.

Based on this experience, collecting the newest information overseas, research results in the biology field, we will continue to study the possible LPL method for the dramatic cure of Alzheimer’s diseases by changing the wavelength of the laser, the output, and the irradiation method and also combination with other therapies. 

Alcoholism Laser Clinical Studies

The following is a summary of some of the clinical studies that were conducted using cold laser to treat Alcoholism. These studies are presented here to demonstrate the wide uses of cold lasers in the treatment of different medical conditions.

Acupuncture for alcohol withdrawal: a randomized controlled trial

1 Psychiatric Hospital,
2 Department of Complementary Medicine (KIKOM), Inselspital, University of Berne, 3010 Berne, 3 Department of Social and Community Psychiatry, University of Berne, Laupenstrasse 49, 3010 Berne, Switzerland,

4 MRC Health Services Research Collaboration, Department of Social Medicine, University of Bristol, Bristol, UK and
5 Department of Social and Preventive Medicine, University of Berne, Finkenhubelweg 11, 3012 Berne, Switzerland
Received 1 February 2002; in revised form 11 March 2003; accepted 27 March 2003

Background and Aims: Previous trials on acupuncture in alcohol addiction were in outpatients and focused on relapse prevention. Rates of dropout were high and interpretation of results difficult. We compared auricular laser and needle acupuncture with sham laser stimulation in reducing the duration of alcohol withdrawal.

Methods: Inpatients undergoing alcohol withdrawal were randomly allocated to laser acupuncture (n = 17), needle acupuncture (n = 15) or sham laser stimulation (n = 16). Attempts were made to blind patients, therapists and outcome assessors, but this was not feasible for needle acupuncture. The duration of withdrawal symptoms (as assessed using a nurse-rated scale) was the primary outcome; the duration of sedative prescription was the secondary outcome. Results: Patients randomized to laser and sham laser had identical withdrawal symptom durations (median 4 days). Patients randomized to needle stimulation had a shorter duration of withdrawal symptoms (median 3 days; P = 0.019 versus sham intervention), and tended to have a shorter duration of sedative use, but these differences diminished after adjustment for baseline differences.

Conclusions: The data from this pilot trial do not suggest a relevant benefit of auricular laser acupuncture for alcohol withdrawal. A larger trial including adequate sham interventions is needed, however, to reliably determine the effectiveness of any type of auricular acupuncture in this condition. 

Acute Respiratory Distress Disorder Cold Laser Clinical Studies

The following is a summary of some of the clinical studies that were conducted using cold laser to treat Acute Respiratory Distress Disorder. These studies are presented here to demonstrate the wide uses of cold lasers in the treatment of different medical conditions.

Acute Respiratory Distress Syndrome Successfully Treated with Low-Level Laser Therapy

Chan Gunn, Institute for the Study and Treatment of Pain

Abstract Acute respiratory distress syndrome (ARDS) is a medical emergency, which may be precipitated by an acute injury to the lung. The injury can also follow direct chest trauma from aspiration of gastric contents or inhalation of toxic gasses. ARDS is not itself a specific disease but a syndrome – a group of symptoms and signs that make up one of the most important forms of respiratory failure. ARDS is devastating because it can develop quite suddenly in persons whose lungs had been perfectly normal – it kills at least 60% of its victims. The fundamental problem is the sudden appearance of large amounts of fluid in the lung preventing blood from entering the alveoli and decreasing oxygen extraction resulting in hypoxemia.

The tragic feature of ARDS is that it drowns its victim. The appearance of fluid in the lungs – a lethal situation – is from neuro-inflammation.

Important to keep in mind when treating ARDS are: a) Inflammation and Inflammatory exudates Gap Formation, b) Interstitial and Alveolar Inflammation, c) Inflammation and the Nervous System, d) Cholinergic anti-inflammatory pathway. Neuro-inflammation can be relieved by stimulation of the vagus nerve. Low-level laser therapy, a simple modality with few undesirable side effects, is used to relieve respiratory distress. 

Laser Therapy and Musculoskeletal Pain Syndromes (Chronic and Acute)

Musculoskeletal Pain Syndromes (Chronic and Acute)

Low-Level Light Therapy (LLLT) has been shown to be effective in a variety of musculoskeletal conditions and associated pain presentations.

In Rheumatoid Arthritis, LLLT can benefit not only the pain of acute small joint inflammation but also chronic pain. In a review article on rheumatology (3), some 18 papers were considered. All studies involved double-blind trials with LLLT in chronic rheumatoid and reported significant improvement in pain (80% success rate in relieving pain). Upon comparing LLLT to a similar rate of pain attenuation using anti-inflammatory drugs (NSAIDs), the LLLT was free of any side-effects while 20% of patients treated with NSAIDs suffered unacceptable side-effects of medication. In another study of 170 patients with rheumatoid arthritis using LLLT (4), pain attenuation of up to 90% was noted.

Trellis et al (6) used LLLT for osteoarthritis of the knee in 40 patients. He reported a significant reduction of 82% of the patients with improved joint mobility. Among 36 randomized patients, with pain caused by cervical osteoarthritis, those who received Infra-Red and Low-Level Laser treatment improved 75% compared with the group receiving mock treatment (31%). Similarly, a study of 60 patients with Cervical Osteoarthritis, Low Pulsed Laser was successful in relieving pain and in improving function.

The results of a study show that cervical myofascial pain is significantly improved at 3-month with Diode laser. A similar successful LLLT treatment has been described for whiplash injuries.

In a randomized study with 30 patients with supraspinatus or bicipital tendonitis, the results demonstrated the effectiveness of laser therapy in tendonitis of the shoulder. Another study with a patient population (n = 324), with either medial epicondylitis (Golfer’s elbow; n = 50) or lateral epicondylitis (Tennis elbow; n = 274), and randomly allocated, provides further evidence of the efficacy of LLLT in the management of lateral and medial epicondylitis.

Treatment with low-level laser therapy (LLLT) was shown effective in treating Carpal Tunnel Syndrome pain. Another study, significant decreases in McGill Pain Questionnaire scores, median nerve sensory latency, and Phalen and Tinel signs were observed after treatment series with Low-Level Laser Therapy. Patients could perform their previous work (computer typist, handyman) and be stable for 1 to 3 years.

In acute trauma, there is a soft tissue injury comprising swelling, hematoma, pain and reduced mobility. Sporting injuries and domestic accidents usually involve damage to muscles, joint ligaments, and tenclass. In the absence of bone fracture or other injury demanding priority treatment, LLLT should be instituted at the earliest opportunity. Kumar reported a comparative study in 50 patients with inversion injuries of the ankle. He found that compared to conventional physiotherapy, the LLLT treated patients showed a more rapid resolution of symptoms and an earlier return to full weight-bearing. 

Fibromyalgia (FM) is characterized by widespread pain in the body, associated with particular tender points. It is often accompanied by disturbed sleep patterns, fatigue, headaches, irritable bowel, and bladder syndrome, morning stiffness, anxiety, and depression. FM can cause a high level of functional disability and have a significantly negative effect on the quality of life. One study suggests that “Laser Therapy is effective on pain, muscle spasm, morning stiffness, fatigue, depression and total tender point number in Fibromyalgia”.

A randomized controlled study with 63 with non-radiating low back pain showed that LLLT significantly improved pain and function.

In summary, the bulk of published work to date supports the use of LLLT for the treatment of a variety of musculoskeletal conditions and associated pain. Moreover, the LLLT proved to be not only more effective than conventional methods but more economical as well. The added advantage of the absence of side effects, non-invasive nature of therapy and the ease of application ensure good patient acceptance of the treatment modality.

Why Buy A REMY or MEDRAY Laser From Class4Lasers.com?

• We’ve got your back – as a dedicated laser pro shop since 2003, serving many thousands of satisfied customers is our passion. We will go out of our way to ensure that you receive fast, friendly and professional service, training and support now and ongoing.
• Guaranteed Best Price – We always offer the lowest manufacturer-authorized prices and if you find it for less (within 30 days), we will meet or beat it. We ensure exceptional value with low prices, free shipping, training, certification, high quality products & ongoing support.
• The REMY & MEDRAY Lasers are 510k FDA Cleared for the widest range of therapeutic applications of all the class iv therapy lasers on the market, they are also granted CE Mark for distribution and use in Europe and the UK.
• We offer the lowest price per Watt of all FDA Cleared Class IV Lasers on the market without compromising the quality, features, longevity, or performance of the product. This ensures satisfaction with higher power performance and a faster ROI.
• We provide up to a 5-Year Manufacturer Warranty to make sure each laser really lasts.
• We have a Florida-based service center – to support fast and reliable service if ever needed, with all parts and technician for fast turn around. If determined a longer repair will be needed (unlikely), we will rush you out a loaner laser.
• We are factory-authorized distributors – which means you can rest assured that you are buying an authentic product from a reputable dealer.
 We provide a marketing tool kit to support the success of your class 4 laser business and the building of clients to accelerate ROI. This includes beautiful color digital templates of trifold brochures, post cards and posters customized with your logo and contact info.
• We provide a custom case – shockproof, waterproof, carrying case, and “Laser in Use” sign.
• Discover Lasers LLC is an A+ BBB Accredited Company since 2008. Your satisfaction is our goal and commitment, and we back that up with a *30 Day Money Back Satisfaction Guarantee.
• We have a dedicated toll-free number for concierge service and support with a laser specialist: Call Toll Free: 1-800-575-7963

REMY Class 4 Laser Details

Why Buy from Class4Lasers.com?

• We’ve got your back – as a dedicated laser pro shop since 2003, serving many thousands of satisfied customers is our passion. We will go out of our way to ensure that you receive fast, friendly and professional service, training and support now and ongoing.
• Guaranteed Best Price – We always offer the lowest manufacturer-authorized prices and if you find it for less (within 30 days), we will meet or beat it. We ensure exceptional value with low prices, free shipping, training, certification, high quality products & ongoing support.
• The REMY SPORT and REMY ELITE Lasers are 510k FDA Cleared for the widest range of therapeutic applications of all the class iv therapy lasers on the market, they are also granted CE Mark for distribution and use in Europe and the UK.
• We offer the lowest price per Watt of all Premium FDA Cleared Class IV Lasers on the market without compromising the quality, features, longevity, or performance of the product. This ensures satisfaction with higher power, performance, resulting in faster ROI.
• We provide up to a 5-Year Manufacturer Warranty to make sure each laser really lasts.
• We have a Florida-based service center – to support fast and reliable service if ever needed, with all parts and technician for fast turn around. If determined a longer repair will be needed (unlikely), we will rush you out a loaner laser.
• We are factory-authorized distributors – which means you can rest assured that you are buying an authentic product from a reputable dealer at the lowest factory direct pricing.
 We provide a marketing tool kit to support the success of your class 4 laser business and the building of clients to accelerate ROI. This includes beautiful color digital templates of trifold brochures, post cards and posters customized with your logo and contact info.
• We provide a deluxe custom case – a foam lined, shockproof, waterproof, carrying case, 3 protective glasses and “Laser in Use” sign.
• Discover Lasers LLC is an A+ BBB Accredited Company since 2008 with many 5 Star reviews. Your satisfaction is our goal and commitment, and we back that up with a *30 Day Money Back Satisfaction Guarantee.
• We have a dedicated toll-free number for concierge service and support with a laser specialist: Call Toll Free: 1-800-575-7963

The REMY Lasers come in the Classic SPORT/PT/VET/POD Models and the FX ELITE Models:
The Classic SPORT/VET delivers power up to 30W CW in the most proven optimal wavelengths for successful treatments with options of single wave length, dual (2) or quad (4). The most revered primary wavelengths for class IV lasers are either 810nm or 980nm, which are available individually in the 9 or 10 Watt single wave models. The 2 wave (dual) is available as a 30 Watt (15 Watts each wavelength) or 4 wave (QUAD), which is NOW available as a 30.2 (formerly 27.2) Watt System. Current independent research reveals that the 810nm is the best wavelength for deep penetration, musculoskeletal applications and hard tissue issues, supporting deep photobiomodulation (PBM). It can deliver great results for almost all applications where photobiomodulation is the primary goal. In the research, they found that 810nm provides up to 30 times the penetration of 980nm because it is not absorbed by the hemoglobin, which is why it helps to support regeneration and rehabilitation more effectively. Whereas the 980nm is popular for rapid pain relief plus reduction of inflammation, and is thus used in most larger pain clinics, and by most Class IV lasers since the beginning, which is why we offer it in our dual and quad wavelength versions. 

The REMY FX ELITE Models utilize the 810nm and 980nm wavelengths, PLUS the 1064nm wavelength, which is the longest useful wavelength of the “biological window”. It is scientifically proven to reach deeper levels of skin and tissues to stimulate production of collagen in the joints and spine. While some lasers are less efficient with certain skin types, the 1064nm wavelength is beneficial for use on all skin types. It delivers the longest and deepest penetration through the layers, with less dispersion in biological tissue, delivering extra pain melting power, all with minimal increase in heat output, for increased speed and efficient healing. It is also reported to improve human brain performance on cognitive tasks as well as to locally upregulate cerebral oxygen metabolism and hemodynamics. At 1064nm, this light wavelength penetrates into deeper tissue than either 810nm or 980nm wavelengths. This means the laser light activates metabolic processes in tissues unreachable by other light wavelengths.

The REMY Dual, REMY QUAD & REMY FX ELITE  offer multiple wavelengths within the “biological window” in different configurations. They include different combinations of the following wavelengths: 1064nm, 980nm, 905nm, 810nm, 635nm, or 650nm. The  secondary wavelengths are independently controlled just like with most high-end multi-wavelength systems. As a secondary or tertiary wavelength, these options add flexibility for muscle relaxation (at 980nm) and increased circulation and faster pain reduction (at 980nm), faster treatment, deepest penetration and support for the body and brain, with cooler temperature (at 1064), improved soft tissue treatments and wound care (at 635-650nm) and increased blood absorption with NO production (at 905nm).

For optimal PhotoBioModulation (PBM) 810nm is typically the primary and most desired wavelength due to deep penetration, rapid conversion of photons to ATP within the Mitochondria, with beneficial PBM effects throughout the entire musculoskeletal system, joints and hard tissues. Even though 1064nm, 980nm, 905nm and 650nm are outside of the therapeutic window they still add benefit in many applications and make the laser more versatile for additional treatment options. The REMY Classic and REMY FX ELITE systems easily switch between pulsing and continuous wave, are pulse adjustable up to 100% duty cycle, and includes an extensive internal protocol library with 25+ preset protocols for human applications and an additional 25+ preset protocols for animal applications. All of these systems come in a shock-proof, waterproof case with 3 pairs of protective eye glasses, 4 convex Zoom handpiece cage covers, first rate handpiece options, free training with certification for up to 6 techs, and include a professional marketing package to support you and your practice for a quick ROI.

Most laser companies don’t put much effort into their protocols. With REMY Lasers you get 25+ human and 25+ animal use protocols built in and ready to use with a couple of clicks. In the blue man picture nearby you can see a protocol choice screen. Simply choose/tap the part of the body on the screen and the protocol will launch. In many of the protocol libraries form other companies, only the name of the protocol changes but not the pulse frequency. Most protocols default to delivering maximum power for 10 minutes with no pulsing. Some systems will put the same dosage into an arthritic hand as they put into a bad hip, defying all logic and therapy standards. 

The advanced presets of the internal protocol library on the REMY work perfectly. They are each customized by a team of Doctors with precise variable in Hz frequency delivery in sweeps with multiple cycles and may combine pulsed and CW in a single setting for best results if the specific area warrants it. These lasers allow you to set them up to get the best results for each condition listed in the library. Additionally, you can create or modify and save your own custom presets for quick and easy use any time. If you have used another high-end system, then you will really appreciate the effort that went into the REMY protocols. It has one of the best internal protocol libraries of any high end laser and better protocols deliver superior results.

The REMY Lasers follow the best industry practices by adapting the treatment parameters to the patient. The 25+ protocols become hundreds of protocols once you take into consideration that each one can be customized for the patient according several variables. The setup screen as seen in a picture nearby shows how each protocol is adapted based on the patient size, skin color and the chronicity/pain level of the condition. In addition to following the best industry practices, the REMY Laser systems allow for manually over-riding the standards. One of the secrets of the laser industry is the effect of duty-cycle (on/off ratio) on the dosage delivery. Many systems like the LiteForce & K-laser use a fixed 50% duty cycle. What this means is that users are paying a very high price to get a 25-watt system (that costs about $30,000) that only puts out 12.5 joules/second anytime they are pulsing the laser. Since you pulse the laser for most applications, most users are wasting a huge amount of money because they are confused by the specifications and how they change the performance.
The REMY Laser Lasers have solved this problem by providing users the ability to program the duty cycle considerably higher than most other lasers. With the REMY Laser you can set up for 50-100% duty cycle so that means that a (15 watt) REMY pulsing at 90% will deliver more power (14 joules/second) and save you $16,500 when compared to a LiteForce Class IV Laser system. It makes you wonder why anyone would want to pay more for less?

REMY SPORT & FX ModelsR9 Single Wave
R10 Single Wave
VET9W Single Wave
VET10W Single Wave
MDC30W 2-Wave
PT/LAC30W DUAL 2-Wave
PT/LAC30W QUAD 4-Wave
POD30W DUAL 2-Wave
SPORT30W DUAL 2-Wave
POD 30W DUAL 2-Wave
POD 30W QUAD 4-Wave
Remy FX 90W 3-Wave
Remy FX 60W 2-Wave
Remy FX 45W 3-Wave
Remy FX 30W 2-Wave
Power & Wavelength

9W @810nm
10W @980nm

30W Combined Max Output
15W @ 810nm
15W @ 980nm
45W TriWave 15Wx3
(810nm, 980nm, 1064nm)
60W DualWave 30Wx2 (810nm, 980nm)
90W TriWave 30Wx3
(810nm, 980nm, 1064nm)
Typical Dosage10W CW = 6480 joules in 12 minutes25W CW = 7500 joules in 5 min
45W CW = 8100 joules in 3 min
(that’s 2700 j/cm2 per minute)
Best ApplicationHuge step up from most class 1-3b laser systems.Perfect for medium and large practices. 
Price$9,950 $12,500-$14,500-$21,995-$24,000

*The MDC30 can deliver 15 Watts at 810nm OR 15 Watts at 980nm or both wavelengths simultaneously up to 30 Watts Continuous Wave (CW) and 30W pulsed. The 30W system will now deliver a full 30 joules/sec. The REMY FX and MEDRAY SUPERMAX 45W Systems can deliver a full 45W CW, which equals 2700 joules/cm2 every one minute or 5400 j/cm2 every 2 min. The New REMY FX60W and FX90W on CW can deliver 3600 joules/cm2 per minute or 10,800 joules/cm2 per 3 minutes.

The REMY Lasers are top-quality FDA cleared, CE Mark Approved, class-4 lasers designed with high-end features and great support at a more affordable price. These generation 2 Class 4 Lasers are designed to meet or surpass the similar Italian-made “gold standard” Eltech K-Laser™ (that cost twice the price) and provides many of the same higher-end features found in ASPEN Laser, LiteCure Laser, LiteForce Laser, Summus Laser and other Class IV lasers, but at a considerably lower price. Thus resulting in a much faster return on investment (ROI). 

The REMY Classic, REMY SPORT VET/POD/PT & LAC  Lasers feature a large 7.2 inch graphic, color touchscreen into a small overall package weighing just 4.6 lbs. This provides a great compromise between portability, functionality, performance and ease of programming, when compared to some class 4 laser systems that are heavy and clunky or those with tiny or non-graphic displays. The compact, lighter weight design of REMY with full color graphic, rapid touch screen display make it a joy to use. 

The REMY FX ELITE has a larger 11″ rapid touch, full color iPad like screen and weigh 8- 10lbs. You can view some of the screens to the right and you can see how well they are laid out for ease of use. (Pictures coming soon)

REMY Classic Sport/POD/VET/PT/LAC all come with a 5-year manufacturer warranty with 1 year on the handpieces. When it comes to quality, the REMY LASERS are built tough, to withstand constant use, day in and day out for many years. They are reliable and dependable and we are confident in our knowledge of how well they perform and hold up through years of regular use. If ever you have an issue, which is unlikely, we take care of our customers. We have experienced little to no issues whatsoever with this product for over 7 years, which is how long this product has been available and thoroughly tested in the field. Additionally, the REMY lasers have been regularly updated and improved over the years. They are now controlled with the newest, most reliable and effective operating system backed up by a WiFi based software, which automatically updates itself via WiFi. Thus ensuring the newest and most updated software and protocol library, even many years later. 

We have a US based service center in FL, which stocks parts and offers fast turnaround service within days. 

The Gen 2 design removes the external connection to the fiber cable and integrates the connection inside the housing similarly to the K laser. Over the years, we learned that the external connection is the weakest link and the cause of most class 4 laser failures (in all class IV laser brands). This issue has been eliminated with our new Gen 2 design. The fiber optic cable connection has been moved inside the housing, making the REMY Class 4 Lasers some of the most durable systems on the market. While other companies use a 200-300 micron fiber optic cable, we use a heavy duty 400 micron fiber optic cable for long life and reliability in the REMY Class 4 Lasers and 600 micron fiber in the REMY FX Elite Series. This high quality design allows for the cable to be wrapped around the base or wheel, and the cable is now fixed to the laser body to insure maximum longevity of the laser diode(s). This reduces the potential for kinking and crushing of the cable in transport and makes the system more reliable. These design elements allow us to confidently offer a full 5-year warranty. The system can also be serviced after the warranty period at our Florida service center if ever needed, so you can rest assured that your laser investment will be successful for the long term.

We offer 20+ different laser models for different types of users. After looking at the trade-offs of price, weight, reliability and safety on the extremely high power lasers, we decided to specialize on the Class 4 Lasers where our clients see the best result and fastest ROI without any downsides. This means that you can choose the REMY LASER range from 9W to 90 Watts.

The 9 Watt 810nm is an entry level class 4 laser with the most popular 810nm wavelength for structural issues. Moving to the dual wavelength (810nm and 980nm) is great for both structural and musculoskeletal issues and is pretty standard for Chiropractors, Physical Therapists, Podiatrists and pain clinics. If you want even more wavelength diversity, the Tri-wave and Quad-wavelength models are very popular. The Quad delivers 30.2 watts at 635nm (200mW), 810nm (10W), 915nm (10W) and 980nm (10W). The Quad gives more versatility for anyone who is treating issues other than structural and musculoskeletal. 

For Practitioners who want the very best with the MOST POWER, we offer the REMY FX Elite Brand of Class IV Therapy Lasers. The FX ELITE is available in 90 Watts TriWave, 60 Watts Dual-Wave, 45 Watts TriWave and 30 Watts Dual-Wave. The FX is the Gold Standard for perfection in pain management and deep tissue therapy for multiple modalities, and built to suit the needs of all kinds of practitioners. If you really want the best class 4 laser on the market, the Elite brand REMY FX outperforms everything else on the market at a price that is often 40-50% less than other popular name brands.

The POWER of a Class 4 Laser varies greatly from one model to another. We have learned over the years that having more power translates to deeper treatments, faster treatments and superior results. Consequently we recommend that you purchase the most powerful laser that you can afford. All of the REMY lasers adjust all the way down to 500mW cold laser standards, so you do not have to worry about having too much power. The lasers are infinitely adjustable.

The REMY Lasers utilize the most established wavelengths. 810nm is the primary wavelength for lower power units and with 20 Watts and higher units, a secondary wavelength of 980nm is utilized in the Dual-wave units. For the Quad units we add the 905nm and the 635nm Red laser wavelength. They are great for supplemental therapies such as surface injuries, soft tissue issues and skin conditions. For burn and wound care or in animal care with soft tissue, wounds, hoof and blood related issues, the 635-650nm wavelength is preferred. When you want a wavelength where most of the energy is converted into heat, the 980nm can be used for increasing circulation and reducing inflammation with rapid pain control. The REMY Laser system give practitioners full control, so they can optimize their treatment for a wide variety of applications. The REMY lasers provide for a very high 3-dimensional power density that many experts think is the key to better therapeutic outcomes. Although lower power devices can deliver the same total energy level given enough time (usually much longer), they can never reach the same power density of the REMY Class 4 Laser Systems.

For high volume practices, minimizing patient treatment times while still delivering great results is a high priority. For these types of practices we offer a variety of powerful options including: the  REMY FX 60W 2-Wave, REMY FX 45W 3-Wave, REMY FX30W 2-Wave, and the 30 Watt 2-Wave Original REMY providng a cost effective solution for professional Class 4 Laser therapy. Practitioners can deliver over 4500 joules in 5 minutes with a MEDRAY MDC30W and an amazing 2700 j/cm2 per min. with the REMY FX 45W or 3600 j/cm2 with the REMY FX60W

The higher the device power, the more options you have for extremely short treatment times or deliver very high dosages for maximum impact for your patients. Because the REMY Laser has the programmable duty cycle (on/off ratio), you can deliver 4300 joules pulsing in 5 minutes. The REMY FX60W pulsed at 50% duty cycle will deliver 1800 j/cm2 per minute or 9000 j/cm2 per 5 minutes and double that for CW. This totally crushes most other systems that have a fixed duty cycle of 50% or less. With the REMY Lasers you can create custom protocols that include high duty cycle pulsing. We often recommend pulsing in the 4 – 40 Hz but at a 90% duty cycle. This give practitioners both pulsing and higher dosage. Very few other systems on the market allow this control at any price.

Unlike some other Class 4 lasers, the REMY Lasers do not require a long startup time. Turn it on and the laser boots up and is ready for treatments. Similar products can take up to 4 minutes to warm up the laser before you can start your first therapy. The REMY Laser systems are built using many of the same high precision design principals as surgical lasers so they are designed for critical operation and made to last, even under constant and regular use. They are built with the most advanced digital fan cooling systems that automatically turn on and off as needed to help reduce noise and increase efficiency. REMY Lasers have received the highest level FDA/510k Clearances for Physical Medicine/Pain Relief/Rehabilitation and Minor Surgical Procedures in Podiatric and Veterinary medicine.

The beauty of the REMY Lasers are a work of technological art. Just as the iPhone has become more compact and feature rich over time. So it is with this  product. It is built with the highest quality components from top to bottom so you can expect many years of trouble-free service. The REMY Laser  system performs a self-check at boot up so you always know it is working properly.

All Remy lasers use specially-designed hot swappable handpieces as shown, they connect to a flexible, yet industrial quality, 400/600 micron fiber-optic cable. A foot pedal is no longer required, but is optionally available for those who do like it. The hand-pieces are super strong, built from aircraft aluminum. The main Zoom handpiece is lightweight (8oz), comfortable to hold, has a built in Start/Stop finger switch, and an adjustable Zoom function that allows you to choose a beam size anywhere between 15-30mm. It comes with 4 convex clear ball shaped lens covers that glide easily over body parts, so you can apply pressure when appropriate and are easy to keep clean and sanitize. You are going to love all of the handpieces as they are each finely crafted tools with specific applications, and the overall versatility of these lasers is exceptional. The top part can be easily swapped with optional handpiece heads for use in ENT, Massage, Acupoint Therapy, Toenail Fungus, Warts and minor surgery. Recently we have added the newest attachment, which is a beautiful ROLLERBALL that not only rolls smoothly over the body, and allows for laser massage, but can also be quickly taken apart for cleaning and sanitation.

Remy Zoom Handpiece
Remy Rollerball Handpiece
Medical Cart Option

Some of our REMY Laser customers are asking for a medical cart.  We have several options available so let us know if you want a cart. This laser on a rolling cart is a good combination for many clinics. All of our carts are set at the most useful height, are sturdy, heavy enough that it will not tip over. They have shelves for holding accessories such as extra handpieces, glasses and manuals. If you would like to get a rolling cart for your new laser just let us know. A cart is included with the REMY FX Elite Packages and the REMY POD Turnkey package. 

Portability

Every detail on our REMY Lasers is top-of-line and that extends to the water-resistant, shock-proof carrying case (included).

This is not one of those cheap aluminum hard cases that weighs a lot but scratches and dents easily, this is the same type of water-resistant case (Pelican Style) used by professional photographers to protect their most expensive equipment. Inside the case is soft custom foam inserts for holding all your accessories. A perfect compliment to your top-of-the-line laser.

Smart

When you combine all these features with the exceptional support and service you get from Class4Lasers.com, you can’t go wrong with our selection of REMY Lasers. While we understand that you want to enhance your practice with a quality class 4 laser, we also understand that you should be able to do so without overextending your wallet. The cost savings with a REMY compared to comparable lasers are significant and we assure you that their performance is second to none. Our goal is happy customers and enthusiastic referrals. Once you incorporate this laser into your practice you will wonder how you ever managed without it. These class 4 lasers are very safe and easy to use, but because they do warm tissue to the touch, free training is provided as part of the package to ensure maximum safety for you and your clients and maximum clinical results for your practice. 

All REMY Classic and FX ELITE Laser systems include the laser controller with touch screen, zoom handpiece with 400 or 600 micron cable, hard-body mobile case, 3 pairs of glasses, manuals, training and a 5 year manufacturer warranty. The price also includes training and shipping.
To Order Call Toll Free 1-800-575-7963 and Mr Kalon Prensky, 20+ year laser specialist will be happy to assist you. You can also text to 808-870-0348 or eMail any questions with the form below.

Comparison of REMY VET30 30 Watt QUAD Wave to K-Laser 

 
SpecificationREMY VET30W QUADKlaser® Cube 30
1. Diode Power (watts)3045
2. Wavelengths (nm)637, 810, 905, 980 Adjustable635, 810, 910, 980
3. PulsingSweep, Single & CWSweep, Single & CW
4. Software UpgradableThru WiFiThru WiFi
5. Pulsing StepsUp to 12Up to 6
6. Adapts for Patient Size and skin colorYesYes
7. Hand Free OptionYesYes
8. Deliver Rates25 j/sec CW, 0-24.8 j/sec pulse30 j/sec CW, 0-29.5 j/sec pulse
9. Warranty5 Years5 Years
10. Interchangeable Heads56
11. Estimated Prices$14,595$37,500
Includes Custom MarketingYesNo
Includes Training PackageYesNo

Notes:
1. This is the total power of the diodes in the system and does not mean it will 100% of that power.
2. This shows the wavelengths used and if the blend of the different wavelengths are independently adjustable. Some systems are a “fixed blend” of multi-wavelengths meaning that the owner does not have independent control of the each wavelength. 810nm is the best wavelength for a photo-chemical reaction. 980nm is mainly for pain and inflammation control and produces about 1/30th the photo-chemical reaction as 810nm (based on research).
3. Systems with “sweep” will automatically rotate through multiple pulsing frequencies in one program allowing the laser to optimized to treat multiple symptoms in one program. Lower-tech systems have just one “single” pulsing frequency per program.
4. Cloud connected system can be get software and protocol update over the internet. Laser therapy is still evolving so this allows some laser to continuously improve over time while non-cloud connected systems go obsolete.
5. Pulsing technology is rapidly changing. Better systems allow for multiple pulsing steps. For example, this can allow the same program to be optimized for both pain (step 1) and inflammation reduction (step 2) and so on.
6. Every book you read about PBM will state that dosage is based on condition, patient size and skin color. Darker and larger patients need a higher dosage. This is also just common sense. Better system follow the best practices.
7. Hands free systems allow practitioners to have the laser fully automated. The REMY VET30W QUAD has a Bluetooth remote so the patient can turn on and off the system themselves.
8. Delivery rate is really what you are paying for but some system claim high deliver rates but don’t really deliver the marketed rate in most therapy sessions. Claiming high peak powers is a way to make the system seem like it is worth more than it really is.
9. Higher quality system have a better warranty.
10. Interchangeable heads allow the owner to swap out the emitter for different applications, proving better results.
11. Some times, you are just paying excessively for a brand name. Some older brands charge outrageous prices without delivering any better performance or efficacy.

As you can see from the comparison table, the REMY VET30W QUAD offers superior performance at a fraction of the cost of a similar class-4 lasers. Both REMY and the competing manufacturers offer multiple models but in all the cases, the REMY VET30W QUAD offers superior performance at a much lower cost.

Conclusion: In this analysis, we compare the REMY VET30W QUAD wavelength system to the new Cube 30. Prior to the release of the Cube 30, their flagship was the Cube 4+. The Klaser is made in Italy and their quality and designs are some of the best. That is why the REMY VET30W QUAD designers took alot of quality and design elements from the Klaser and took them to a higher level. If you compare the REMY VET30W QUAD to the Cube 4+, which sold for $27,500, it beats it’s performance hands down. Both system are very similar in the way the software and operating system control the therapy so the main area where the REMY VET30W QUAD comes out ahead is when you include the price, training and support in your decision.

Why Buy A REMY or MEDRAY Laser From Class4Lasers.com?

• We’ve got your back – as a dedicated laser pro shop since 2003, serving many thousands of satisfied customers is our passion. We will go out of our way to ensure that you receive fast, friendly and professional service, training and support now and ongoing.
• Guaranteed Best Price – We always offer the lowest manufacturer-authorized prices and if you find it for less (within 30 days), we will meet or beat it. We ensure exceptional value with low prices, free shipping, training, certification, high quality products & ongoing support.
• The REMY & MEDRAY Lasers are 510k FDA Cleared for the widest range of therapeutic applications of all the class iv therapy lasers on the market, they are also granted CE Mark for distribution and use in Europe and the UK.
• We offer the lowest price per Watt of all FDA Cleared Class IV Lasers on the market without compromising the quality, features, longevity, or performance of the product. This ensures satisfaction with higher power performance and a faster ROI.
• We provide up to a 5-Year Manufacturer Warranty to make sure each laser really lasts.
• We have a Florida-based service center – to support fast and reliable service if ever needed, with all parts and technician for fast turn around. If determined a longer repair will be needed (unlikely), we will rush you out a loaner laser.
• We are factory-authorized distributors – which means you can rest assured that you are buying an authentic product from a reputable dealer.
 We provide a marketing tool kit to support the success of your class 4 laser business and the building of clients to accelerate ROI. This includes beautiful color digital templates of trifold brochures, post cards and posters customized with your logo and contact info.
• We provide a custom case – shockproof, waterproof, carrying case, and “Laser in Use” sign.
• Discover Lasers LLC is an A+ BBB Accredited Company since 2008. Your satisfaction is our goal and commitment, and we back that up with a *30 Day Money Back Satisfaction Guarantee.
• We have a dedicated toll-free number for concierge service and support with a laser specialist: Call Toll Free: 1-800-575-7963

REMY Class 4 Laser Details

Why Buy from Class4Lasers.com?

• We’ve got your back – as a dedicated laser pro shop since 2003, serving many thousands of satisfied customers is our passion. We will go out of our way to ensure that you receive fast, friendly and professional service, training and support now and ongoing.
• Guaranteed Best Price – We always offer the lowest manufacturer-authorized prices and if you find it for less (within 30 days), we will meet or beat it. We ensure exceptional value with low prices, free shipping, training, certification, high quality products & ongoing support.
• The REMY SPORT and REMY ELITE Lasers are 510k FDA Cleared for the widest range of therapeutic applications of all the class iv therapy lasers on the market, they are also granted CE Mark for distribution and use in Europe and the UK.
• We offer the lowest price per Watt of all Premium FDA Cleared Class IV Lasers on the market without compromising the quality, features, longevity, or performance of the product. This ensures satisfaction with higher power, performance, resulting in faster ROI.
• We provide up to a 5-Year Manufacturer Warranty to make sure each laser really lasts.
• We have a Florida-based service center – to support fast and reliable service if ever needed, with all parts and technician for fast turn around. If determined a longer repair will be needed (unlikely), we will rush you out a loaner laser.
• We are factory-authorized distributors – which means you can rest assured that you are buying an authentic product from a reputable dealer at the lowest factory direct pricing.
 We provide a marketing tool kit to support the success of your class 4 laser business and the building of clients to accelerate ROI. This includes beautiful color digital templates of trifold brochures, post cards and posters customized with your logo and contact info.
• We provide a deluxe custom case – a foam lined, shockproof, waterproof, carrying case, 3 protective glasses and “Laser in Use” sign.
• Discover Lasers LLC is an A+ BBB Accredited Company since 2008 with many 5 Star reviews. Your satisfaction is our goal and commitment, and we back that up with a *30 Day Money Back Satisfaction Guarantee.
• We have a dedicated toll-free number for concierge service and support with a laser specialist: Call Toll Free: 1-800-575-7963

The REMY Lasers come in the Classic SPORT/PT/VET/POD Models and the FX ELITE Models:
The Classic SPORT/VET delivers power up to 30W CW in the most proven optimal wavelengths for successful treatments with options of single wave length, dual (2) or quad (4). The most revered primary wavelengths for class IV lasers are either 810nm or 980nm, which are available individually in the 9 or 10 Watt single wave models. The 2 wave (dual) is available as a 30 Watt (15 Watts each wavelength) or 4 wave (QUAD), which is NOW available as a 30.2 (formerly 27.2) Watt System. Current independent research reveals that the 810nm is the best wavelength for deep penetration, musculoskeletal applications and hard tissue issues, supporting deep photobiomodulation (PBM). It can deliver great results for almost all applications where photobiomodulation is the primary goal. In the research, they found that 810nm provides up to 30 times the penetration of 980nm because it is not absorbed by the hemoglobin, which is why it helps to support regeneration and rehabilitation more effectively. Whereas the 980nm is popular for rapid pain relief plus reduction of inflammation, and is thus used in most larger pain clinics, and by most Class IV lasers since the beginning, which is why we offer it in our dual and quad wavelength versions. 

The REMY FX ELITE Models utilize the 810nm and 980nm wavelengths, PLUS the 1064nm wavelength, which is the longest useful wavelength of the “biological window”. It is scientifically proven to reach deeper levels of skin and tissues to stimulate production of collagen in the joints and spine. While some lasers are less efficient with certain skin types, the 1064nm wavelength is beneficial for use on all skin types. It delivers the longest and deepest penetration through the layers, with less dispersion in biological tissue, delivering extra pain melting power, all with minimal increase in heat output, for increased speed and efficient healing. It is also reported to improve human brain performance on cognitive tasks as well as to locally upregulate cerebral oxygen metabolism and hemodynamics. At 1064nm, this light wavelength penetrates into deeper tissue than either 810nm or 980nm wavelengths. This means the laser light activates metabolic processes in tissues unreachable by other light wavelengths.

The REMY Dual, REMY QUAD & REMY FX ELITE  offer multiple wavelengths within the “biological window” in different configurations. They include different combinations of the following wavelengths: 1064nm, 980nm, 905nm, 810nm, 635nm, or 650nm. The  secondary wavelengths are independently controlled just like with most high-end multi-wavelength systems. As a secondary or tertiary wavelength, these options add flexibility for muscle relaxation (at 980nm) and increased circulation and faster pain reduction (at 980nm), faster treatment, deepest penetration and support for the body and brain, with cooler temperature (at 1064), improved soft tissue treatments and wound care (at 635-650nm) and increased blood absorption with NO production (at 905nm).

For optimal PhotoBioModulation (PBM) 810nm is typically the primary and most desired wavelength due to deep penetration, rapid conversion of photons to ATP within the Mitochondria, with beneficial PBM effects throughout the entire musculoskeletal system, joints and hard tissues. Even though 1064nm, 980nm, 905nm and 650nm are outside of the therapeutic window they still add benefit in many applications and make the laser more versatile for additional treatment options. The REMY Classic and REMY FX ELITE systems easily switch between pulsing and continuous wave, are pulse adjustable up to 100% duty cycle, and includes an extensive internal protocol library with 25+ preset protocols for human applications and an additional 25+ preset protocols for animal applications. All of these systems come in a shock-proof, waterproof case with 3 pairs of protective eye glasses, 4 convex Zoom handpiece cage covers, first rate handpiece options, free training with certification for up to 6 techs, and include a professional marketing package to support you and your practice for a quick ROI.

Most laser companies don’t put much effort into their protocols. With REMY Lasers you get 25+ human and 25+ animal use protocols built in and ready to use with a couple of clicks. In the blue man picture nearby you can see a protocol choice screen. Simply choose/tap the part of the body on the screen and the protocol will launch. In many of the protocol libraries form other companies, only the name of the protocol changes but not the pulse frequency. Most protocols default to delivering maximum power for 10 minutes with no pulsing. Some systems will put the same dosage into an arthritic hand as they put into a bad hip, defying all logic and therapy standards. 

The advanced presets of the internal protocol library on the REMY work perfectly. They are each customized by a team of Doctors with precise variable in Hz frequency delivery in sweeps with multiple cycles and may combine pulsed and CW in a single setting for best results if the specific area warrants it. These lasers allow you to set them up to get the best results for each condition listed in the library. Additionally, you can create or modify and save your own custom presets for quick and easy use any time. If you have used another high-end system, then you will really appreciate the effort that went into the REMY protocols. It has one of the best internal protocol libraries of any high end laser and better protocols deliver superior results.

The REMY Lasers follow the best industry practices by adapting the treatment parameters to the patient. The 25+ protocols become hundreds of protocols once you take into consideration that each one can be customized for the patient according several variables. The setup screen as seen in a picture nearby shows how each protocol is adapted based on the patient size, skin color and the chronicity/pain level of the condition. In addition to following the best industry practices, the REMY Laser systems allow for manually over-riding the standards. One of the secrets of the laser industry is the effect of duty-cycle (on/off ratio) on the dosage delivery. Many systems like the LiteForce & K-laser use a fixed 50% duty cycle. What this means is that users are paying a very high price to get a 25-watt system (that costs about $30,000) that only puts out 12.5 joules/second anytime they are pulsing the laser. Since you pulse the laser for most applications, most users are wasting a huge amount of money because they are confused by the specifications and how they change the performance.
The REMY Laser Lasers have solved this problem by providing users the ability to program the duty cycle considerably higher than most other lasers. With the REMY Laser you can set up for 50-100% duty cycle so that means that a (15 watt) REMY pulsing at 90% will deliver more power (14 joules/second) and save you $16,500 when compared to a LiteForce Class IV Laser system. It makes you wonder why anyone would want to pay more for less?

REMY SPORT & FX ModelsR9 Single Wave
R10 Single Wave
VET9W Single Wave
VET10W Single Wave
MDC30W 2-Wave
PT/LAC30W DUAL 2-Wave
PT/LAC30W QUAD 4-Wave
POD30W DUAL 2-Wave
SPORT30W DUAL 2-Wave
POD 30W DUAL 2-Wave
POD 30W QUAD 4-Wave
Remy FX 90W 3-Wave
Remy FX 60W 2-Wave
Remy FX 45W 3-Wave
Remy FX 30W 2-Wave
Power & Wavelength

9W @810nm
10W @980nm

30W Combined Max Output
15W @ 810nm
15W @ 980nm
45W TriWave 15Wx3
(810nm, 980nm, 1064nm)
60W DualWave 30Wx2 (810nm, 980nm)
90W TriWave 30Wx3
(810nm, 980nm, 1064nm)
Typical Dosage10W CW = 6480 joules in 12 minutes25W CW = 7500 joules in 5 min
45W CW = 8100 joules in 3 min
(that’s 2700 j/cm2 per minute)
Best ApplicationHuge step up from most class 1-3b laser systems.Perfect for medium and large practices. 
Price$9,950 $12,500-$14,500-$21,995-$24,000

*The MDC30 can deliver 15 Watts at 810nm OR 15 Watts at 980nm or both wavelengths simultaneously up to 30 Watts Continuous Wave (CW) and 30W pulsed. The 30W system will now deliver a full 30 joules/sec. The REMY FX and MEDRAY SUPERMAX 45W Systems can deliver a full 45W CW, which equals 2700 joules/cm2 every one minute or 5400 j/cm2 every 2 min. The New REMY FX60W and FX90W on CW can deliver 3600 joules/cm2 per minute or 10,800 joules/cm2 per 3 minutes.

The REMY Lasers are top-quality FDA cleared, CE Mark Approved, class-4 lasers designed with high-end features and great support at a more affordable price. These generation 2 Class 4 Lasers are designed to meet or surpass the similar Italian-made “gold standard” Eltech K-Laser™ (that cost twice the price) and provides many of the same higher-end features found in ASPEN Laser, LiteCure Laser, LiteForce Laser, Summus Laser and other Class IV lasers, but at a considerably lower price. Thus resulting in a much faster return on investment (ROI). 

The REMY Classic, REMY SPORT VET/POD/PT & LAC  Lasers feature a large 7.2 inch graphic, color touchscreen into a small overall package weighing just 4.6 lbs. This provides a great compromise between portability, functionality, performance and ease of programming, when compared to some class 4 laser systems that are heavy and clunky or those with tiny or non-graphic displays. The compact, lighter weight design of REMY with full color graphic, rapid touch screen display make it a joy to use. 

The REMY FX ELITE has a larger 11″ rapid touch, full color iPad like screen and weigh 8- 10lbs. You can view some of the screens to the right and you can see how well they are laid out for ease of use. (Pictures coming soon)

REMY Classic Sport/POD/VET/PT/LAC all come with a 5-year manufacturer warranty with 1 year on the handpieces. When it comes to quality, the REMY LASERS are built tough, to withstand constant use, day in and day out for many years. They are reliable and dependable and we are confident in our knowledge of how well they perform and hold up through years of regular use. If ever you have an issue, which is unlikely, we take care of our customers. We have experienced little to no issues whatsoever with this product for over 7 years, which is how long this product has been available and thoroughly tested in the field. Additionally, the REMY lasers have been regularly updated and improved over the years. They are now controlled with the newest, most reliable and effective operating system backed up by a WiFi based software, which automatically updates itself via WiFi. Thus ensuring the newest and most updated software and protocol library, even many years later. 

We have a US based service center in FL, which stocks parts and offers fast turnaround service within days. 

The Gen 2 design removes the external connection to the fiber cable and integrates the connection inside the housing similarly to the K laser. Over the years, we learned that the external connection is the weakest link and the cause of most class 4 laser failures (in all class IV laser brands). This issue has been eliminated with our new Gen 2 design. The fiber optic cable connection has been moved inside the housing, making the REMY Class 4 Lasers some of the most durable systems on the market. While other companies use a 200-300 micron fiber optic cable, we use a heavy duty 400 micron fiber optic cable for long life and reliability in the REMY Class 4 Lasers and 600 micron fiber in the REMY FX Elite Series. This high quality design allows for the cable to be wrapped around the base or wheel, and the cable is now fixed to the laser body to insure maximum longevity of the laser diode(s). This reduces the potential for kinking and crushing of the cable in transport and makes the system more reliable. These design elements allow us to confidently offer a full 5-year warranty. The system can also be serviced after the warranty period at our Florida service center if ever needed, so you can rest assured that your laser investment will be successful for the long term.

We offer 20+ different laser models for different types of users. After looking at the trade-offs of price, weight, reliability and safety on the extremely high power lasers, we decided to specialize on the Class 4 Lasers where our clients see the best result and fastest ROI without any downsides. This means that you can choose the REMY LASER range from 9W to 90 Watts.

The 9 Watt 810nm is an entry level class 4 laser with the most popular 810nm wavelength for structural issues. Moving to the dual wavelength (810nm and 980nm) is great for both structural and musculoskeletal issues and is pretty standard for Chiropractors, Physical Therapists, Podiatrists and pain clinics. If you want even more wavelength diversity, the Tri-wave and Quad-wavelength models are very popular. The Quad delivers 30.2 watts at 635nm (200mW), 810nm (10W), 915nm (10W) and 980nm (10W). The Quad gives more versatility for anyone who is treating issues other than structural and musculoskeletal. 

For Practitioners who want the very best with the MOST POWER, we offer the REMY FX Elite Brand of Class IV Therapy Lasers. The FX ELITE is available in 90 Watts TriWave, 60 Watts Dual-Wave, 45 Watts TriWave and 30 Watts Dual-Wave. The FX is the Gold Standard for perfection in pain management and deep tissue therapy for multiple modalities, and built to suit the needs of all kinds of practitioners. If you really want the best class 4 laser on the market, the Elite brand REMY FX outperforms everything else on the market at a price that is often 40-50% less than other popular name brands.

The POWER of a Class 4 Laser varies greatly from one model to another. We have learned over the years that having more power translates to deeper treatments, faster treatments and superior results. Consequently we recommend that you purchase the most powerful laser that you can afford. All of the REMY lasers adjust all the way down to 500mW cold laser standards, so you do not have to worry about having too much power. The lasers are infinitely adjustable.

The REMY Lasers utilize the most established wavelengths. 810nm is the primary wavelength for lower power units and with 20 Watts and higher units, a secondary wavelength of 980nm is utilized in the Dual-wave units. For the Quad units we add the 905nm and the 635nm Red laser wavelength. They are great for supplemental therapies such as surface injuries, soft tissue issues and skin conditions. For burn and wound care or in animal care with soft tissue, wounds, hoof and blood related issues, the 635-650nm wavelength is preferred. When you want a wavelength where most of the energy is converted into heat, the 980nm can be used for increasing circulation and reducing inflammation with rapid pain control. The REMY Laser system give practitioners full control, so they can optimize their treatment for a wide variety of applications. The REMY lasers provide for a very high 3-dimensional power density that many experts think is the key to better therapeutic outcomes. Although lower power devices can deliver the same total energy level given enough time (usually much longer), they can never reach the same power density of the REMY Class 4 Laser Systems.

For high volume practices, minimizing patient treatment times while still delivering great results is a high priority. For these types of practices we offer a variety of powerful options including: the  REMY FX 60W 2-Wave, REMY FX 45W 3-Wave, REMY FX30W 2-Wave, and the 30 Watt 2-Wave Original REMY providng a cost effective solution for professional Class 4 Laser therapy. Practitioners can deliver over 4500 joules in 5 minutes with a MEDRAY MDC30W and an amazing 2700 j/cm2 per min. with the REMY FX 45W or 3600 j/cm2 with the REMY FX60W

The higher the device power, the more options you have for extremely short treatment times or deliver very high dosages for maximum impact for your patients. Because the REMY Laser has the programmable duty cycle (on/off ratio), you can deliver 4300 joules pulsing in 5 minutes. The REMY FX60W pulsed at 50% duty cycle will deliver 1800 j/cm2 per minute or 9000 j/cm2 per 5 minutes and double that for CW. This totally crushes most other systems that have a fixed duty cycle of 50% or less. With the REMY Lasers you can create custom protocols that include high duty cycle pulsing. We often recommend pulsing in the 4 – 40 Hz but at a 90% duty cycle. This give practitioners both pulsing and higher dosage. Very few other systems on the market allow this control at any price.

Unlike some other Class 4 lasers, the REMY Lasers do not require a long startup time. Turn it on and the laser boots up and is ready for treatments. Similar products can take up to 4 minutes to warm up the laser before you can start your first therapy. The REMY Laser systems are built using many of the same high precision design principals as surgical lasers so they are designed for critical operation and made to last, even under constant and regular use. They are built with the most advanced digital fan cooling systems that automatically turn on and off as needed to help reduce noise and increase efficiency. REMY Lasers have received the highest level FDA/510k Clearances for Physical Medicine/Pain Relief/Rehabilitation and Minor Surgical Procedures in Podiatric and Veterinary medicine.

The beauty of the REMY Lasers are a work of technological art. Just as the iPhone has become more compact and feature rich over time. So it is with this  product. It is built with the highest quality components from top to bottom so you can expect many years of trouble-free service. The REMY Laser  system performs a self-check at boot up so you always know it is working properly.

All Remy lasers use specially-designed hot swappable handpieces as shown, they connect to a flexible, yet industrial quality, 400/600 micron fiber-optic cable. A foot pedal is no longer required, but is optionally available for those who do like it. The hand-pieces are super strong, built from aircraft aluminum. The main Zoom handpiece is lightweight (8oz), comfortable to hold, has a built in Start/Stop finger switch, and an adjustable Zoom function that allows you to choose a beam size anywhere between 15-30mm. It comes with 4 convex clear ball shaped lens covers that glide easily over body parts, so you can apply pressure when appropriate and are easy to keep clean and sanitize. You are going to love all of the handpieces as they are each finely crafted tools with specific applications, and the overall versatility of these lasers is exceptional. The top part can be easily swapped with optional handpiece heads for use in ENT, Massage, Acupoint Therapy, Toenail Fungus, Warts and minor surgery. Recently we have added the newest attachment, which is a beautiful ROLLERBALL that not only rolls smoothly over the body, and allows for laser massage, but can also be quickly taken apart for cleaning and sanitation.

Remy Zoom Handpiece
Remy Rollerball Handpiece
Medical Cart Option

Some of our REMY Laser customers are asking for a medical cart.  We have several options available so let us know if you want a cart. This laser on a rolling cart is a good combination for many clinics. All of our carts are set at the most useful height, are sturdy, heavy enough that it will not tip over. They have shelves for holding accessories such as extra handpieces, glasses and manuals. If you would like to get a rolling cart for your new laser just let us know. A cart is included with the REMY FX Elite Packages and the REMY POD Turnkey package. 

Portability

Every detail on our REMY Lasers is top-of-line and that extends to the water-resistant, shock-proof carrying case (included).

This is not one of those cheap aluminum hard cases that weighs a lot but scratches and dents easily, this is the same type of water-resistant case (Pelican Style) used by professional photographers to protect their most expensive equipment. Inside the case is soft custom foam inserts for holding all your accessories. A perfect compliment to your top-of-the-line laser.

Smart

When you combine all these features with the exceptional support and service you get from Class4Lasers.com, you can’t go wrong with our selection of REMY Lasers. While we understand that you want to enhance your practice with a quality class 4 laser, we also understand that you should be able to do so without overextending your wallet. The cost savings with a REMY compared to comparable lasers are significant and we assure you that their performance is second to none. Our goal is happy customers and enthusiastic referrals. Once you incorporate this laser into your practice you will wonder how you ever managed without it. These class 4 lasers are very safe and easy to use, but because they do warm tissue to the touch, free training is provided as part of the package to ensure maximum safety for you and your clients and maximum clinical results for your practice. 

All REMY Classic and FX ELITE Laser systems include the laser controller with touch screen, zoom handpiece with 400 or 600 micron cable, hard-body mobile case, 3 pairs of glasses, manuals, training and a 5 year manufacturer warranty. The price also includes training and shipping.
To Order Call Toll Free 1-800-575-7963 and Mr Kalon Prensky, 20+ year laser specialist will be happy to assist you. You can also text to 808-870-0348 or eMail any questions with the form below.

Laser Therapy and Musculoskeletal Pain Syndromes (Chronic and Acute)

Musculoskeletal Pain Syndromes (Chronic and Acute)

Low-Level Light Therapy (LLLT) has been shown to be effective in a variety of musculoskeletal conditions and associated pain presentations.

In Rheumatoid Arthritis, LLLT can benefit not only the pain of acute small joint inflammation but also chronic pain. In a review article on rheumatology (3), some 18 papers were considered. All studies involved double-blind trials with LLLT in chronic rheumatoid and reported significant improvement in pain (80% success rate in relieving pain). Upon comparing LLLT to a similar rate of pain attenuation using anti-inflammatory drugs (NSAIDs), the LLLT was free of any side-effects while 20% of patients treated with NSAIDs suffered unacceptable side-effects of medication. In another study of 170 patients with rheumatoid arthritis using LLLT (4), pain attenuation of up to 90% was noted.

Trellis et al (6) used LLLT for osteoarthritis of the knee in 40 patients. He reported a significant reduction of 82% of the patients with improved joint mobility. Among 36 randomized patients, with pain caused by cervical osteoarthritis, those who received Infra-Red and Low-Level Laser treatment improved 75% compared with the group receiving mock treatment (31%). Similarly, a study of 60 patients with Cervical Osteoarthritis, Low Pulsed Laser was successful in relieving pain and in improving function.

The results of a study show that cervical myofascial pain is significantly improved at 3-month with Diode laser. A similar successful LLLT treatment has been described for whiplash injuries.

In a randomized study with 30 patients with supraspinatus or bicipital tendonitis, the results demonstrated the effectiveness of laser therapy in tendonitis of the shoulder. Another study with a patient population (n = 324), with either medial epicondylitis (Golfer’s elbow; n = 50) or lateral epicondylitis (Tennis elbow; n = 274), and randomly allocated, provides further evidence of the efficacy of LLLT in the management of lateral and medial epicondylitis.

Treatment with low-level laser therapy (LLLT) was shown effective in treating Carpal Tunnel Syndrome pain. Another study, significant decreases in McGill Pain Questionnaire scores, median nerve sensory latency, and Phalen and Tinel signs were observed after treatment series with Low-Level Laser Therapy. Patients could perform their previous work (computer typist, handyman) and be stable for 1 to 3 years.

In acute trauma, there is a soft tissue injury comprising swelling, hematoma, pain and reduced mobility. Sporting injuries and domestic accidents usually involve damage to muscles, joint ligaments, and tenclass. In the absence of bone fracture or other injury demanding priority treatment, LLLT should be instituted at the earliest opportunity. Kumar reported a comparative study in 50 patients with inversion injuries of the ankle. He found that compared to conventional physiotherapy, the LLLT treated patients showed a more rapid resolution of symptoms and an earlier return to full weight-bearing. 

Fibromyalgia (FM) is characterized by widespread pain in the body, associated with particular tender points. It is often accompanied by disturbed sleep patterns, fatigue, headaches, irritable bowel, and bladder syndrome, morning stiffness, anxiety, and depression. FM can cause a high level of functional disability and have a significantly negative effect on the quality of life. One study suggests that “Laser Therapy is effective on pain, muscle spasm, morning stiffness, fatigue, depression and total tender point number in Fibromyalgia”.

A randomized controlled study with 63 with non-radiating low back pain showed that LLLT significantly improved pain and function.

In summary, the bulk of published work to date supports the use of LLLT for the treatment of a variety of musculoskeletal conditions and associated pain. Moreover, the LLLT proved to be not only more effective than conventional methods but more economical as well. The added advantage of the absence of side effects, non-invasive nature of therapy and the ease of application ensure good patient acceptance of the treatment modality.

Acute Respiratory Distress Disorder Cold Laser Clinical Studies

The following is a summary of some of the clinical studies that were conducted using cold laser to treat Acute Respiratory Distress Disorder. These studies are presented here to demonstrate the wide uses of cold lasers in the treatment of different medical conditions.

Acute Respiratory Distress Syndrome Successfully Treated with Low-Level Laser Therapy

Chan Gunn, Institute for the Study and Treatment of Pain

Abstract Acute respiratory distress syndrome (ARDS) is a medical emergency, which may be precipitated by an acute injury to the lung. The injury can also follow direct chest trauma from aspiration of gastric contents or inhalation of toxic gasses. ARDS is not itself a specific disease but a syndrome – a group of symptoms and signs that make up one of the most important forms of respiratory failure. ARDS is devastating because it can develop quite suddenly in persons whose lungs had been perfectly normal – it kills at least 60% of its victims. The fundamental problem is the sudden appearance of large amounts of fluid in the lung preventing blood from entering the alveoli and decreasing oxygen extraction resulting in hypoxemia.

The tragic feature of ARDS is that it drowns its victim. The appearance of fluid in the lungs – a lethal situation – is from neuro-inflammation.

Important to keep in mind when treating ARDS are: a) Inflammation and Inflammatory exudates Gap Formation, b) Interstitial and Alveolar Inflammation, c) Inflammation and the Nervous System, d) Cholinergic anti-inflammatory pathway. Neuro-inflammation can be relieved by stimulation of the vagus nerve. Low-level laser therapy, a simple modality with few undesirable side effects, is used to relieve respiratory distress. 

Alcoholism Laser Clinical Studies

The following is a summary of some of the clinical studies that were conducted using cold laser to treat Alcoholism. These studies are presented here to demonstrate the wide uses of cold lasers in the treatment of different medical conditions.

Acupuncture for alcohol withdrawal: a randomized controlled trial

1 Psychiatric Hospital,
2 Department of Complementary Medicine (KIKOM), Inselspital, University of Berne, 3010 Berne, 3 Department of Social and Community Psychiatry, University of Berne, Laupenstrasse 49, 3010 Berne, Switzerland,

4 MRC Health Services Research Collaboration, Department of Social Medicine, University of Bristol, Bristol, UK and
5 Department of Social and Preventive Medicine, University of Berne, Finkenhubelweg 11, 3012 Berne, Switzerland
Received 1 February 2002; in revised form 11 March 2003; accepted 27 March 2003

Background and Aims: Previous trials on acupuncture in alcohol addiction were in outpatients and focused on relapse prevention. Rates of dropout were high and interpretation of results difficult. We compared auricular laser and needle acupuncture with sham laser stimulation in reducing the duration of alcohol withdrawal.

Methods: Inpatients undergoing alcohol withdrawal were randomly allocated to laser acupuncture (n = 17), needle acupuncture (n = 15) or sham laser stimulation (n = 16). Attempts were made to blind patients, therapists and outcome assessors, but this was not feasible for needle acupuncture. The duration of withdrawal symptoms (as assessed using a nurse-rated scale) was the primary outcome; the duration of sedative prescription was the secondary outcome. Results: Patients randomized to laser and sham laser had identical withdrawal symptom durations (median 4 days). Patients randomized to needle stimulation had a shorter duration of withdrawal symptoms (median 3 days; P = 0.019 versus sham intervention), and tended to have a shorter duration of sedative use, but these differences diminished after adjustment for baseline differences.

Conclusions: The data from this pilot trial do not suggest a relevant benefit of auricular laser acupuncture for alcohol withdrawal. A larger trial including adequate sham interventions is needed, however, to reliably determine the effectiveness of any type of auricular acupuncture in this condition. 

Alzheimer’s Cold Laser Clinical Studies

The following is a summary of some of the clinical studies that were conducted using a cold laser to treat Alzheimer’s Syndrome. These studies are presented here to demonstrate the wide uses of a cold laser in the treatment of different medical conditions.

The Efficacy of 904 nm Laser Therapy for Alzheimer’s Diseases

Kazuyoshi Zenba, Vice president of Kanagawa Acupuncture Massage Association Prof. Masayuki Inoue, Secretary of JLPLTPA

Preface: Although we had reported about the possible efficacy of low power laser therapy (LPLT) for Senile Dementia(S D) 3 times from 1993 at the annual meetings of Japan Society for Laser Medicine, there was no practically useful treatment found for Alzheimer’s disease(AD) and Parkinson disease and other Senile Dementia even after the start of elderly-care-insurance system in Japan. As we have continued above said laser therapy for SD at home care visit of elderly persons and felt very useful and effective, we would like to report about recent situation of laser therapy for AD patients.

Especially recently, the number of Alzheimer’s disease patients is increasing by the arrival of super-aged world in Japan. However the cause of this disease is not known and there is no effective treatment established at present. As to the mechanism of LPLT, its main mechanism is mostly elucidated by the progress in the field of Molecular biology and widely used for the removal of pain, decrease of swelling and treatment of wound. However its application for the treatment of Brain diseases is hardly practiced.

We have continued the treatment of Senile Dementia patients by LPL considering it as to be one of practical and effective treatment of this disease LPLT is very useful for the medical treatment of the senile dementia patients at home for the expansion of ADL, pain relief, mitigation of inflammation, prevention of bedsore, the treatment of hemiplegia in a brain blood vessel obstacle and the braking of aggravation of Alzheimer’s disease without any fear of side effects by the irradiation of LPL to the head of patients. It will be not to exaggerate to say LPLT can be one of the main treatments of senior patients at home in the near future.

Object of study: To study the practical usefulness of LPLT for the treatment of Alzheimer’s disease patients at home in terms of improvement of ADL and QOL and also for the reduction of the burden of families of the care of patients.

Method of treatment: 15 Alzheimers disease patients, 5 male, and 10 female received irradiation of LPL for 2 minutes at each point, 2-3 times a week for one year. Laser irradiation points were as follows. Acupuncture points established as effective based on a long history of Oriental medicine. (1) Acupuncture point to improve blood circulation (2) Acupuncture point for the treatment of stroke (3) Acupuncture point for adjustment of blood pressure (4) Acupuncture point for adjustment of balance of autonomous nerve.( the forehead, the right and left temple, occiput).

In addition, the method (based on papers in Russia and Armenia that intravenous LPL irradiation improved the viscosity of blood) of irradiating LPL to the place which touches the pulse of an artery under collarbone was used as an additional medical treatment point.

LPL instrument: LTU-904H made by RianCorp Pty Ltd in Australia. Laser Type: Gallium Arsenide Laser diode (Ga-As)
Laser Wavelength: 904nm
Peak Power: 5W

Purse frequency: Low 2500 Hz, High 5000Hz Purse duration: 200 nanoseconds
Average power: Low 2.5mW, High 5mW

The evaluation method: Since the improvement and maintenance of Alzheimer patients in the care at home was the major subject of this study, the impression by care workers about the situation of patients was recorded as data of patients. Evaluation items were orientation, conversation capability, cooperativeness, the lack of composure, social role and activity, clothes and dress and leisure activities. Completely no change was O point, slight effective was 1 point and clearly effective was evaluated as 2 points. Summed up values were used for the judgment of the efficacy of LPL treatment for each patient and total evaluation of the usefulness of LPL therapy for Alzheimer’s disease.

Result: Among evaluation items, cooperativeness and the lack of composure were observed as useful as an effect, the effect appeared half a year after and continued after one year and later on.

It was suggested that LPLT was useful for the improvement of orientation disturbance, normalization of clothing and the dress. Because, many families and the care workers talked us LPL was very helpful since the present condition could be maintained, without getting worse.

After the start of LPL treatment, It was reported that the coldness of the hands and legs of patients vanished and joints and muscular stiffness were also mitigated. Therefore, the joint movable region was also secured comparatively. Also in excretion care, it became very easy to carry out the care of patients. It was able to say about all patients that their expression became quiet and came to show understanding to directions of a care worker. It is suggested by this that LPLT as one of practical treatment of patients at home by the improvement of care power at home.

Discussion: Since the senile-dementia-of-Alzheimer-type has a feature of advance of condition and it was said that condition became gradually critical, we tried this treatment expecting the maintenance of condition, and examination whether there was any delay effect. It is considered to have been suggested at least there was an effect of maintaining present condition in a certain field.

About the effect over the brain of laser irradiation, it was reported at the annual meeting of Japan Society for Laser Surgery and Medicine meeting in 1991 by Jun-Ichi Nishimura et al., of Department of Physiology, Yokohama City University School of Medicine. The 780 nm wavelength and 1mW laser irradiation to the inner core of rats made the increase of cerebral blood flows at hippocampus by the amount of about 20% in average (control:15, laser:15). Although after 30 minute it was confirmed having maintained the increase of 10%. In 1992 at the same medical conference, Takayuki Obata et. al., of the same Universityreported that laser irradiation of 780nm wavelength10mW to the head surface of rats activated cranial nerves activities (control:16, laser:15).

These reports suggested the possible use of LPL treatment to Senile Dementia and other brain disease patients. Unfortunately, these findings did not much attention to medical world In Japan. However, recently a possibility that ATP and cell-membrane potential of brain neuron could be controlled specifically by the irradiation of near-infrared lasers (830nm wavelength) on the surface of heads of rats was reported by Oda- Mochizuki etc.al.Ã?Ritsumeikan University, Synchrotron Light-Life Science Center. It was suggested by this research center that the condition of Epilepsy could be stabilized by Irradiating infrared laser from outside of heads of patients and decreasing the unusual excitement of cerebral neurons and in case of cerebral infarction, the aggravation of progress of Necrosis and Apoptosis of cerebral neurons could be stopped by making stabilize the electric potential of cell membrane of cerebral neurons.

Development of future research in this field is expected as what supports scientifically the medical treatment of LPL and the result of condition improvements, such as Senile Dementia, brain blood vessel obstacles, hemiplegia and Parkinson patients. Although the

wavelength of LPL used for Examination of the validity of LPL to Senile Dementia Patients” which we announced at the annual meetings of Japan Society for Laser Surgery and Medicine meeting over three years from 1993, was 780nm and out put was10mW, and 1mw. The LPL used for this examination was of the wavelength of 904nm and the peak value of a pulse was 5W and the average output was 5mW. However, the same medical treatment effect was confirmed. Although it is thought that there was no wavelength dependability of laser to the efficacy over the Alzheimer’s diseases of LPL(780,830,904nm lasers are equally effective for pain removal and wound healing), how is it sure enough? A question remains.

By this examination, at least the following effects were confirmed. Namely (1) the advance of condition of Alzheimer’s diseases has been blocked (2) and the expression of patients changed to smiling from disinterestedness, cooperativeness came out, an understanding came to be shown to a partner (3) We received comments from many families that the care of patients became much easier than before. It is considered that the head irradiation of near-infrared laser light makes the cerebral blood flow improve, activates nerve activities and has applied brakes to the advance of the apoptosis of brain cells as animal experiments are proving. Since the medical treatment efficacy is seldom acknowledged to middle degree class and a serious patient, although it is hard to call it the fundamental cure for Alzheimer’s disease by the present method, if medical a treatment is started in early-stage and continued, it may be possible to call it one of practical cures which can stop subsequent advance of disease.

Based on this experience, collecting the newest information overseas, research results in the biology field, we will continue to study the possible LPL method for the dramatic cure of Alzheimer’s diseases by changing the wavelength of the laser, the output, and the irradiation method and also combination with other therapies. 

Application of laser acupuncture in the treatment of periarthritis humeroscapularis

Branka Nikolic,. spec. Sport’s med. Address Zavod za zdravstvenu zastitu radnika ZTP-a “Beograd“, 11000 BeogradSlobodana Penezica Dr. 23 Yugoslavia

The effect of low intensity semi conductor laser was used as treatment methods for periarthritis humeroscapularis. The CC laser (Computer Controlled laser) was applied. Laser therapy has positive biological effects and antiinflamatory, antioedema effects and analgesia. We treated 18 patients with periarthritis humeroscapularis, 14 were female patients.

The laser was locally applied at the AC points Sj 14, Sj 15, Li 15, Li 10, Sj 5, Si 3, three times a week for the first week and twice a week for the second and the third week. After first treatment 12 of patients had pain – alleviating effect. After 6-7 treatments all had pain – alleviating effect and complete recovery of shoulder’s motor activity. Low intensity therapy has its place for treatment of periarthritis humeroscapularis.

Treatment of the acute Periarthritis humeroscapular with laserpuncture.

Odalys Gonzales Ãlvarez, Main Educational Clinic of Urgencies “Antonio Maceo”, Cerro Municipality, Havana City.

The periarthritis humeroscapular is a syndrome that contains very precise affections: the bursitis, the calcified tendinitis of supraespinoso, the bicipital tendinitis, among others. Pain and limitation of the joint movements of the shoulder characterize it. The treatment with laser of low power can produce resolution of the lesion, whenever it is made in early phases of the disease. In this study we propose the use of the laserpuncture, due to our accumulated experience in the treatment of these affection in acute phase, with acupuncture. A prospective study was carried out during 2 years (1997 – 1999), where 62 patients were selected because they accomplished the Approaches of Inclusion for the study. The sample was divided by aleatory assignment in 2 Groups of Treatment. Th study Group I was treated with laserpuncture, using Cuban laser equipment of HeNe of 632,8 nm and a dose of joule/cm2 was applied, and the Control Group II was treated with acupuncture needles. The conventional medical treatment was suspended. Daily sessions were given from Monday to Friday, for two weeks, until a total of 10. Both techniques demonstrated to be effective in the treatment of these affections, improving the clinical and radiological symptoms significantly when the treatment sessions was concluded. The patients accepted the laserpuncture better because of its painless character, less time of application, and the absence of bleeding and stress. 

Arteriosclerosis Cold Laser Clinical Studies

The following is a summary of some of the clinical studies that were conducted using cold laser to treat Arteriosclerosis. These studies are presented here to demonstrate the wide uses of a cold lasers in the treatment of different medical conditions.

Low Level Laser Therapy in the Treatment of Arteriosclerosis of the Lower Limbs

Attia M.A., EI-Kashef H. Laser center, Alhikmah Hospital, EI-Mansoura, Egypt Physics Department, Faculty of Science, Tanta Egypt

Abstract: Twenty patients with arteriosclerosis in the lower limbs were treated by low level laser therapy with lumbar paravertebral application a 20mW continuous wave He-Ne laser(632nm> and simultaneously a 250mW continuous diode laser (830 nm> was applied transcutaneously to the lumbar region by the scanner for 30 minutes 6 days per week for 2 months. The mean value of percentage of success was 87.2%. The results of the study indicate that low level laser therapy can influence beneficially arteriosclerosis in the lower limbs which is generally difficult to treat.

Introduction: Arteriosclerosis is a chronic obliterative disease affecting the lower portion of the aorta, its main branches and the arteries supplying the extremities. The condition occurs predominantly in patients between the ages of 45 and 70 years. It is present much more frequently in males than in females. It may be caused by an error in the metabolism of lipids (Oliver, 1955). Buck (1959) believed that the abnormal vascularization of the arterial wall has also been proposed as a significant factor in the development of the disease. Also, the Question of heredity as a factor in the pathogenesis of the disease must be raised (McKusick, 1958). The patient complains of pain in the extremities typical of intermittent calculation and difficulty in walking, finally rest pain is experienced particularly at night, characterized by a sensation of coldness or burning, hyperesthesia and tingling (Abramson, 1974). The purpose of the study was to evaluate the efficacy of low power laser in the treatment of arteriosclerosis. Materials and methods Twenty patients with arteriosclerosis of the lower limbs from the out-patient clinic of the General medicine Department of both Tanta University Hospital and Alhikmah Hospital, Mansoura were included in the study. The male to female ratio was 4:1. The ages ranged from 45 to 69 years. The duration of symptoms ranged from one to 8 months (table 1). The patients were experiencing pain in both calf muscles after walking distances (claudication distance) ranging from 200 to 500 meters. Three patients experienced rest pain at night. Clinical examinations revealed palpable walls of superficial arteries, particularly the dorsalis pedis. In the study, the claudication distance was determined for every patient in meters prior to treatment. Control normal individuals within the patients’ age group walked an average of 1500 meters without experiencing calf pain.

Results: Pain was relieved in 16 patients who received 3 to 7 courses of treatment. Eight patients were able to walk 1500 meters without experiencing any pain in the calf muscles, hence their rate of success was 100%. The remaining patients showed improvement from 73% to 95 (table 2). Three patients discontinued treatment for reasons not related to the treatment. One patient, age 69, with 4 months duration and claudication distance of 240 meters showed no improvement after receiving 7 courses of treatment. The mean rate of success was 87.2%.

Discussion: It was not easy to discuss the treatment of arteriosclerosis and only in the last 20 years have advancements been made. Although physical therapy is only part of the total management of arteriosclerosis of the lower limbs, it could play an important role in the management. No references were found in literature concentrating the use of low level laser therapy in the management of arteriosclerosis. This work has shown that low level laser therapy is capable of increasing the circulation in muscles and, with prolonged treatment, a considerable significant improvement in circulation can be achieved in cases of arteriosclerosis. Low level laser therapy not only influences the superficial circulation but also deep circulation. The mechanism of this action is probably due to the sympathetic effect, but it could also be used on the action of normal skin excitation. It can be assumed that apart from the increase in the pain threshold (Nikolova, 1968) and muscular excitation threshold, there is also an increase in the threshold for sympathicus stimulation (Pabst, 1960). By this paravertebral application, we must concede more importance to the sympathicus action, than to the direct action on the vasometer assumed by some authors (Monode, 1951; Zinn, 1956). The results obtained in the treatment of arteriosclerosis by means of low level laser therapy are certainly based on a number of different effects. First, there is sympathetic action. Also, the analgesic action of this type of current deserves special attention, since it is the cause of the subjective improvement which frequently precedes the objective improvement in cases of sever arteriosclerosis when pain is felt while resting. Also, rest pain did not mean the presence of irreversible pathologic change as the three patients with rest pain showed a good degree of improvement. The patient who showed no improvement after 7 courses of treatment may have an irreversible pathologic change and, this age of 69 years may have also contributed to the failure of treatment.

Conclusion: Low level laser therapy may be considered in the treatment of peripheral arteriosclerosis. 

Arthritis-Cervical Cold Laser Clinical Studies

The following is a summary of some of the clinical studies that were conducted using cold laser to treat Arthritis-Cervical. These studies are presented here to demonstrate the wide uses of a cold lasers in the treatment of different medical conditions.

The clinical efficacy of low-power laser therapy (lllt) on pain and function in cervical osteoarthritis.

Ozdemir F, Birtane M, Kokino S. Department of Physical Therapy and Rehabilitation, Medical Faculty of Trakya University, Edirne, Turkey.
Clin Rheumatol 2001;20(3):181-4

Pain is a major symptom in cervical osteoarthritis (COA). Low-power laser (LLLT) therapy has been claimed to reduce pain in musculoskeletal pathologies, but there have been concerns about this point. The aim of this study was to evaluate the analgesic efficacy of LPL therapy and related functional changes in COA. Sixty patients between 20 and 65 years of age with clinically and radiologically diagnosed COA were included in the study. They were randomised into two equal groups according to the therapies applied, either with LPL or placebo laser. Patients in each group were investigated blindly in terms of pain and pain-related physical findings, such as increased paravertebral muscle spasm, loss of lordosis and range of neck motion restriction before and after therapy. Functional improvements were also evaluated. Pain, paravertebral muscle spasm, lordosis angle, the range of neck motion and function were observed to improve significantly in the LPL group, but no improvement was found in the placebo group. LPL seems to be successful in relieving pain and improving function in osteoarthritic diseases.

Arthritis-Rheumatoid Cold Laser Clinical Studies

The following is a summary of some of the clinical studies that were conducted using a cold laser to treat Arthritis-Rheumatoid. These studies are presented here to demonstrate the wide uses of cold lasers in the treatment of different medical conditions.

50 year old female patient diagnosed as having Class 3 RA inflammatory phase of steady development. Probes used in treatments were 820nm (50mW) and 31 cluster probe with the 820nm probe being administered on each interphalangeal joint (30 seconds per point) followed by the cluster (one minute) over the whole hand. The pulsing frequency was 20 Hz and administration of treatment three times per week. The total number of treatments was 12 over a one month period.

You can see the improvement in the treatment of the condition and the third picture shows the progress at 13 treatments. After 6 months follow up it was found the initial inflammation was beginning to creep back, but the overall condition was much improved in comparison with the original status of the patient with no LLLT treatment.

Beneficial Effects of Laser Therapy in the Early Stages of Rheumatoid Arthritis Onset

Contantin Ailioaie1, Laura Marinela Lupusoru-Ailioaie2 1Medical Office for Laser Therapy, 1 Bistrita, B10-2, 6600-Iassy, Romania, 2AI.I. Cuza University, Dept. of Medical Physics, Iassy, Romania
LLLT Original Articles, Laser therapy Volume. 11-2, pg.79

The purpose of this study was to determine the effects of laser therapy in pain reduction and/or recovery of patients at the onset of Rheumatoid Arthritis (RA), compared with the traditional non-steroidal anti-inflammatory drugs (NSAIDs). Fifty-nine patients with RA of 6-12 months duration were included in the study. The patients were divided into 3 groups: Group 1 (21 patients) received laser therapy; Group 2 (18 patients) was submitted to placebo laser therapy and NSAIDs medication; Group 3 (20 patients) was treated only with NSAIDs. Physical therapy was instituted in all three groups. GaAIAs diode laser of 830 nm wavelength and 200mW maximum output power was used. Group 1 received laser therapy once each day, eight days per month, for a total of 32 treatments during a four-month period. The parameters used were 2-4 J/cm2 energy density, and a frequency of 5 Hz or 10 Hz depending on the number and severity of pain in the affected joints. Placebo laser treatment was given to group 2. the functional activity score, the acute pain phase reactants (ESR and C-reactive protein), T-lymphocytes and NK (natural killer) â?? cells were estimated. Synovial biopsies and Magnetic Resonance Imaging (MRI) of the synovial membrane were performed as well. The analysis of the clinical and biological parameters at the end of treatment showed a statistically significant decrease of duration of morning stiffness, of pain at rest and during movements, and improved acute phase reactants.

The overall efficacy rate in these studies was 86% in the first group, 50% in the laser placebo group and 40% in the NSAIDs-treated third group. After four months of treatment, our investigations showed that 830 nm infrared laser therapy promoted the restoration of function, relieving pain and limited the complications of RA.

The Effects of Laser Therapy in the Early Stages of Rheumatoid Arthritis Onset

C. Ailioaie, M. D.

Medical Office for Laser Therapy, Iassy, RO
Laura Marinela Lupusoru-Ailioaie, M. D.
“Al.I.Cuza” University, Dept. of Medical Physics, Iassy, RO

1.PURPOSE:

To study the effects of laser therapy, in comparison with other modality trials (NSAIDs), at the onset of (RA).

2.SUBJECTS and METHODS:

In the study 59 patients were included, in the first 6 – 12 months from RA onset. The patients were divided into three groups: Group 1 (21 patients) received laser therapy; Group 2 (18 patients) was submitted to placebo laser therapy and NSAIDs medication; Group 3 (20 patients) was treated only with NSAIDs. Physical therapy was instituted in all three groups.

A GaAIAs diode laser (830 nm, maximum output power 200 mW) was used. During 4 months, courses of laser therapy – once daily for 8 days, monthly – were administered to Group 1 and laser placebo Group 2. The density of energy (2 – 4 J/cm2) and frequency (5 Hz or 10 Hz) were dependent on the number and severity of pain in affected joints.

3.RESULTS:

The analysis of the clinical and biological parameters at the end of treatment showed a statistical significant decrease of duration of morning stiffness of pain at rest and during movements and improved acute phase reactants. The overall efficacy rate in these studies was 86% in group 1, 50% in the placebo laser group, and 40% in group 3.

4.DISCUSSION and CONCLUSIONS:

After 4 months of treatment, our investigations showed that infra-red laser therapy was able to restore function, to relieve pain and to avoid the complications of the disease or NSAIDs therapy (digestive or renal) at RA onset,beeing the most perspective modality of treatment.

The effect of laser therapy in complex treatment of patients with rheumatoid arthritis.

Korolkova O M et al.

115 patients with rheumatoid arthritis (RA) of II-III degrees were treated with basic RA medications and infrared laser. In a control group of 20 patients only basic medication was given. 10 areas of the body were irradiated daily, increasing the dose every day during a period of 8-10 days. The effectiveness of the therapy was controlled through laboratory tests on i.a. inflammatory agents and the activity of lipid peroxidation. The results were statistically significant. The best effect was found in patients with degree II RA. Steroid medication could be reduced 8-10 days earlier in this group of patients and in some cases the medication could even be excluded. Degree III patients had a more moderate benefit of the laser treatment.

The interauricular laser therapy of rheumatoid arthritis.

Sidorov-V-D, Mamiliaeva-D-R, Gontar-E-V, Reformatskaia-SIu.Vopr-Kurortol-Fizioter-Lech-Fiz-Kult. 1999; (3): 35-43.

Investigations have proved the ability of interauricular low- intensity infrared laser therapy (0.89 nm, 7.6 J/cm) to produce anti- inflammatory,immunomodulating action in patients with rheumatoid arthritis. The method has selective, pathogenetically directed immunomodulating effect the mechanism of which is similar to that of basic antirheumatic drugs and of intravenous laser radiation of blood. This laser therapy can be used as an alternative to intravenous blood radiation being superior as a noninvasive method.Interauricular laser therapy can potentiate the effects of nonsteroid anti-inflammatory drugs, cytostatics and diminish their side effects.

CLINICAL APPLICATION OF GaAIAs 830 NM DIODE LASER IN TREATMENT OF RHEUMATOID ARTHRITIS

Kanji Asada, Yasutaka Yutani, Akira Sakawa and Akira Shimazu. DepartmentofOrthopaedic Surgery, Osaka City UniversityMedical School, Japan

The authors have been involved in the treatment of rheumatoid arthritis (RA), in particular chronic poly-arthritis and the associated pain complaints. The biggest problem facing such patients is joint contracture, leading to bony ankylosis. This in turn severely restricts the range of motion (ROM) of the RA-affected joints, thereby seriously restricting the patient’s quality of life (QOL). The authors have determined that in these cases, daily rehabilitation practice is necessary to maintain the patient’s QOL at a reasonable level. The greatest problem in the rehabilitation practice is the severe pain associated with RA-affected joints, which inhibits restoration of mobility and improved ROM. LLLT or low reactive level laser therapy has been recognized in the literature as having been effective in pain removal and attenuation. The authors accordingly designed a clinical trial to assess the effectiveness of LLLT in RA related pain (subjective self-assessment) and ROM improvement (objective documented data). From July 1988 to June 1990, 170 patients with a total of 411 affected joints were treated using a GaAlAs diode laser system (830 nm, 60 mW C/W). Patients mean age was 61 years, with a ratio of males: females of 1: 5.25 (16%: 84%). Effectiveness was graded under three categories: excellent (remarkable improvement), good (clearly apparent improvement), and unchanged (little or no improvement). For pain attenuation, scores were: excellent&emdash;59.6%; good&emdash;30.4%; unchanged&emdash;10%. For ROM improvement the scores were: excellent&emdash;12.6%; good&emdash;43.7%; unchanged&emdash;43.7%. This gave a total effective rating for pain attenuation of 90%, and for ROM improvement of 56.3%.

LASER THERAPY OF RHEUMATOID ARTHRITIS.

Goldman JA, Chiapella J, Casey H, Bass N, Graham J, McClatcheyW, Dronavalli RV, Brown R, Bennett WJ, Miller SB, Wilson CH, Pearson B, Haun C, Persinski L, Huey H, MuckerheideM

Thirty people with classical or definite rheumatoid arthritis received laser exposure to a Q- switch neodymium laser that operated at 1.06 micrometer with an output of 15 joules/cm2 for 30 nsec. One hand was lased attheproximalinterphalangeal (PIP) and metacarpal phalangeal (MCP) joints, whereas the other hand was sham lased. The patient, physician, and occupational therapy evaluators did not know which hand was being lased. Twenty- one patients noted improvement of both their MCP and PIP joints of both hands during laser therapy. Twenty-seven noted improvement of their PIP joints and 26 noted improvement of the MCP joints during therapy. Heat, erythema, pain, swelling, and tenderness all improved with time in both hands, but the lased hand had more significant improvement in erythema and pain. There was also significant improvement in grasp and tip pressure on the lased side. The level of circulating immune complexes as measured by platelet aggregation decreased during lasing. The improvement may be related to laser exposure. The exact role that laser radiation has upon rheumatoid arthritis and its mechanism of action remain.

LASER THERAPY IN RHEUMATOLOGY

Judit OrtutayM.D., Klara Barabas M.D., Ph.D., *Adam Mester MD National Institute of Rheumatology and Physiotherapy, Budapest *Semmelweis University, Faculty of Medicine, Dept. of Diagnostic Radiology and Oncotherapy, National Laser Therapy Centre, Peterfy Sandor Teaching Hospital, Budapest .

Barabas irradiated first the joints of rheumatoid arthritis (RA) patients without skin ulcer. In the first open study objectively the range of motion and circumference of the treated joints were measured, Ritchie index as semiobjective parameter, subjective parameters as joint tenderness and pain on a visual analogous scale (VAS) were registered. The walking time was registered as a functional disability parameter. Laboratory activity parameters and the 99mTechnetium index was measured. The second part of the clinical study was double blinded, Infra Red (10mWand 100 mW) lasers were used versus dummy devices with the same outlook. The third part of the study were in vitro experiments. Synovial membranes of rheumatoid arthritis patients The DNA/RNA ratio of the RA group was compared to the control group. Significant difference was detected between the two groups. The fourth phase of clinical studies was to detect the effects of laser irradiation in other rheumatic diseases: psoriatic arthritis,sacroileitis, osteoarthritis, entesopathy, tenosynovitis, bursitis calcarea, fibromyalgia, localised muscle spasm, periarthritis humeroscapularis etc. The different wavelengths (604, 630, 660, 670, 690, 750, 780, 790, 820, 830, 904, 1053, 1219 nm,) were compared (30 – 100 mW) with other physiotherapy modalities, like ultrasound. Acknowledgement: The Central Research Institute of the Hungarian Academy of Sciences and LASOTRONIC AG (Switzerland) was helping the research.

Low level laser therapy (classes I, II and III) in the treatment of rheumatoid arthritis.

Brosseau L, Welch V, Wells G, deBie R, Gam A, Harman K, Morin M, Shea B,Tugwell P. School of Rehabilitation Sciences, Faculty of Health Sciences, University of Ottawa, 451 Smyth Road, Ottawa, Ontario, Canada, K1H-8M5.

BACKGROUND: Rheumatoid arthritis (RA) affects a large proportion of the population. Low Level Laser Therapy (LLLT) was introduced as an alternative non-invasive treatment for RA about 10 years ago. LLLT is a light source that generates extremely pure light, of a single wavelength. The effect is not thermal, but rather related to photochemical reactions in the cells. The effectivenessofLLLT for rheumatoid arthritis is still controversial.

OBJECTIVES: To assess the effectiveness of LLLT in the treatment of RA.

SEARCH STRATEGY: We searched MEDLINE, EMBASE, the registries of the Cochrane Musculoskeletal group and the field of Rehabilitation and Related Therapies as well as the Cochrane Controlled Trials Register up to January 30, 2000.

SELECTION CRITERIA: Following an a priori protocol, we selected only randomized controlled trials of LLLT for the treatment of patients with a clinical diagnosis of RA were eligible. Abstracts were excluded unless further data could be obtained from the authors.

DATA COLLECTION AND ANALYSIS: Two reviewers independently select trials for inclusion, then extracted data and assessed quality using predetermined forms. Heterogeneity was tested with Cochran’s Q test. A fixed effects model was used throughout for continuous variables, except where heterogeneity existed, in which case, a random effects model was used. Results were analyzed as weighted mean differences (WMD) with 95% confidence intervals (CI), where the difference between the treated and control groups was weighted by the inverse of the variance. Standardized mean differences (SMD) were calculated by dividing the difference between treated and control by the baseline variance. SMD were used when different scales were used to measure the same concept (e.g. pain). Dichotomous outcomes were analyzed with odds ratios.

MAIN RESULTS: A total of 204 patients were included in the five placebo-controlled trials, with 112 randomized to laser therapy. Relative to a separate control group, LLLT reduced pain by 70% relative to placebo and reduced morning stiffness duration by 27.5 minutes (95%CI: 2.9 to 52 minutes) and increased tip to palm flexibility by 1.3 cm (95% CI: 0. 8 to 1.7 cm). Other outcomes such as functional assessment, range of motion and local swelling did not differ between groups. There were no significant differences between subgroups based on LLLT dosage, wavelength, site of application or treatment length. For RA, relative to a control group using the opposite hand, there was no difference between the control and treatment hand, but all hands improved in terms of pain relief and disease activity.

REVIEWER’S CONCLUSIONS: In summary, LLLT for RA is beneficial as a minimum of a four- week treatment with reductions in pain and morning stiffness. On the one hand, this meta- analysis found that pooled data gave some evidence of a clinical effect, but the outcomes were in conflict, and it must therefore be concluded that firm documentation of the application of LLLT in RA is not possible. Clinicians and researchers should consistently report the characteristics of the LLLT device and the application techniques used. New trials on LLLT should make use of standardized, validated outcomes. Despite some positive findings, this meta-analysis lacked data on how LLLT effectiveness is affected by four important factors: wavelength, treatment duration of LLLT, dosage and site of application over nerves instead of joints.

THE EFFECTIVENESS OF LASER THERAPY IN COMPLEX TREATMENT OF PATIENTS WITH RHEUMATOID ARTHRITIS

O.M. Korolkova, V.T. Burlachuk, O.V. Gordienko, E.A. Afanasevskaya Voronezh State Medical Academy, Voronezh Regional Hospital, Voronezh, Russia

The purpose of this research is to evaluate the effectiveness of laser therapy among patients with different extents of rheumatoid arthritis (RA) disease. There has been a study of 115 patients with RA activity II-III (the main group) who apart from the basic therapy also received laser treatment.
The apparatus ALT “Mustang” with the power of 2-10 W and infrared wave range has been used. The laser influence has been aimed at the area of a damaged joint. The duration of laser influence is from 5 to 17 minutes, adding 1-2 minutes daily. The number of fields is 10, the number of treatment procedures -8-10, The control group consists of 20 patients with RA (basic therapy only).

The control of effectiveness of the therapy was based on the complex laboratory data, including definition of non-specific factors of inflammation and the factors of activity of lipid peroxidation.
The greatest effect of the therapy has been achieved in the main group of patients with activity II. In comparison with the control group we managed to receive improve-ment 8- 10 days earlier which allowed us to reduce the demand of steroids and in case of 20 patients even cancel taking them. We received statistically reliable fall of the activity of inflammation andlipidperoxidation. More moderate effect of the therapy was reached treating patients from the main group with activity III.

THE USE OF SUPRAVASCULAR BLOOD RADIATION WITH INFRARED LASER FOR TREATMENT OF SECONDARY VASCULITIS IN PATIENTS WITH RHEUMATOID ARTHRITIS

Y.L. Grinstein, S.V. Ivlev Medical Academy. Krasnoyarsk, Russia

The purpose of this work was to study the opportunity of the use ofsupravascular blood radiation with infrared laser (IR-laser) for the treatment of secondaryvasculitis in patients with rheumatoid arthritis (RA). The investigation included 12 patients with RA and secondary vasculitis signs. They received a course ofsupravascular blood radiation with IR-Iaser (wavelength 820-850 nm, 7-10 procedures). Control group consisted of 8 patients. Placebo laser therapy (LT) was administered to 7 patients. Such characteristics as hemostasis properties, a state of microcirculation in bulbar conjunctiva vessels were studied in all patients before and after treatment. It was revealed significant decrease of both XIIa-depended fibrinolysis and Willibrand’s factor level. The improvement of blood rheological properties was confirmed by a decrease of erythrocyte aggregation and improvement of its deformability.

Bulbarconjunctivalmicroscopia revealed significant diminution of intravascular change index, significant increase of arteriola-venula ratio. The improvement of nephritis manifestations (significant decrease of proteinuria level). The changesofhemostasis parameters microcirculation system were not significant in patients receiving both placebo LT and conventional therapy. Conclusions: 1) It was revealed significant diminution of endothelium lesion andXIla-dependedfibrinolysis restoration after IR-laser therapy in patients with RA and secondaryvasculitis. 2) Both microcirculation state in bulbar conjunctiva vessels and blood rheological properties significantly improve after IR-laser therapy. It is confirmed by a significant improvement of erythrocytedeformability and a decrease of its aggregation. 3) IR-laser therapy leads to urinary syndrome regression.

DIAGNOSTIC SIGNIFICANCE OF THE IMMUNITY INDICES INVESTIGATION IN THE USE OF LASER THERAPY IN PATIENTS WITH RHEUMATOID ARTHRITIS AND THE DISEASE COURSE PROGNOSIS

A.V. Nikitin, V.D. Khvan, E.F. Yevstratova Medical Academy, Voronezh, Russia

The results of the examination of the patients with rheumatoid arthritis (RA) have shown the systemic lesion of all the links of the immune system. Many-sided positive in-fluence of low energy laser irradiation on the impairment of immune homeostasis has been shown. The aim of the investigation was to study the possibility of the low energy laser irradiation use in patients with RA depending on some immunity indices and the disease course prognosis.

60 patients with RA at the age of more than 16 years old hav-ing inflammatory process activity of the I-II degrees according to the RA criteria of the American Rheumatological Association classification have been examined. 30 patients of the control group underwent the conventional treatment with non-steroid antiinflammatory drugs, basic treatment with delagil and physiotherapy. 30 patients of the main group underwent the conventional treatment and laser therapy on the joints by the infra-red laser installation “UZOR” with the wavelength of 0,89 um, the output power of 2 mW in combination with the above-vein blood irradiation by the helium-neon laser installation “ALOK-1” with the output power of 0,6 mW. The treatment was carried out daily during 15 days.

The immunity indices analysis before and after the treatment in both groups has established their obvious improvement in patients treated by laser irradiation: T- lympocytes (CD3 (p < 0.05), immunoglobulins ? (p < 0.05), T-helpers inductors (CD4+) (p < 0.05). The positive dynamics of the immunity indices in the studied group cor-related with the clinical improvement of the patients condition and depended on the marked immunity indices changes before the treatment, such as T-lymphocytes (CD3), Thelpers inductors (CD4+), immunoglobulins C. The marked positive dynamics of the abo- vementioned indices were not observed in the control group. 

Asthma Cold Laser Clinical Studies

The following is a summary of some of the clinical studies that were conducted using cold laser to treat Asthma. These studies are presented here to demonstrate the wide uses of a cold lasers in the treatment of different medical conditions.

Treatment of bronchial asthma with low-level laser in attack-free period at children

Ailioaie, C.; Ailioaie, Laura AA(Univ. of Medicine and Pharmacy)
Proc. SPIE Vol. 4166, p. 303-308, Laser Florence ’99: A Window on the Laser Medicine World, Leonardo Longo; Alfons G. Hofstetter; Mihail L. Pascu; Wilhelm R. Waidelich; Eds.
06/2000 SPIE (c) 2000 SPIE–The International Society for Optical Engineering. Downloading of the abstract is permitted for personal use only. 2000SPIE.4166..303A

Bronchial asthma is a common disease in both the pediatric and adult populations, characterized by wide variations over short periods of time in resistance to airflow in intrapulmonary airways. A primary goal in the use of low- level laser therapy (LLLT) was the safe, effective and rapid palliation of symptoms owing to tracheal or bronchial obstruction. We have investigated the effects of LLLT comparatively with other modality trials in children’s asthma. In the study were included 98 patients aged 10-18 years diagnosed with moderate or severe asthma, in attack- free period. The patients were divided into 3 groups. Group 1 received only laser therapy using extra meridian acupuncture points and scanning technique. Group 2 was treated only with inhaled Serevent 2 X 25 micrometers , two times daily, 3 months. Group 3 was tread with Theophylline retard in dosage of 15-mg/kg/12 h, 3 months. At the end of treatment we remarked a noticeable improvement of the clinical, functional and immunological characteristics at 83 percent of patients in group 1, comparatively with only 70 percent (group 2) and 53 percent (group 3). The LLLT had a very good action on bronchial patency , displayed an immunocorrecting action and is recommended in attack-free periods at children.

The following is a summary of some of the clinical studies that were conducted using cold laser to treat blood irritation. These studies are presented here to demonstrate the wide uses of a cold lasers in the treatment of different medical conditions. 

Bronchitis Cold Laser Clinical Studies

The following is a summary of some of the clinical studies that were conducted using cold laser to treat bronchitis. These studies are presented here to demonstrate the wide uses of a cold lasers in the treatment of different medical conditions.

The use of the low-level laser therapy (LLLT) in the treatment of some pulmonary diseases (10 – years experience)

DERBENJEV V. A. (1) ; MIKHAILOV V. A. (1) ; DENISOV I. N. (2) ; Affiliation(s) du ou des auteurs / Author(s) Affiliation(s) (1) Scientific and Practical Center of Laser Medicine, Moscow, RUSSIE, FEDERATION DE (2) I. M. Setchenov Moscow Medical Academy, RUSSIAN FEDERATION

The purpose of the present study was to compare the efficacy of the treatment of some pulmonary diseases with or without LLLT. 130 patients (49 of them with acute pneumonia, 42 – with chronic bronchitis, 39 – with chronic bronchial asthma) received LLLT and drug therapy, and 30 patients received only drug therapy (control group). The obtained results on the use of LLLT show that the period of convalescence in patients with both pneumonia and exacerbation of chronic bronchitis was lower with 4 – 6 days compared with control group. 68% patients with chronic bronchitis have staunch remission more than three month. Patients with bronchial asthma reported the decreasing of both number ofbronchospasm and doses of bronchodilators and glucocorticoids after LLLT. They have no exacerbation of asthma during 3 – 6 months; then these patients need the repetition of LLLT. In conclusion, LLLT is the suitable and effective complement to the treatment of pulmonary diseases. 

Burn Scars Cold Laser Clinical Studies

The following is a summary of some of the clinical studies that were conducted using cold laser to treat burn scars. These studies are presented here to demonstrate the wide uses of a cold lasers in the treatment of different medical conditions.

Low Level Laser Therapy’s conservative approach to the burn scar

K . Gaida / Burns , Volume 30 , Issue 4 , Pages 362 – 367

Burn scars are known to be difficult to treat because of their tendency to worsen with hypertrophy and contracture. Various experimental and clinical efforts have been made to alleviate their effects but the problem has not been solved.

Since patients keep asking for Low Level Laser Therapy (LLLT) and believe in its effectiveness on burn scars, and since former studies show contradictory results of the influence of LLLT on wound healing, this prospective study was designed to objectify the effects of LLLT on burn scars.

Nineteen patients with 19 burn scars were treated with a 400mW 670nm Softlaser twice a week over 8 weeks. In each patient a control area was defined, that was not irradiated. Parameters assessed were the Vancouver Scar Scale (VSS) for macroscopic evaluation and the Visual Analogue Scale (VAS) for pruritus and pain. Photographical and clinical assessments were recorded in all the patients.

Seventeen out of 19 scars exhibited an improvement after treatment. The average rating on the VSS decreased from 7.10�±2.13 to 4.68�±2.05 points in the treated areas, whereas the VSS in the control areas decreased from 6.10�±2.86 to 5.88�±2.72. A correlation between scar duration and improvement through LLLT could be found. No negative effects of LLLT were reported. The present study shows that the 400mW 670nm softlaser has a positive, yet sometimes limited effect on burn scars concerning macroscopic appearance, pruritus, and pain.

Candida Albicans Cold Laser Clinical Studies

The following is a summary of some of the clinical studies that were conducted using cold laser to treat candida albicans. These studies are presented here to demonstrate the wide uses of a cold lasers in the treatment of different medical conditions.

Candida Albicans Cold Laser Clinical Studies

The following is a summary of some of the clinical studies that were conducted using cold laser to treat candida albicans. These studies are presented here to demonstrate the wide uses of a cold lasers in the treatment of different medical conditions.

Effect of low-level laser therapy on Candida albicans growth in patients with denture stomatitis.

Maver-Biscanin M, Mravak-Stipetic M, Jerolimov V. Department of Prosthodontics, Clinical Hospital Centre, Zagreb, Croatia. mirela.maver@zg.htnet.hr
PMID: 15954824 [PubMed – indexed for MEDLINE

OBJECTIVE: The purpose of our report is to present the effect of low-level laser therapy on Candida albicans growth and palatal inflammation in two patients with denture stomatitis.

BACKGROUND DATA: The most common oral mucosal disorder in denture wearers is denture stomatitis, a condition that is usually associated with the presence of the yeast Candida albicans. Different treatment methods have been suggested to treat this symptom, none of which is proven to be absolutely effective.

METHODS: Two denture-wearing patients, both with palatal inflammation diagnosed as Newton type II denture stomatitis were treated with low-power semiconductor diode laser (BTL-2000, Prague, Czech Republic) at different wavelengths (685 and 830 nm) for 5 d consecutively. In both patients, palatal mucosa and acrylic denture base were irradiated in noncontact mode (probe distance of 0.5 cm from irradiated area) with different exposure times-5 min (830 nm, 3.0 J/cm2, 60 mW) and 10 min (685 nm, 3.0 J/cm2, 30 mW). The effect of laser light on fungal growth in vivo was evaluated after the final treatment using the swab method and semiquantitative estimation of Candida albicans colonies growth on agar plates. The severity of inflammation was evaluated using clinical criteria.

RESULTS: After lowlevel laser treatment, the reduction of yeast colonies on the agar plates was observed and palatal inflammation was diminished.

CONCLUSION: LLLT is effective in the treatment of denture stomatitis. Further placebo controlled studies are in progress. 

Clinical application of GaAIAs 830 NM diode laser in treatment of rheumatoid arthritis

Kanji Asada, Yasutaka Yutani, Akira Sakawa and Akira Shimazu. Department of Orthopedic Surgery, Osaka City University Medical School, Japan

The authors have been involved in the treatment of rheumatoid arthritis (RA), in particular chronic poly-arthritis and the associated pain complaints. The biggest problem facing such patients is joint contracture, leading to bony ankylosis. This in turn severely restricts the range of motion (ROM) of the RA-affected joints, thereby seriously restricting the patient’s quality of life (QOL). The authors have determined that in these cases, daily rehabilitation practice is necessary to maintain the patient’s QOL at a reasonable level.

The greatest problem in the rehabilitation practice is the severe pain associated with RA- affected joints, which inhibits restoration of mobility and improved ROM. LLLT or low reactive level laser therapy has been recognized in the literature as having been effective in pain removal and attenuation. The authors accordingly designed a clinical trial to assess the effectiveness of LLLT in RA related pain (subjective self-assessment) and ROM improvement (objective documented data).

From July 1988 to June 1990, 170 patients with a total of 411 affected joints were treated using a GaAlAs diode laser system (830 nm, 60 mW C/W). Patients mean age was 61 years, with a ratio of males: females of 1: 5.25 (16%: 84%). Effectiveness was graded under three categories: excellent (remarkable improvement), good (clearly apparent improvement), and unchanged (little or no improvement).

For pain attenuation, scores were: excellent – 59.6%; good – 30.4%; unchanged – 10%.

For ROM improvement the scores were: excellent – 12.6%; good – 43.7%; unchanged – 43.7%. This gave a total effective rating for pain attenuation of 90%, and for ROM improvement of 56.3%. 

Effect of Low-Level Laser Radiation on Some Rheological Factors in Human Blood: An in Vitro Study

Dan G. Siposan, Adalbert Lukacs. Journal of Clinical Laser Medicine & Surgery. August 1, 2000, 18(4): 185-195. doi:10.1089/10445470050144038. Dan G. Siposan Doctoral candidate Technical Military Academy, Bucharest, Romania

Adalbert Lukacs Doctoral candidate Center of Transfusion Hematology of the Army, Bucharest, Romania

Objective: The purpose of this study was to investigate the in vitro effects of low-level laser radiation (LLLR) on some rheological factors of the human blood, such as complete blood count (CBC) parameters and blood sedimentation rate (BSR). We were mainly concerned with the alterations caused by LLLR action on blood cells (erythrocytes and leukocytes) of fresh blood obtained from apparently healthy adult patients. We used low doses ranging between 0.80 Jââ?¬Â¢cm-3 and 4.40 Jââ?¬Â¢cm-3, at the very low-power densities of the laser radiation, so as not to damage the cell structure and not to alter in an undesired manner their functions.

Methods: Blood samples were taken from 22 volunteers. Where health problems existed, they were indicated for each case. The parameters mentioned above were measured before (control samples) and after irradiation. A He-Ne laser, operating in a continuous wave, as a radiation source (632.8 nm, 1 mW, mean power density incident on blood samples around 30 mW cm-2, beam spot diameter 2 mm) was used. The measurements were performed immediately after irradiation. Only the erythrocyte complex was irradiated. EDTA anticoagulant was used. Results: The measurements using a computerized hemoanalyzer type SERONO showed significant differences between control and irradiated blood samples concerning the following parameters: RBC (in 22% of cases), HGB (47.3%), HCT (84.2%), RDW (11%), PLT (5.26%), MPV (33.3%), WBC (5.26%), MONO (26.3%), and GRAN (63.15%). In the case of BSR (44%), the significant differences were noticed especially in the cases of patients suffering from some acute or chronic diseases. No significant differences were noticed in the cases of MCV, MCH, MCHC, RDW, and LYMPH.

Conclusions: This study has shown that LLLR, even though used at low doses and low power densities, produced some changes of the rheological factors of the blood, as follows: a revitalizing and regenerating effect on mitosis stimulation and a nondamaging and biostimulating effect on the cell membrane (by keeping unmodified MCV, MCH, and MCHC). In 3 cases out of 22, hemolysis (complete or partially) occurred, but we are not yet sure whether this was caused by laser exposure or by certain environmental physical factors

Blood Trauma Cold Laser Clinical Studies

The following is a summary of some of the clinical studies that were conducted using cold laser to treat blood trauma. These studies are presented here to demonstrate the wide uses of a cold lasers in the treatment of different medical conditions.

Intravascular laser irradiation of blood in treatment of traumatic abdominal organs injuries

Koshelev VN, Chalyk IuV.

Khirurgiia (Mosk). 1998;(5):40-2.

The application of intravascular laser irradiation of the blood (ILIB) in combined postoperative intensive care in 28 patients with traumatic injuries of parenchymal organs and severe intraabdominal bleeding (more than 20% CBV) contributed to substantial improvement of the results of treatment and reduction of complications rate. ILIB boosts functional activity of leucocytes, normalizes the system of hemostasis and antioxidant defense.

Laser radiation to correct disorders of blood albumin transport in severe mechanical trauma

Kravchenko-Berezhnaia NR, Moroz VV, Kozhura VL.

The paper provides evidence for that it is expedient to perform multi-stage intravascular low-intensity laser blood radiation in patients with severe mechanical trauma and massive blood loss in the early posttraumatic period. The use of laser radiation at a wavelength of 632.0 nm by inserting a disposable light guide (its end power was 1.5-2.0 mW, and the duration of a session–30 min) as part of complex therapy in this group of patients romotes the increase of plasma albumin transport ability and the general stimulation of natural detoxifixation mechanisms.

LLLT using a diode laser in successful treatment of a herniated lumbar/sacral disc, with magnetic resonance imaging (MRI) assessment

Tatsuhide Abe. Abe Orthopaedic Clinic Futuoka City Fukuoka Prefecture Japan X12′ A 40- year-old woman presented at the Abe Orthopedic Clinic with a 2-year history of lower hack pain and pain in the left hip and leg diagnosed as a ruptured disc between the 5th lumbar/lst sacral vertebrae. The condition had failed to respond to conventional treatment methods including pelvic traction, nonsteroid anti-inflammatory drugs and aural block anesthetic injections.

MRI scans were made of the affected disc, showing it protruding on the left side through the aural membrane. The gallium aluminum arsenide (GaAlAs) diode laser (830 nm, 60 mW) was used in outpatient therapy and after 7 months, the patient’s condition had dramatically improved demonstrated by motility exercises. This improvement was confirmed by further MRI scans, which showed clearly the normal condition of the previously herniated L5/SI disc. 

Low level laser therapy of tendinitis and myofacial pains a randomized, double-blind, controlled study

Mimmi Logdberg-Anderssont (1), Sture Mutzell (2), and Ake Hazel (3)

1: Akersberga Health Care Centre,
2: Danderyd University Hospital, Danderyd, and
3: Vaxholm Health Care Centre, Stockholm, Sweden.

The purpose of this randomised, double-blind study was to examine the effect of GaAs laser therapy for tendonitis and myofascial pain in a sample from the general population of Akersberga in the northern part of Greater Stockholm.

176 patients (of an original group of 200) completed the scheduled course of treatment. The patients were assigned randomly to either a laser group (92 patients, of whom 74 had tendonitis, completed the study) or a placebo group (84 patients, of whom 68 had tendonitis, completed the study). All 176 patients received six treatments during a period of 3-4 weeks. Their pain was estimated objectively using a pain threshold meter, and subjectively with a visual analogue scale before, at the end of, and four weeks after the end of treatment.

Laser therapy had a significant, positive effect compared with placebo measured from the first assessment to the third assessment, four weeks after the end of treatment. Laser treatment was most effective on acute tendonitis. 

Mechanisms of the analgesic effect of therapeutic lasers in vivo

L Navratil (1) and I Dylevsky (2)

1: Outpatient Department of Radiobiology, Institute of Biophysics, First Medical Faculty, and 2: Department of Functional Anatomy, Second Medical Faculty and Faculty of Physical Education Charles University, Prague, Czech Republic

The analgesic effects in the course of application of therapeutic lasers to affected tissue have been described in a number of works in the literature. Although a few scientific- based reports have appeared, those on laser-induced analgesia are mainly clinical works describing the effect of the therapy which, however, do not study the mechanism of the laser action.

There are several different possible responses induced by non-invasive low level laser therapy (LLLT). The purpose of the present communication is to review the arrangement and characterization of these responses. By being aware of these effects, the laser therapist can acquire a physiological and morphological scheme making possible the appropriate choice of the site of application of LLLT, choice of the irradiation technique, and selection of appropriate doses. 

Mechanistic approach to GaAIAs diode laser effects on production of reactive oxygen species from human neutrophils as a model for therapeutic modality at cellular level

Makoto Yamaya*, Chiyuki Shiroto’, Hiroki Kobayashi*, Shinji Naganuma*, Jyuichi Sakamoto*, Koh-Jun Suzuki*, Shigeyuki Nakaji*, Kazuo Sugawara* and Takashi Kumae *Department of’ Hygiene, Hirosaki University School of Medicine. Hirosaki; .-Shiroto Clinic Coshogawara, Aomori: Department of Industrial Health. The Institute of Public Health, Tokyo. Japan.

There have been many reports on the applications of low reactive level laser (LLL) therapy for pain attenuation or pain removal. Our group has reported previously on the effects of in vitro irradiation of LLLT particularly on the phagocytic activity of human Neutrophils, using luminol-dependent chemiluminescence (LmCL) for measurement of reactive oxygen species (ROS) production from human Neutrophils. However, the mechanisms of the attenuation of phagocytic activity of NEUTROPHILS by LLL irradiation is not yet full understood.

In this study. we used luminol-dependent and lucigenin-dependent chemiluminescence (LgCL) for detection of affected ROS producing process of human Neutrophils by LLL irradiation. Two soluble action stimuli, N-formyl-Met-Leu-Phc (fMLP) and phorbol myristate acetate (PMA) were used to avoid the possible influence of lag-time from recognition to uptake of particles at the ROS production.

In case of using fMLP as a stimulus, the maximum luminescence intensity of LULL was increased hut LgCL luminescence was decreased by LLL irradiation. When PMA was used as a stimulus, the times to reach the maximum luminescence intensity of LmCL and LgCL were shortened by LLL irradiation, but there was no effect on the maximum luminescence intensity of both.

These results suggest that LLL irradiation enhances the ROS production activity of human Neutrophils by the activation of the superoxide converting system, the active clement in which is mainly myeloperoxidase. LLL irradiation enabled a more rapid activation of the superoxide production system, NADPH -oxidase. 

Pain scores and side effects in response to low-level laser therapy (LLLT)/ Cold Laser Therapy for physical trigger points

E Liisa Laakso Carolyn Richardson, and Tess Cramond

1: Physiotherapy Department, Royal Brisbane Hospital, Brisbane; 2: Physiotherapy Department, University of Queensland, Brisbane; and 3: Pain Clinic, Royal Brisbane Hospital, Brisbane, Queensland, Australia.

Clinically, Low Level Laser Therapy – LLLT has been used successfully in the treatment of chronic pain but many have questioned the scientific basis for its use. Many studies have been poorly designed or poorly controlled.

A double-blind, placebo-controlled, random allocation study was designed to analyse the effect of second daily infrared (JR) laser (820 nm, 25 mW) and visible red laser (670 nm, 10 mW) at 1 J/cm2 and 5 J/cm2 on chronic pain. Forty-one consenting subjects with chronic pain conditions exhibiting myofascial trigger points in the neck and upper trunk region underwent five treatment sessions over a two week period. To assess progress, pain scores were measured using visual analogue scales before and after each treatment. The incidence of side effects was recorded.

All groups demonstrated significant reductions in pain over the duration of the study with those groups which received infrared (820 nm) laser at I J/cm2 and 5 J/cm2. demonstrating the most significant effects (p < 0.001). Only those subjects who had active laser treatment experienced side effects.

Results indicated that responses to LLLT at the parameters used in this study are subject to placebo and may be dependant on power output, dose and/or wavelength. 

Physiological responses in chronic pain patients LLLT protocol

Scott D. Fender and David Diffee. Pain Research Group, Arvada, Colorado, U.S.A.

Use of Low Reactive Level Laser Therapy (LLLT) utilizing helium-neon lasers has increased lately especially in pain control. New protocols are being developed aimed at a complex of primary and secondary symptomologies. One of these protocols, Stellate Ganglion Stimulation, has shown in our research a unique set of developments.

Targeting the area of the stellate ganglion is showing great promise in the rehabilitation of patients with a history of chronic musculoskeletal pain syndromes, but several patients with preexisting psychological symptomology have exacerbated during the initial stages of the utilization of this protocol. Patients with a history of psychological diagnosis for dysthymia, anxiety, post-traumatic stress disorder or minor diffuse brain injury have shown exacerbation of these symptomologies during the initial phases of stimulation treatment.

Overall, response to this form of therapy seems to be positive but some patients require dermatomal and/or site-specific therapy to maximize outcome. With specific psychological treatment combined with a more conservative amount of stimulation initially, the increase in these symptoms shows a tendency to remit with the pain response.

Our continued research is currently focusing on the mechanisms for this type of response as well as protocol refinement to maximize its effectiveness. 

Class IV Laser Therapy Science, Clinical Studies and Education

Class IV Laser Therapy Science, Clinical Studies and Education

To date, there are now over 5000 Proof Positive Clinical Studies and Research Papers that reveal beyond a shadow of a doubt that laser therapy, phototherapy aka Photobiomodulation (PBM) is effective at treating a wide range of conditions that were previously untreatable, except sometimes through drugs and surgery. There are over quarter million health care providers using cold lasers in their practice and over a million laser users, so laser therapy is definitely NOT an “experimental” therapy. Research reveals how and why therapeutic lasers are exceptionally effective for pain relief, the reduction of inflammation, increasing circulation of both blood and lymph, and supporting the body to heal on a cellular level.

Further down you will find an online book which provides a compendium of scientific and clinical studies conducted by researchers and clinicians and published in journals which are properly notated on their respective pages. Before you scroll down to look at all the research studies I want to provide you with a short summary of what Cold Laser Equipment and also Class 4 Lasers are being successfully used for so that you can start to see the big picture. 

*Please bear in mind that results will vary from person to person. While many of the following clinical studies have shown positive results, no medical claims are being made other than for those issues such as pain and inflammation, for a specific lasers that have been cleared for such by the FDA. 

Controlled Double Blind Studies with Cold Laser Therapy

Following is a list of cold laser controlled, randomized, double-blind studies,* which have shown that Cold Laser Therapy is an effective treatment modality for a wide range of treatment indications such as:

  • Acne Vulgaris
  • Achilles tendonitis
  • Ankle sprains
  • Arthritis
  • Carpal tunnel syndrome
  • Chronic back pain
  • Chronic neck pain
  • Epicondylitis
  • Herpes simplex
  • Lymphedema
  • Myofascial pain syndrome
  • Oral mucositis
  • Shoulder pain
  • Sports injuries
  • Stroke
  • Temporomandibular dysfunction
  • Tinnitus

*Achilles tendinitis: Bjordal, J.M., et al. (2006). A randomized, placebo controlled trial of low level laser therapy for activated Achilles tendinitis with microdialysis measurement of peritendinous prostaglandin E2 concentrations. British Journal of Sports Medicine 40, pp. 75-80.

Acne vulgaris: Seaton, E.D., et al. (2003). Pulsed-dye laser treatment for inflammatory acne vulgaris: randomised controlled trial. The Lancet 362, pp. 1347-1352. Acute pain
(Review paper): Bjordal, J.M., et al. (2006). Low-Level Laser

Therapy in Acute Pine: A Systematic Review of Possible Mechanisms of Action and Clinical Effets in Randomized Placebo-Controlled Trials. Photomedicine and Laser Surgery 24(2), pp. 158-168.

Carpal tunnel syndrome: Ekim, A., et al. (2007). Effect of low level laser therapy in rheumatoid arthritis patients with carpal tunnel syndrome. Swiss Medical Weekly 23-24, pp. 347-352.

Chronic neck pain: Chow, R.T., et al. (2006). The effect of 300 mW, 830 nm laser on chronic neck pain: A double-blind, randomized, placebo-controlled study. Pain 124(1-2), pp. 201-210.

Herpes simplex: Schindl, A., and Neumann, R. (1999). Low-Intensity Laser Therapy is an Effective Treatment for Recurrent Herpes Simplex Infection. Results from a Randomized Double-Blind Placebo-Controlled Study. Investigative Dermatology 113, pp. 221-223.

Myofascial Pain Syndrome

Gur, A., et al. (2004). Efficacy of 904 nm Gallium Arsenide Low Level Laser Therapy in the Management of Chronic Myofascial Pain in the Neck: A Double-Blind and Randomize-Controlled Trial.

Lasers in Surgery and Medicine 35, pp. 229-235.

Oral Mucositis: Bensadoun, R.J., et al. (1999). Low-energy He/Ne laser in the prevention of radiation-induced mucositis – A multicenter phase III randomized study in patients with head and neck cancer.

Support Care Cancer 7, DOI 10.1007/s005209900034.

Osteoarthritic Knee Pain

(Review paper): Bjordal, J.M., et al. (2007). Short-term efficacy of physical interventions in Osteoarthritic knee pain. A systematic review and meta-analysis of randomised placebo-controlled trials. BNC – Musculoskeletal Disorders, DOI 10.1186/1471-2474-8-51.

Postmastectomy Lymphedema

Carati, C.J., et al. (2003). Treatment of Postmastectomy Lymphedema with Low-Level Laser Therapy.

American Cancer Society, DOI 10.1002/cncr.11641.

Stroke: Lampl, Y., et al. (2007).
Infrared Laser Therapy for Ischemic Stroke: A new Treatment Strategy. Results of the NeuroThera Effectiveness and Safety Trial-1

(NEST-1). Stroke, DOI 10.1161/STROKEAHA.106.478230.

Tendinitis and Myofascial Pain Syndrome

(includes Epicondylitis, trochanteritis, etc): Lögdberg-Andersson, M., et al. (1997). Low Level Laser Therapy (LLLT) of Tendinitis and Myofascial Pains – A Randomized, Double-Blind, Controlled Study. LLLT 9, pp. 79-86.

Tinnitus: Gungor, A., et al. (2007).
Effectiveness of transmeatal low power laser irradiation for chronic tinnitus.

The Journal of Laryngology & Otology, DOI 10.1017/S0022215107009619

Laser Therapy Science and Clinical Studies

CLASS IV LASER THERAPY – AKA PHOTOMEDICINE IS DELIVERING MANY BENEFITS THROUGH INTEGRATIVE MEDICINE PRACTITIONERS

Clinical Results Reveal Many Transformative and Encouraging Benefits Such As:

1. Anti-Inflammatory Effect
Effect of Laser Therapy on the Expression of Inflammatory Mediators… Pubmed

Laser Therapy reduces inflammation with vasodilation, activation of the lymphatic drainage system, and reduction of pro-inflammatory mediators; as a result, inflammation, erythema, bruising, and edema are reduced. This is one of the primary goals in Photomedicine (Laser) Therapy.

2. Analgesic Effect

Anti-inflammatory and Analgesic Effects of Laser Therapy… Pubmed

Reduction of pain through the suppression of nerve signal transmission over unmyelinated c-fibers; production of high levels of peptides such as endorphins and enkephalins from the brain and adrenal glands, offering successful treatment of many conditions; a suppression of nociceptors, an increase of simulated threshold, an increased release of tissue endorphins.    

3. Accelerated Tissue Repair and Cell Growth

Effect of Laser Therapy on Proliferation and Differentiation of Cells… Pubmed

Photons of light from lasers penetrate deeply into tissue and accelerate cellular reproduction and growth. Laser light increases the energy available to the cells so that they can take on nutrients and get rid of waste products more quickly; perfect for integrative medicine.

4. Improved Vascular Activity

Blood Flow After Laser Therapy. Pubmed

Laser therapy is purported to improve blood flow in soft tissues. Modulating circulation would promote healing by controlling postinjury ischemia, hypoxia, edema, and secondary tissue damage. 

5. Increased Metabolic Activity
Blood Flow After Laser Therapy. Pubmed

Laser therapy creates higher outputs of specific enzymes, greater oxygen and food particle loads for blood cells.

6. Trigger Points and Acupuncture Points
Efficacy of Laser Therapy Applied at Acupuncture Points. Pubmed

Laser therapy stimulates muscle trigger points and acupuncture points on a non-invasive basis, providing musculoskeletal pain relief.

7. Reduced Fibrous Tissue Formation
Muscle regeneration is a complex phenomenon, involving replacement of damaged fibers by new muscle fibers. During this process, there is a tendency to form scar tissue or fibrosis by deposition of collagen that could be detrimental to muscle function. Laser therapy significantly reduced the lesion percentage area in the injured muscle (p<0.05), increased mRNA levels of the transcription factors MyoD and myogenin (p<0.01) and the pro-angiogenic vascular endothelial growth factor (p<0.01). Moreover, Laser Therapy decreased the expression of the profibrotic transforming growth factor TGF-β mRNA (p<0.01) and reduced type I collagen deposition (p<0.01). These results suggest that potomedicine could be an effective therapeutic approach for promoting skeletal muscle regeneration while preventing tissue fibrosis after muscle injury. Pubmed

8. Improved Nerve Function
Therapeutic laser energy accelerates the process of nerve cell regeneration and increases the amplitude of action potentials to optimize motor and sensory nerve functions, and stimulates the regeneration of myelin and other nerve tissues to decrease pain. 

Efficacy of Laser Therapy in Nerve Injury Repair – a New Era in Therapeutic Agents and Regenerative Treatments. Pubmed

9. Immunoregulation
Laser therapy benefits the immune system by stimulating immunoglobulins and lymphocytes; energy is absorbed by targeted chromophores (molecular enzymes) that react to laser light. The production of adenosine triphosphate (ATP) accelerates in targeted tissues, stimulating increased energy for all chemical reactions in targeted cells. 

The Potential Role of (Laser Therapy) in Long COVID-19 Patient Rehabilitation. Pubmed

10. Faster Wound Healing
Laser therapy accelerates the body’s natural healing processes by using stimulated light energy to increase blood flow, reduce pain, accelerate tissue repair, heal wounds, and improve nerve function and vascular activity. Pubmed

11. Tendinitis and Myofascial Pain Syndrome

(includes Epicondylitis, trochanteritis, etc): Lögdberg-Andersson, M., et al. (1997). Low Level Laser Therapy (LLLT) of Tendinitis and Myofascial Pains – A Randomized, Double-Blind, Controlled Study. LLLT 9, pp. 79-86.

12. Tinnitus: Gungor, A., et al. (2007).
Effectiveness of transmeatal low power laser irradiation for chronic tinnitus.

The Journal of Laryngology & Otology, DOI 10.1017/S0022215107009619&

Compare: REMY30 30 Watt QUAD Wave to K-Laser 

 
Specification REMY 30W QUAD Klaser®
Cube 30
1. Diode Power (watts) 30 45
2. Wavelengths (nm) 637, 810, 905, 980 Adjustable 635, 810,
910, 980
3. Pulsing Sweep, Single & CW Sweep,
Single & CW
4. Software Upgradable Thru WiFi Thru WiFi
5. Pulsing Steps Up to 12 Up to 6
6. Adapts for Patient Size and skin color Yes Yes
7. Hand Free Option Yes Yes
8. Deliver Rates 25 j/sec CW, 0-24.8 j/sec pulse 30 j/sec CW, 0-29.5 j/sec pulse
9. Warranty 5 Years 5 Years
10. Interchangeable Heads 5 6
11. Estimated Prices $14,595 $37,500
Includes Custom Marketing Yes No
Includes Training Package Yes No

 

Notes:
1. This is the total power of the diodes in the system and not the guaranteed output.
2. This shows the wavelengths used and reveals if the blend of the different wavelengths are independently adjustable. Some systems are a “fixed blend” of multi-wavelengths meaning that the user does not have independent control of each wavelength. Remy does permit independent wavelength adjustments. 810nm is the best wavelength for a photo-chemical reaction as in PBM. 980nm is primarily for rapid analgesic pain and inflammation reduction. It produces about 1/30th the photo-chemical reaction as 810nm (based on research).
3. Systems with “sweep” will automatically rotate through multiple pulsing frequencies in a single program. This allows the laser to optimize the treatment, treating multiple symptoms in one program. Lower-tech systems have just one “single” pulsing frequency per program.
4. Wifi connected system can auto-update software and protocols over the internet. Laser therapy is still evolving so this allows these lasers to continuously improve over time, while unconnected systems go obsolete.
5. Pulsing technology is rapidly evolving. Better systems allow for multiple pulsing steps. For example, this can allow the same program to be optimized for both pain (step 1) and inflammation reduction (step 2).
6. Common knowledge about PBM will state that dosage is based on condition, patient size and skin color. Darker and larger patients need a higher dosage. This is also just common sense. Better system follow the best practices.
7. Interchangeable heads allow the user to swap the handpiece for different applications, thus providing superior results for more conditions. 
8. Delivery rate is really what you are paying for but some system claim high delivery rates and don’t really deliver the claimed rate in the therapy sessions. Claiming high peak powers is a way to make the system appear to have more value than it really does.
9. Higher quality systems have a better warranty.
10. OPTIONAL – Hands free systems allow practitioners to treat patient unattended. The REMY VET30W QUAD can be used with a Bluetooth remote so the patient can turn on and off the system themselves (a nice safety feature) when using the hands-free system.
11. It is common to pay excessively for a more known brand name. Some more established brands charge significant prices without delivering superior power, performance or efficacy.

As you can see from the comparison table, the REMY 30W QUAD offers superior performance at a fraction of the cost of a similar class 4 laser. Both REMY and the competing manufacturers offer multiple models but in all the cases, the REMY Laser offers superior performance at a much lower cost.

Conclusion: In this analysis, we compare the REMY 30W QUAD wavelength system to the new Cube 30. Prior to the release of the Cube 30, their flagship was the Cube 4+. The Klaser is made in Italy and their quality and designs are some of the best. That is why the REMY 30W QUAD designers took alot of quality and design elements from the K-laser and took them to a higher level. If you compare the REMY 30W QUAD to the Cube 4+, which sold for $27,500, it beats it’s performance hands down. Both system are very similar in the way the software and operating system control the therapy so the main area where the REMY 30W QUAD comes out ahead is when you include the price, training and support in your decision.

Class IV Laser Therapy Science, Clinical Studies and Education

Class IV Laser Therapy Science, Clinical Studies and Education

To date, there are now over 5000 Proof Positive Clinical Studies and Research Papers that reveal beyond a shadow of a doubt that laser therapy, phototherapy aka Photobiomodulation (PBM) is effective at treating a wide range of conditions that were previously untreatable, except sometimes through drugs and surgery. There are over quarter million health care providers using cold lasers in their practice and over a million laser users, so laser therapy is definitely NOT an “experimental” therapy. Research reveals how and why therapeutic lasers are exceptionally effective for pain relief, the reduction of inflammation, increasing circulation of both blood and lymph, and supporting the body to heal on a cellular level.

Further down you will find an online book which provides a compendium of scientific and clinical studies conducted by researchers and clinicians and published in journals which are properly notated on their respective pages. Before you scroll down to look at all the research studies I want to provide you with a short summary of what Cold Laser Equipment and also Class 4 Lasers are being successfully used for so that you can start to see the big picture. 

*Please bear in mind that results will vary from person to person. While many of the following clinical studies have shown positive results, no medical claims are being made other than for those issues such as pain and inflammation, for a specific lasers that have been cleared for such by the FDA. 

Controlled Double Blind Studies with Cold Laser Therapy

Following is a list of cold laser controlled, randomized, double-blind studies,* which have shown that Cold Laser Therapy is an effective treatment modality for a wide range of treatment indications such as:

  • Acne Vulgaris
  • Achilles tendonitis
  • Ankle sprains
  • Arthritis
  • Carpal tunnel syndrome
  • Chronic back pain
  • Chronic neck pain
  • Epicondylitis
  • Herpes simplex
  • Lymphedema
  • Myofascial pain syndrome
  • Oral mucositis
  • Shoulder pain
  • Sports injuries
  • Stroke
  • Temporomandibular dysfunction
  • Tinnitus

*Achilles tendinitis: Bjordal, J.M., et al. (2006). A randomized, placebo controlled trial of low level laser therapy for activated Achilles tendinitis with microdialysis measurement of peritendinous prostaglandin E2 concentrations. British Journal of Sports Medicine 40, pp. 75-80.

Acne vulgaris: Seaton, E.D., et al. (2003). Pulsed-dye laser treatment for inflammatory acne vulgaris: randomised controlled trial. The Lancet 362, pp. 1347-1352. Acute pain
(Review paper): Bjordal, J.M., et al. (2006). Low-Level Laser

Therapy in Acute Pine: A Systematic Review of Possible Mechanisms of Action and Clinical Effets in Randomized Placebo-Controlled Trials. Photomedicine and Laser Surgery 24(2), pp. 158-168.

Carpal tunnel syndrome: Ekim, A., et al. (2007). Effect of low level laser therapy in rheumatoid arthritis patients with carpal tunnel syndrome. Swiss Medical Weekly 23-24, pp. 347-352.

Chronic neck pain: Chow, R.T., et al. (2006). The effect of 300 mW, 830 nm laser on chronic neck pain: A double-blind, randomized, placebo-controlled study. Pain 124(1-2), pp. 201-210.

Herpes simplex: Schindl, A., and Neumann, R. (1999). Low-Intensity Laser Therapy is an Effective Treatment for Recurrent Herpes Simplex Infection. Results from a Randomized Double-Blind Placebo-Controlled Study. Investigative Dermatology 113, pp. 221-223.

Myofascial Pain Syndrome

Gur, A., et al. (2004). Efficacy of 904 nm Gallium Arsenide Low Level Laser Therapy in the Management of Chronic Myofascial Pain in the Neck: A Double-Blind and Randomize-Controlled Trial.

Lasers in Surgery and Medicine 35, pp. 229-235.

Oral Mucositis: Bensadoun, R.J., et al. (1999). Low-energy He/Ne laser in the prevention of radiation-induced mucositis – A multicenter phase III randomized study in patients with head and neck cancer.

Support Care Cancer 7, DOI 10.1007/s005209900034.

Osteoarthritic Knee Pain

(Review paper): Bjordal, J.M., et al. (2007). Short-term efficacy of physical interventions in Osteoarthritic knee pain. A systematic review and meta-analysis of randomised placebo-controlled trials. BNC – Musculoskeletal Disorders, DOI 10.1186/1471-2474-8-51.

Postmastectomy Lymphedema

Carati, C.J., et al. (2003). Treatment of Postmastectomy Lymphedema with Low-Level Laser Therapy.

American Cancer Society, DOI 10.1002/cncr.11641.

Stroke: Lampl, Y., et al. (2007).
Infrared Laser Therapy for Ischemic Stroke: A new Treatment Strategy. Results of the NeuroThera Effectiveness and Safety Trial-1

(NEST-1). Stroke, DOI 10.1161/STROKEAHA.106.478230.

Tendinitis and Myofascial Pain Syndrome

(includes Epicondylitis, trochanteritis, etc): Lögdberg-Andersson, M., et al. (1997). Low Level Laser Therapy (LLLT) of Tendinitis and Myofascial Pains – A Randomized, Double-Blind, Controlled Study. LLLT 9, pp. 79-86.

Tinnitus: Gungor, A., et al. (2007).
Effectiveness of transmeatal low power laser irradiation for chronic tinnitus.

The Journal of Laryngology & Otology, DOI 10.1017/S0022215107009619

Physiological responses in chronic pain patients LLLT protocol

Scott D. Fender and David Diffee. Pain Research Group, Arvada, Colorado, U.S.A.

Use of Low Reactive Level Laser Therapy (LLLT) utilizing helium-neon lasers has increased lately especially in pain control. New protocols are being developed aimed at a complex of primary and secondary symptomologies. One of these protocols, Stellate Ganglion Stimulation, has shown in our research a unique set of developments.

Targeting the area of the stellate ganglion is showing great promise in the rehabilitation of patients with a history of chronic musculoskeletal pain syndromes, but several patients with preexisting psychological symptomology have exacerbated during the initial stages of the utilization of this protocol. Patients with a history of psychological diagnosis for dysthymia, anxiety, post-traumatic stress disorder or minor diffuse brain injury have shown exacerbation of these symptomologies during the initial phases of stimulation treatment.

Overall, response to this form of therapy seems to be positive but some patients require dermatomal and/or site-specific therapy to maximize outcome. With specific psychological treatment combined with a more conservative amount of stimulation initially, the increase in these symptoms shows a tendency to remit with the pain response.

Our continued research is currently focusing on the mechanisms for this type of response as well as protocol refinement to maximize its effectiveness. 

Pain scores and side effects in response to low-level laser therapy (LLLT)/ Cold Laser Therapy for physical trigger points

E Liisa Laakso Carolyn Richardson, and Tess Cramond

1: Physiotherapy Department, Royal Brisbane Hospital, Brisbane; 2: Physiotherapy Department, University of Queensland, Brisbane; and 3: Pain Clinic, Royal Brisbane Hospital, Brisbane, Queensland, Australia.

Clinically, Low Level Laser Therapy – LLLT has been used successfully in the treatment of chronic pain but many have questioned the scientific basis for its use. Many studies have been poorly designed or poorly controlled.

A double-blind, placebo-controlled, random allocation study was designed to analyse the effect of second daily infrared (JR) laser (820 nm, 25 mW) and visible red laser (670 nm, 10 mW) at 1 J/cm2 and 5 J/cm2 on chronic pain. Forty-one consenting subjects with chronic pain conditions exhibiting myofascial trigger points in the neck and upper trunk region underwent five treatment sessions over a two week period. To assess progress, pain scores were measured using visual analogue scales before and after each treatment. The incidence of side effects was recorded.

All groups demonstrated significant reductions in pain over the duration of the study with those groups which received infrared (820 nm) laser at I J/cm2 and 5 J/cm2. demonstrating the most significant effects (p < 0.001). Only those subjects who had active laser treatment experienced side effects.

Results indicated that responses to LLLT at the parameters used in this study are subject to placebo and may be dependant on power output, dose and/or wavelength. 

Mechanistic approach to GaAIAs diode laser effects on production of reactive oxygen species from human neutrophils as a model for therapeutic modality at cellular level

Makoto Yamaya*, Chiyuki Shiroto’, Hiroki Kobayashi*, Shinji Naganuma*, Jyuichi Sakamoto*, Koh-Jun Suzuki*, Shigeyuki Nakaji*, Kazuo Sugawara* and Takashi Kumae *Department of’ Hygiene, Hirosaki University School of Medicine. Hirosaki; .-Shiroto Clinic Coshogawara, Aomori: Department of Industrial Health. The Institute of Public Health, Tokyo. Japan.

There have been many reports on the applications of low reactive level laser (LLL) therapy for pain attenuation or pain removal. Our group has reported previously on the effects of in vitro irradiation of LLLT particularly on the phagocytic activity of human Neutrophils, using luminol-dependent chemiluminescence (LmCL) for measurement of reactive oxygen species (ROS) production from human Neutrophils. However, the mechanisms of the attenuation of phagocytic activity of NEUTROPHILS by LLL irradiation is not yet full understood.

In this study. we used luminol-dependent and lucigenin-dependent chemiluminescence (LgCL) for detection of affected ROS producing process of human Neutrophils by LLL irradiation. Two soluble action stimuli, N-formyl-Met-Leu-Phc (fMLP) and phorbol myristate acetate (PMA) were used to avoid the possible influence of lag-time from recognition to uptake of particles at the ROS production.

In case of using fMLP as a stimulus, the maximum luminescence intensity of LULL was increased hut LgCL luminescence was decreased by LLL irradiation. When PMA was used as a stimulus, the times to reach the maximum luminescence intensity of LmCL and LgCL were shortened by LLL irradiation, but there was no effect on the maximum luminescence intensity of both.

These results suggest that LLL irradiation enhances the ROS production activity of human Neutrophils by the activation of the superoxide converting system, the active clement in which is mainly myeloperoxidase. LLL irradiation enabled a more rapid activation of the superoxide production system, NADPH -oxidase. 

Mechanisms of the analgesic effect of therapeutic lasers in vivo

L Navratil (1) and I Dylevsky (2)

1: Outpatient Department of Radiobiology, Institute of Biophysics, First Medical Faculty, and 2: Department of Functional Anatomy, Second Medical Faculty and Faculty of Physical Education Charles University, Prague, Czech Republic

The analgesic effects in the course of application of therapeutic lasers to affected tissue have been described in a number of works in the literature. Although a few scientific- based reports have appeared, those on laser-induced analgesia are mainly clinical works describing the effect of the therapy which, however, do not study the mechanism of the laser action.

There are several different possible responses induced by non-invasive low level laser therapy (LLLT). The purpose of the present communication is to review the arrangement and characterization of these responses. By being aware of these effects, the laser therapist can acquire a physiological and morphological scheme making possible the appropriate choice of the site of application of LLLT, choice of the irradiation technique, and selection of appropriate doses. 

Low level laser therapy of tendinitis and myofacial pains a randomized, double-blind, controlled study

Mimmi Logdberg-Anderssont (1), Sture Mutzell (2), and Ake Hazel (3)

1: Akersberga Health Care Centre,
2: Danderyd University Hospital, Danderyd, and
3: Vaxholm Health Care Centre, Stockholm, Sweden.

The purpose of this randomised, double-blind study was to examine the effect of GaAs laser therapy for tendonitis and myofascial pain in a sample from the general population of Akersberga in the northern part of Greater Stockholm.

176 patients (of an original group of 200) completed the scheduled course of treatment. The patients were assigned randomly to either a laser group (92 patients, of whom 74 had tendonitis, completed the study) or a placebo group (84 patients, of whom 68 had tendonitis, completed the study). All 176 patients received six treatments during a period of 3-4 weeks. Their pain was estimated objectively using a pain threshold meter, and subjectively with a visual analogue scale before, at the end of, and four weeks after the end of treatment.

Laser therapy had a significant, positive effect compared with placebo measured from the first assessment to the third assessment, four weeks after the end of treatment. Laser treatment was most effective on acute tendonitis. 

LLLT using a diode laser in successful treatment of a herniated lumbar/sacral disc, with magnetic resonance imaging (MRI) assessment

Tatsuhide Abe. Abe Orthopaedic Clinic Futuoka City Fukuoka Prefecture Japan X12′ A 40- year-old woman presented at the Abe Orthopedic Clinic with a 2-year history of lower hack pain and pain in the left hip and leg diagnosed as a ruptured disc between the 5th lumbar/lst sacral vertebrae. The condition had failed to respond to conventional treatment methods including pelvic traction, nonsteroid anti-inflammatory drugs and aural block anesthetic injections.

MRI scans were made of the affected disc, showing it protruding on the left side through the aural membrane. The gallium aluminum arsenide (GaAlAs) diode laser (830 nm, 60 mW) was used in outpatient therapy and after 7 months, the patient’s condition had dramatically improved demonstrated by motility exercises. This improvement was confirmed by further MRI scans, which showed clearly the normal condition of the previously herniated L5/SI disc. 

Effect of Low-Level Laser Radiation on Some Rheological Factors in Human Blood: An in Vitro Study

Dan G. Siposan, Adalbert Lukacs. Journal of Clinical Laser Medicine & Surgery. August 1, 2000, 18(4): 185-195. doi:10.1089/10445470050144038. Dan G. Siposan Doctoral candidate Technical Military Academy, Bucharest, Romania

Adalbert Lukacs Doctoral candidate Center of Transfusion Hematology of the Army, Bucharest, Romania

Objective: The purpose of this study was to investigate the in vitro effects of low-level laser radiation (LLLR) on some rheological factors of the human blood, such as complete blood count (CBC) parameters and blood sedimentation rate (BSR). We were mainly concerned with the alterations caused by LLLR action on blood cells (erythrocytes and leukocytes) of fresh blood obtained from apparently healthy adult patients. We used low doses ranging between 0.80 Jââ?¬Â¢cm-3 and 4.40 Jââ?¬Â¢cm-3, at the very low-power densities of the laser radiation, so as not to damage the cell structure and not to alter in an undesired manner their functions.

Methods: Blood samples were taken from 22 volunteers. Where health problems existed, they were indicated for each case. The parameters mentioned above were measured before (control samples) and after irradiation. A He-Ne laser, operating in a continuous wave, as a radiation source (632.8 nm, 1 mW, mean power density incident on blood samples around 30 mW cm-2, beam spot diameter 2 mm) was used. The measurements were performed immediately after irradiation. Only the erythrocyte complex was irradiated. EDTA anticoagulant was used. Results: The measurements using a computerized hemoanalyzer type SERONO showed significant differences between control and irradiated blood samples concerning the following parameters: RBC (in 22% of cases), HGB (47.3%), HCT (84.2%), RDW (11%), PLT (5.26%), MPV (33.3%), WBC (5.26%), MONO (26.3%), and GRAN (63.15%). In the case of BSR (44%), the significant differences were noticed especially in the cases of patients suffering from some acute or chronic diseases. No significant differences were noticed in the cases of MCV, MCH, MCHC, RDW, and LYMPH.

Conclusions: This study has shown that LLLR, even though used at low doses and low power densities, produced some changes of the rheological factors of the blood, as follows: a revitalizing and regenerating effect on mitosis stimulation and a nondamaging and biostimulating effect on the cell membrane (by keeping unmodified MCV, MCH, and MCHC). In 3 cases out of 22, hemolysis (complete or partially) occurred, but we are not yet sure whether this was caused by laser exposure or by certain environmental physical factors

Blood Trauma Cold Laser Clinical Studies

The following is a summary of some of the clinical studies that were conducted using cold laser to treat blood trauma. These studies are presented here to demonstrate the wide uses of a cold lasers in the treatment of different medical conditions.

Intravascular laser irradiation of blood in treatment of traumatic abdominal organs injuries

Koshelev VN, Chalyk IuV.

Khirurgiia (Mosk). 1998;(5):40-2.

The application of intravascular laser irradiation of the blood (ILIB) in combined postoperative intensive care in 28 patients with traumatic injuries of parenchymal organs and severe intraabdominal bleeding (more than 20% CBV) contributed to substantial improvement of the results of treatment and reduction of complications rate. ILIB boosts functional activity of leucocytes, normalizes the system of hemostasis and antioxidant defense.

Laser radiation to correct disorders of blood albumin transport in severe mechanical trauma

Kravchenko-Berezhnaia NR, Moroz VV, Kozhura VL.

The paper provides evidence for that it is expedient to perform multi-stage intravascular low-intensity laser blood radiation in patients with severe mechanical trauma and massive blood loss in the early posttraumatic period. The use of laser radiation at a wavelength of 632.0 nm by inserting a disposable light guide (its end power was 1.5-2.0 mW, and the duration of a session–30 min) as part of complex therapy in this group of patients romotes the increase of plasma albumin transport ability and the general stimulation of natural detoxifixation mechanisms.

Clinical application of GaAIAs 830 NM diode laser in treatment of rheumatoid arthritis

Kanji Asada, Yasutaka Yutani, Akira Sakawa and Akira Shimazu. Department of Orthopedic Surgery, Osaka City University Medical School, Japan

The authors have been involved in the treatment of rheumatoid arthritis (RA), in particular chronic poly-arthritis and the associated pain complaints. The biggest problem facing such patients is joint contracture, leading to bony ankylosis. This in turn severely restricts the range of motion (ROM) of the RA-affected joints, thereby seriously restricting the patient’s quality of life (QOL). The authors have determined that in these cases, daily rehabilitation practice is necessary to maintain the patient’s QOL at a reasonable level.

The greatest problem in the rehabilitation practice is the severe pain associated with RA- affected joints, which inhibits restoration of mobility and improved ROM. LLLT or low reactive level laser therapy has been recognized in the literature as having been effective in pain removal and attenuation. The authors accordingly designed a clinical trial to assess the effectiveness of LLLT in RA related pain (subjective self-assessment) and ROM improvement (objective documented data).

From July 1988 to June 1990, 170 patients with a total of 411 affected joints were treated using a GaAlAs diode laser system (830 nm, 60 mW C/W). Patients mean age was 61 years, with a ratio of males: females of 1: 5.25 (16%: 84%). Effectiveness was graded under three categories: excellent (remarkable improvement), good (clearly apparent improvement), and unchanged (little or no improvement).

For pain attenuation, scores were: excellent – 59.6%; good – 30.4%; unchanged – 10%.

For ROM improvement the scores were: excellent – 12.6%; good – 43.7%; unchanged – 43.7%. This gave a total effective rating for pain attenuation of 90%, and for ROM improvement of 56.3%. 

Candida Albicans Cold Laser Clinical Studies

The following is a summary of some of the clinical studies that were conducted using cold laser to treat candida albicans. These studies are presented here to demonstrate the wide uses of a cold lasers in the treatment of different medical conditions.

Effect of low-level laser therapy on Candida albicans growth in patients with denture stomatitis.

Maver-Biscanin M, Mravak-Stipetic M, Jerolimov V. Department of Prosthodontics, Clinical Hospital Centre, Zagreb, Croatia. mirela.maver@zg.htnet.hr
PMID: 15954824 [PubMed – indexed for MEDLINE

OBJECTIVE: The purpose of our report is to present the effect of low-level laser therapy on Candida albicans growth and palatal inflammation in two patients with denture stomatitis.

BACKGROUND DATA: The most common oral mucosal disorder in denture wearers is denture stomatitis, a condition that is usually associated with the presence of the yeast Candida albicans. Different treatment methods have been suggested to treat this symptom, none of which is proven to be absolutely effective.

METHODS: Two denture-wearing patients, both with palatal inflammation diagnosed as Newton type II denture stomatitis were treated with low-power semiconductor diode laser (BTL-2000, Prague, Czech Republic) at different wavelengths (685 and 830 nm) for 5 d consecutively. In both patients, palatal mucosa and acrylic denture base were irradiated in noncontact mode (probe distance of 0.5 cm from irradiated area) with different exposure times-5 min (830 nm, 3.0 J/cm2, 60 mW) and 10 min (685 nm, 3.0 J/cm2, 30 mW). The effect of laser light on fungal growth in vivo was evaluated after the final treatment using the swab method and semiquantitative estimation of Candida albicans colonies growth on agar plates. The severity of inflammation was evaluated using clinical criteria.

RESULTS: After lowlevel laser treatment, the reduction of yeast colonies on the agar plates was observed and palatal inflammation was diminished.

CONCLUSION: LLLT is effective in the treatment of denture stomatitis. Further placebo controlled studies are in progress. 

Burn Scars Cold Laser Clinical Studies

The following is a summary of some of the clinical studies that were conducted using cold laser to treat burn scars. These studies are presented here to demonstrate the wide uses of a cold lasers in the treatment of different medical conditions.

Low Level Laser Therapy’s conservative approach to the burn scar

K . Gaida / Burns , Volume 30 , Issue 4 , Pages 362 – 367

Burn scars are known to be difficult to treat because of their tendency to worsen with hypertrophy and contracture. Various experimental and clinical efforts have been made to alleviate their effects but the problem has not been solved.

Since patients keep asking for Low Level Laser Therapy (LLLT) and believe in its effectiveness on burn scars, and since former studies show contradictory results of the influence of LLLT on wound healing, this prospective study was designed to objectify the effects of LLLT on burn scars.

Nineteen patients with 19 burn scars were treated with a 400mW 670nm Softlaser twice a week over 8 weeks. In each patient a control area was defined, that was not irradiated. Parameters assessed were the Vancouver Scar Scale (VSS) for macroscopic evaluation and the Visual Analogue Scale (VAS) for pruritus and pain. Photographical and clinical assessments were recorded in all the patients.

Seventeen out of 19 scars exhibited an improvement after treatment. The average rating on the VSS decreased from 7.10�±2.13 to 4.68�±2.05 points in the treated areas, whereas the VSS in the control areas decreased from 6.10�±2.86 to 5.88�±2.72. A correlation between scar duration and improvement through LLLT could be found. No negative effects of LLLT were reported. The present study shows that the 400mW 670nm softlaser has a positive, yet sometimes limited effect on burn scars concerning macroscopic appearance, pruritus, and pain.

Candida Albicans Cold Laser Clinical Studies

The following is a summary of some of the clinical studies that were conducted using cold laser to treat candida albicans. These studies are presented here to demonstrate the wide uses of a cold lasers in the treatment of different medical conditions.

Bronchitis Cold Laser Clinical Studies

The following is a summary of some of the clinical studies that were conducted using cold laser to treat bronchitis. These studies are presented here to demonstrate the wide uses of a cold lasers in the treatment of different medical conditions.

The use of the low-level laser therapy (LLLT) in the treatment of some pulmonary diseases (10 – years experience)

DERBENJEV V. A. (1) ; MIKHAILOV V. A. (1) ; DENISOV I. N. (2) ; Affiliation(s) du ou des auteurs / Author(s) Affiliation(s) (1) Scientific and Practical Center of Laser Medicine, Moscow, RUSSIE, FEDERATION DE (2) I. M. Setchenov Moscow Medical Academy, RUSSIAN FEDERATION

The purpose of the present study was to compare the efficacy of the treatment of some pulmonary diseases with or without LLLT. 130 patients (49 of them with acute pneumonia, 42 – with chronic bronchitis, 39 – with chronic bronchial asthma) received LLLT and drug therapy, and 30 patients received only drug therapy (control group). The obtained results on the use of LLLT show that the period of convalescence in patients with both pneumonia and exacerbation of chronic bronchitis was lower with 4 – 6 days compared with control group. 68% patients with chronic bronchitis have staunch remission more than three month. Patients with bronchial asthma reported the decreasing of both number ofbronchospasm and doses of bronchodilators and glucocorticoids after LLLT. They have no exacerbation of asthma during 3 – 6 months; then these patients need the repetition of LLLT. In conclusion, LLLT is the suitable and effective complement to the treatment of pulmonary diseases. 

Asthma Cold Laser Clinical Studies

The following is a summary of some of the clinical studies that were conducted using cold laser to treat Asthma. These studies are presented here to demonstrate the wide uses of a cold lasers in the treatment of different medical conditions.

Treatment of bronchial asthma with low-level laser in attack-free period at children

Ailioaie, C.; Ailioaie, Laura AA(Univ. of Medicine and Pharmacy)
Proc. SPIE Vol. 4166, p. 303-308, Laser Florence ’99: A Window on the Laser Medicine World, Leonardo Longo; Alfons G. Hofstetter; Mihail L. Pascu; Wilhelm R. Waidelich; Eds.
06/2000 SPIE (c) 2000 SPIE–The International Society for Optical Engineering. Downloading of the abstract is permitted for personal use only. 2000SPIE.4166..303A

Bronchial asthma is a common disease in both the pediatric and adult populations, characterized by wide variations over short periods of time in resistance to airflow in intrapulmonary airways. A primary goal in the use of low- level laser therapy (LLLT) was the safe, effective and rapid palliation of symptoms owing to tracheal or bronchial obstruction. We have investigated the effects of LLLT comparatively with other modality trials in children’s asthma. In the study were included 98 patients aged 10-18 years diagnosed with moderate or severe asthma, in attack- free period. The patients were divided into 3 groups. Group 1 received only laser therapy using extra meridian acupuncture points and scanning technique. Group 2 was treated only with inhaled Serevent 2 X 25 micrometers , two times daily, 3 months. Group 3 was tread with Theophylline retard in dosage of 15-mg/kg/12 h, 3 months. At the end of treatment we remarked a noticeable improvement of the clinical, functional and immunological characteristics at 83 percent of patients in group 1, comparatively with only 70 percent (group 2) and 53 percent (group 3). The LLLT had a very good action on bronchial patency , displayed an immunocorrecting action and is recommended in attack-free periods at children.

The following is a summary of some of the clinical studies that were conducted using cold laser to treat blood irritation. These studies are presented here to demonstrate the wide uses of a cold lasers in the treatment of different medical conditions. 

The Effects of Laser Therapy in the Early Stages of Rheumatoid Arthritis Onset

C. Ailioaie, M. D.

Medical Office for Laser Therapy, Iassy, RO
Laura Marinela Lupusoru-Ailioaie, M. D.
“Al.I.Cuza” University, Dept. of Medical Physics, Iassy, RO

1.PURPOSE:

To study the effects of laser therapy, in comparison with other modality trials (NSAIDs), at the onset of (RA).

2.SUBJECTS and METHODS:

In the study 59 patients were included, in the first 6 – 12 months from RA onset. The patients were divided into three groups: Group 1 (21 patients) received laser therapy; Group 2 (18 patients) was submitted to placebo laser therapy and NSAIDs medication; Group 3 (20 patients) was treated only with NSAIDs. Physical therapy was instituted in all three groups.

A GaAIAs diode laser (830 nm, maximum output power 200 mW) was used. During 4 months, courses of laser therapy – once daily for 8 days, monthly – were administered to Group 1 and laser placebo Group 2. The density of energy (2 – 4 J/cm2) and frequency (5 Hz or 10 Hz) were dependent on the number and severity of pain in affected joints.

3.RESULTS:

The analysis of the clinical and biological parameters at the end of treatment showed a statistical significant decrease of duration of morning stiffness of pain at rest and during movements and improved acute phase reactants. The overall efficacy rate in these studies was 86% in group 1, 50% in the placebo laser group, and 40% in group 3.

4.DISCUSSION and CONCLUSIONS:

After 4 months of treatment, our investigations showed that infra-red laser therapy was able to restore function, to relieve pain and to avoid the complications of the disease or NSAIDs therapy (digestive or renal) at RA onset,beeing the most perspective modality of treatment.

The effect of laser therapy in complex treatment of patients with rheumatoid arthritis.

Korolkova O M et al.

115 patients with rheumatoid arthritis (RA) of II-III degrees were treated with basic RA medications and infrared laser. In a control group of 20 patients only basic medication was given. 10 areas of the body were irradiated daily, increasing the dose every day during a period of 8-10 days. The effectiveness of the therapy was controlled through laboratory tests on i.a. inflammatory agents and the activity of lipid peroxidation. The results were statistically significant. The best effect was found in patients with degree II RA. Steroid medication could be reduced 8-10 days earlier in this group of patients and in some cases the medication could even be excluded. Degree III patients had a more moderate benefit of the laser treatment.

The interauricular laser therapy of rheumatoid arthritis.

Sidorov-V-D, Mamiliaeva-D-R, Gontar-E-V, Reformatskaia-SIu.Vopr-Kurortol-Fizioter-Lech-Fiz-Kult. 1999; (3): 35-43.

Investigations have proved the ability of interauricular low- intensity infrared laser therapy (0.89 nm, 7.6 J/cm) to produce anti- inflammatory,immunomodulating action in patients with rheumatoid arthritis. The method has selective, pathogenetically directed immunomodulating effect the mechanism of which is similar to that of basic antirheumatic drugs and of intravenous laser radiation of blood. This laser therapy can be used as an alternative to intravenous blood radiation being superior as a noninvasive method.Interauricular laser therapy can potentiate the effects of nonsteroid anti-inflammatory drugs, cytostatics and diminish their side effects.

CLINICAL APPLICATION OF GaAIAs 830 NM DIODE LASER IN TREATMENT OF RHEUMATOID ARTHRITIS

Kanji Asada, Yasutaka Yutani, Akira Sakawa and Akira Shimazu. DepartmentofOrthopaedic Surgery, Osaka City UniversityMedical School, Japan

The authors have been involved in the treatment of rheumatoid arthritis (RA), in particular chronic poly-arthritis and the associated pain complaints. The biggest problem facing such patients is joint contracture, leading to bony ankylosis. This in turn severely restricts the range of motion (ROM) of the RA-affected joints, thereby seriously restricting the patient’s quality of life (QOL). The authors have determined that in these cases, daily rehabilitation practice is necessary to maintain the patient’s QOL at a reasonable level. The greatest problem in the rehabilitation practice is the severe pain associated with RA-affected joints, which inhibits restoration of mobility and improved ROM. LLLT or low reactive level laser therapy has been recognized in the literature as having been effective in pain removal and attenuation. The authors accordingly designed a clinical trial to assess the effectiveness of LLLT in RA related pain (subjective self-assessment) and ROM improvement (objective documented data). From July 1988 to June 1990, 170 patients with a total of 411 affected joints were treated using a GaAlAs diode laser system (830 nm, 60 mW C/W). Patients mean age was 61 years, with a ratio of males: females of 1: 5.25 (16%: 84%). Effectiveness was graded under three categories: excellent (remarkable improvement), good (clearly apparent improvement), and unchanged (little or no improvement). For pain attenuation, scores were: excellent&emdash;59.6%; good&emdash;30.4%; unchanged&emdash;10%. For ROM improvement the scores were: excellent&emdash;12.6%; good&emdash;43.7%; unchanged&emdash;43.7%. This gave a total effective rating for pain attenuation of 90%, and for ROM improvement of 56.3%.

LASER THERAPY OF RHEUMATOID ARTHRITIS.

Goldman JA, Chiapella J, Casey H, Bass N, Graham J, McClatcheyW, Dronavalli RV, Brown R, Bennett WJ, Miller SB, Wilson CH, Pearson B, Haun C, Persinski L, Huey H, MuckerheideM

Thirty people with classical or definite rheumatoid arthritis received laser exposure to a Q- switch neodymium laser that operated at 1.06 micrometer with an output of 15 joules/cm2 for 30 nsec. One hand was lased attheproximalinterphalangeal (PIP) and metacarpal phalangeal (MCP) joints, whereas the other hand was sham lased. The patient, physician, and occupational therapy evaluators did not know which hand was being lased. Twenty- one patients noted improvement of both their MCP and PIP joints of both hands during laser therapy. Twenty-seven noted improvement of their PIP joints and 26 noted improvement of the MCP joints during therapy. Heat, erythema, pain, swelling, and tenderness all improved with time in both hands, but the lased hand had more significant improvement in erythema and pain. There was also significant improvement in grasp and tip pressure on the lased side. The level of circulating immune complexes as measured by platelet aggregation decreased during lasing. The improvement may be related to laser exposure. The exact role that laser radiation has upon rheumatoid arthritis and its mechanism of action remain.

LASER THERAPY IN RHEUMATOLOGY

Judit OrtutayM.D., Klara Barabas M.D., Ph.D., *Adam Mester MD National Institute of Rheumatology and Physiotherapy, Budapest *Semmelweis University, Faculty of Medicine, Dept. of Diagnostic Radiology and Oncotherapy, National Laser Therapy Centre, Peterfy Sandor Teaching Hospital, Budapest .

Barabas irradiated first the joints of rheumatoid arthritis (RA) patients without skin ulcer. In the first open study objectively the range of motion and circumference of the treated joints were measured, Ritchie index as semiobjective parameter, subjective parameters as joint tenderness and pain on a visual analogous scale (VAS) were registered. The walking time was registered as a functional disability parameter. Laboratory activity parameters and the 99mTechnetium index was measured. The second part of the clinical study was double blinded, Infra Red (10mWand 100 mW) lasers were used versus dummy devices with the same outlook. The third part of the study were in vitro experiments. Synovial membranes of rheumatoid arthritis patients The DNA/RNA ratio of the RA group was compared to the control group. Significant difference was detected between the two groups. The fourth phase of clinical studies was to detect the effects of laser irradiation in other rheumatic diseases: psoriatic arthritis,sacroileitis, osteoarthritis, entesopathy, tenosynovitis, bursitis calcarea, fibromyalgia, localised muscle spasm, periarthritis humeroscapularis etc. The different wavelengths (604, 630, 660, 670, 690, 750, 780, 790, 820, 830, 904, 1053, 1219 nm,) were compared (30 – 100 mW) with other physiotherapy modalities, like ultrasound. Acknowledgement: The Central Research Institute of the Hungarian Academy of Sciences and LASOTRONIC AG (Switzerland) was helping the research.

Low level laser therapy (classes I, II and III) in the treatment of rheumatoid arthritis.

Brosseau L, Welch V, Wells G, deBie R, Gam A, Harman K, Morin M, Shea B,Tugwell P. School of Rehabilitation Sciences, Faculty of Health Sciences, University of Ottawa, 451 Smyth Road, Ottawa, Ontario, Canada, K1H-8M5.

BACKGROUND: Rheumatoid arthritis (RA) affects a large proportion of the population. Low Level Laser Therapy (LLLT) was introduced as an alternative non-invasive treatment for RA about 10 years ago. LLLT is a light source that generates extremely pure light, of a single wavelength. The effect is not thermal, but rather related to photochemical reactions in the cells. The effectivenessofLLLT for rheumatoid arthritis is still controversial.

OBJECTIVES: To assess the effectiveness of LLLT in the treatment of RA.

SEARCH STRATEGY: We searched MEDLINE, EMBASE, the registries of the Cochrane Musculoskeletal group and the field of Rehabilitation and Related Therapies as well as the Cochrane Controlled Trials Register up to January 30, 2000.

SELECTION CRITERIA: Following an a priori protocol, we selected only randomized controlled trials of LLLT for the treatment of patients with a clinical diagnosis of RA were eligible. Abstracts were excluded unless further data could be obtained from the authors.

DATA COLLECTION AND ANALYSIS: Two reviewers independently select trials for inclusion, then extracted data and assessed quality using predetermined forms. Heterogeneity was tested with Cochran’s Q test. A fixed effects model was used throughout for continuous variables, except where heterogeneity existed, in which case, a random effects model was used. Results were analyzed as weighted mean differences (WMD) with 95% confidence intervals (CI), where the difference between the treated and control groups was weighted by the inverse of the variance. Standardized mean differences (SMD) were calculated by dividing the difference between treated and control by the baseline variance. SMD were used when different scales were used to measure the same concept (e.g. pain). Dichotomous outcomes were analyzed with odds ratios.

MAIN RESULTS: A total of 204 patients were included in the five placebo-controlled trials, with 112 randomized to laser therapy. Relative to a separate control group, LLLT reduced pain by 70% relative to placebo and reduced morning stiffness duration by 27.5 minutes (95%CI: 2.9 to 52 minutes) and increased tip to palm flexibility by 1.3 cm (95% CI: 0. 8 to 1.7 cm). Other outcomes such as functional assessment, range of motion and local swelling did not differ between groups. There were no significant differences between subgroups based on LLLT dosage, wavelength, site of application or treatment length. For RA, relative to a control group using the opposite hand, there was no difference between the control and treatment hand, but all hands improved in terms of pain relief and disease activity.

REVIEWER’S CONCLUSIONS: In summary, LLLT for RA is beneficial as a minimum of a four- week treatment with reductions in pain and morning stiffness. On the one hand, this meta- analysis found that pooled data gave some evidence of a clinical effect, but the outcomes were in conflict, and it must therefore be concluded that firm documentation of the application of LLLT in RA is not possible. Clinicians and researchers should consistently report the characteristics of the LLLT device and the application techniques used. New trials on LLLT should make use of standardized, validated outcomes. Despite some positive findings, this meta-analysis lacked data on how LLLT effectiveness is affected by four important factors: wavelength, treatment duration of LLLT, dosage and site of application over nerves instead of joints.

THE EFFECTIVENESS OF LASER THERAPY IN COMPLEX TREATMENT OF PATIENTS WITH RHEUMATOID ARTHRITIS

O.M. Korolkova, V.T. Burlachuk, O.V. Gordienko, E.A. Afanasevskaya Voronezh State Medical Academy, Voronezh Regional Hospital, Voronezh, Russia

The purpose of this research is to evaluate the effectiveness of laser therapy among patients with different extents of rheumatoid arthritis (RA) disease. There has been a study of 115 patients with RA activity II-III (the main group) who apart from the basic therapy also received laser treatment.
The apparatus ALT “Mustang” with the power of 2-10 W and infrared wave range has been used. The laser influence has been aimed at the area of a damaged joint. The duration of laser influence is from 5 to 17 minutes, adding 1-2 minutes daily. The number of fields is 10, the number of treatment procedures -8-10, The control group consists of 20 patients with RA (basic therapy only).

The control of effectiveness of the therapy was based on the complex laboratory data, including definition of non-specific factors of inflammation and the factors of activity of lipid peroxidation.
The greatest effect of the therapy has been achieved in the main group of patients with activity II. In comparison with the control group we managed to receive improve-ment 8- 10 days earlier which allowed us to reduce the demand of steroids and in case of 20 patients even cancel taking them. We received statistically reliable fall of the activity of inflammation andlipidperoxidation. More moderate effect of the therapy was reached treating patients from the main group with activity III.

THE USE OF SUPRAVASCULAR BLOOD RADIATION WITH INFRARED LASER FOR TREATMENT OF SECONDARY VASCULITIS IN PATIENTS WITH RHEUMATOID ARTHRITIS

Y.L. Grinstein, S.V. Ivlev Medical Academy. Krasnoyarsk, Russia

The purpose of this work was to study the opportunity of the use ofsupravascular blood radiation with infrared laser (IR-laser) for the treatment of secondaryvasculitis in patients with rheumatoid arthritis (RA). The investigation included 12 patients with RA and secondary vasculitis signs. They received a course ofsupravascular blood radiation with IR-Iaser (wavelength 820-850 nm, 7-10 procedures). Control group consisted of 8 patients. Placebo laser therapy (LT) was administered to 7 patients. Such characteristics as hemostasis properties, a state of microcirculation in bulbar conjunctiva vessels were studied in all patients before and after treatment. It was revealed significant decrease of both XIIa-depended fibrinolysis and Willibrand’s factor level. The improvement of blood rheological properties was confirmed by a decrease of erythrocyte aggregation and improvement of its deformability.

Bulbarconjunctivalmicroscopia revealed significant diminution of intravascular change index, significant increase of arteriola-venula ratio. The improvement of nephritis manifestations (significant decrease of proteinuria level). The changesofhemostasis parameters microcirculation system were not significant in patients receiving both placebo LT and conventional therapy. Conclusions: 1) It was revealed significant diminution of endothelium lesion andXIla-dependedfibrinolysis restoration after IR-laser therapy in patients with RA and secondaryvasculitis. 2) Both microcirculation state in bulbar conjunctiva vessels and blood rheological properties significantly improve after IR-laser therapy. It is confirmed by a significant improvement of erythrocytedeformability and a decrease of its aggregation. 3) IR-laser therapy leads to urinary syndrome regression.

DIAGNOSTIC SIGNIFICANCE OF THE IMMUNITY INDICES INVESTIGATION IN THE USE OF LASER THERAPY IN PATIENTS WITH RHEUMATOID ARTHRITIS AND THE DISEASE COURSE PROGNOSIS

A.V. Nikitin, V.D. Khvan, E.F. Yevstratova Medical Academy, Voronezh, Russia

The results of the examination of the patients with rheumatoid arthritis (RA) have shown the systemic lesion of all the links of the immune system. Many-sided positive in-fluence of low energy laser irradiation on the impairment of immune homeostasis has been shown. The aim of the investigation was to study the possibility of the low energy laser irradiation use in patients with RA depending on some immunity indices and the disease course prognosis.

60 patients with RA at the age of more than 16 years old hav-ing inflammatory process activity of the I-II degrees according to the RA criteria of the American Rheumatological Association classification have been examined. 30 patients of the control group underwent the conventional treatment with non-steroid antiinflammatory drugs, basic treatment with delagil and physiotherapy. 30 patients of the main group underwent the conventional treatment and laser therapy on the joints by the infra-red laser installation “UZOR” with the wavelength of 0,89 um, the output power of 2 mW in combination with the above-vein blood irradiation by the helium-neon laser installation “ALOK-1” with the output power of 0,6 mW. The treatment was carried out daily during 15 days.

The immunity indices analysis before and after the treatment in both groups has established their obvious improvement in patients treated by laser irradiation: T- lympocytes (CD3 (p < 0.05), immunoglobulins ? (p < 0.05), T-helpers inductors (CD4+) (p < 0.05). The positive dynamics of the immunity indices in the studied group cor-related with the clinical improvement of the patients condition and depended on the marked immunity indices changes before the treatment, such as T-lymphocytes (CD3), Thelpers inductors (CD4+), immunoglobulins C. The marked positive dynamics of the abo- vementioned indices were not observed in the control group. 

Arthritis-Rheumatoid Cold Laser Clinical Studies

The following is a summary of some of the clinical studies that were conducted using a cold laser to treat Arthritis-Rheumatoid. These studies are presented here to demonstrate the wide uses of cold lasers in the treatment of different medical conditions.

50 year old female patient diagnosed as having Class 3 RA inflammatory phase of steady development. Probes used in treatments were 820nm (50mW) and 31 cluster probe with the 820nm probe being administered on each interphalangeal joint (30 seconds per point) followed by the cluster (one minute) over the whole hand. The pulsing frequency was 20 Hz and administration of treatment three times per week. The total number of treatments was 12 over a one month period.

You can see the improvement in the treatment of the condition and the third picture shows the progress at 13 treatments. After 6 months follow up it was found the initial inflammation was beginning to creep back, but the overall condition was much improved in comparison with the original status of the patient with no LLLT treatment.

Beneficial Effects of Laser Therapy in the Early Stages of Rheumatoid Arthritis Onset

Contantin Ailioaie1, Laura Marinela Lupusoru-Ailioaie2 1Medical Office for Laser Therapy, 1 Bistrita, B10-2, 6600-Iassy, Romania, 2AI.I. Cuza University, Dept. of Medical Physics, Iassy, Romania
LLLT Original Articles, Laser therapy Volume. 11-2, pg.79

The purpose of this study was to determine the effects of laser therapy in pain reduction and/or recovery of patients at the onset of Rheumatoid Arthritis (RA), compared with the traditional non-steroidal anti-inflammatory drugs (NSAIDs). Fifty-nine patients with RA of 6-12 months duration were included in the study. The patients were divided into 3 groups: Group 1 (21 patients) received laser therapy; Group 2 (18 patients) was submitted to placebo laser therapy and NSAIDs medication; Group 3 (20 patients) was treated only with NSAIDs. Physical therapy was instituted in all three groups. GaAIAs diode laser of 830 nm wavelength and 200mW maximum output power was used. Group 1 received laser therapy once each day, eight days per month, for a total of 32 treatments during a four-month period. The parameters used were 2-4 J/cm2 energy density, and a frequency of 5 Hz or 10 Hz depending on the number and severity of pain in the affected joints. Placebo laser treatment was given to group 2. the functional activity score, the acute pain phase reactants (ESR and C-reactive protein), T-lymphocytes and NK (natural killer) â?? cells were estimated. Synovial biopsies and Magnetic Resonance Imaging (MRI) of the synovial membrane were performed as well. The analysis of the clinical and biological parameters at the end of treatment showed a statistically significant decrease of duration of morning stiffness, of pain at rest and during movements, and improved acute phase reactants.

The overall efficacy rate in these studies was 86% in the first group, 50% in the laser placebo group and 40% in the NSAIDs-treated third group. After four months of treatment, our investigations showed that 830 nm infrared laser therapy promoted the restoration of function, relieving pain and limited the complications of RA.

Arthritis-Cervical Cold Laser Clinical Studies

The following is a summary of some of the clinical studies that were conducted using cold laser to treat Arthritis-Cervical. These studies are presented here to demonstrate the wide uses of a cold lasers in the treatment of different medical conditions.

The clinical efficacy of low-power laser therapy (lllt) on pain and function in cervical osteoarthritis.

Ozdemir F, Birtane M, Kokino S. Department of Physical Therapy and Rehabilitation, Medical Faculty of Trakya University, Edirne, Turkey.
Clin Rheumatol 2001;20(3):181-4

Pain is a major symptom in cervical osteoarthritis (COA). Low-power laser (LLLT) therapy has been claimed to reduce pain in musculoskeletal pathologies, but there have been concerns about this point. The aim of this study was to evaluate the analgesic efficacy of LPL therapy and related functional changes in COA. Sixty patients between 20 and 65 years of age with clinically and radiologically diagnosed COA were included in the study. They were randomised into two equal groups according to the therapies applied, either with LPL or placebo laser. Patients in each group were investigated blindly in terms of pain and pain-related physical findings, such as increased paravertebral muscle spasm, loss of lordosis and range of neck motion restriction before and after therapy. Functional improvements were also evaluated. Pain, paravertebral muscle spasm, lordosis angle, the range of neck motion and function were observed to improve significantly in the LPL group, but no improvement was found in the placebo group. LPL seems to be successful in relieving pain and improving function in osteoarthritic diseases.

Arteriosclerosis Cold Laser Clinical Studies

The following is a summary of some of the clinical studies that were conducted using cold laser to treat Arteriosclerosis. These studies are presented here to demonstrate the wide uses of a cold lasers in the treatment of different medical conditions.

Low Level Laser Therapy in the Treatment of Arteriosclerosis of the Lower Limbs

Attia M.A., EI-Kashef H. Laser center, Alhikmah Hospital, EI-Mansoura, Egypt Physics Department, Faculty of Science, Tanta Egypt

Abstract: Twenty patients with arteriosclerosis in the lower limbs were treated by low level laser therapy with lumbar paravertebral application a 20mW continuous wave He-Ne laser(632nm> and simultaneously a 250mW continuous diode laser (830 nm> was applied transcutaneously to the lumbar region by the scanner for 30 minutes 6 days per week for 2 months. The mean value of percentage of success was 87.2%. The results of the study indicate that low level laser therapy can influence beneficially arteriosclerosis in the lower limbs which is generally difficult to treat.

Introduction: Arteriosclerosis is a chronic obliterative disease affecting the lower portion of the aorta, its main branches and the arteries supplying the extremities. The condition occurs predominantly in patients between the ages of 45 and 70 years. It is present much more frequently in males than in females. It may be caused by an error in the metabolism of lipids (Oliver, 1955). Buck (1959) believed that the abnormal vascularization of the arterial wall has also been proposed as a significant factor in the development of the disease. Also, the Question of heredity as a factor in the pathogenesis of the disease must be raised (McKusick, 1958). The patient complains of pain in the extremities typical of intermittent calculation and difficulty in walking, finally rest pain is experienced particularly at night, characterized by a sensation of coldness or burning, hyperesthesia and tingling (Abramson, 1974). The purpose of the study was to evaluate the efficacy of low power laser in the treatment of arteriosclerosis. Materials and methods Twenty patients with arteriosclerosis of the lower limbs from the out-patient clinic of the General medicine Department of both Tanta University Hospital and Alhikmah Hospital, Mansoura were included in the study. The male to female ratio was 4:1. The ages ranged from 45 to 69 years. The duration of symptoms ranged from one to 8 months (table 1). The patients were experiencing pain in both calf muscles after walking distances (claudication distance) ranging from 200 to 500 meters. Three patients experienced rest pain at night. Clinical examinations revealed palpable walls of superficial arteries, particularly the dorsalis pedis. In the study, the claudication distance was determined for every patient in meters prior to treatment. Control normal individuals within the patients’ age group walked an average of 1500 meters without experiencing calf pain.

Results: Pain was relieved in 16 patients who received 3 to 7 courses of treatment. Eight patients were able to walk 1500 meters without experiencing any pain in the calf muscles, hence their rate of success was 100%. The remaining patients showed improvement from 73% to 95 (table 2). Three patients discontinued treatment for reasons not related to the treatment. One patient, age 69, with 4 months duration and claudication distance of 240 meters showed no improvement after receiving 7 courses of treatment. The mean rate of success was 87.2%.

Discussion: It was not easy to discuss the treatment of arteriosclerosis and only in the last 20 years have advancements been made. Although physical therapy is only part of the total management of arteriosclerosis of the lower limbs, it could play an important role in the management. No references were found in literature concentrating the use of low level laser therapy in the management of arteriosclerosis. This work has shown that low level laser therapy is capable of increasing the circulation in muscles and, with prolonged treatment, a considerable significant improvement in circulation can be achieved in cases of arteriosclerosis. Low level laser therapy not only influences the superficial circulation but also deep circulation. The mechanism of this action is probably due to the sympathetic effect, but it could also be used on the action of normal skin excitation. It can be assumed that apart from the increase in the pain threshold (Nikolova, 1968) and muscular excitation threshold, there is also an increase in the threshold for sympathicus stimulation (Pabst, 1960). By this paravertebral application, we must concede more importance to the sympathicus action, than to the direct action on the vasometer assumed by some authors (Monode, 1951; Zinn, 1956). The results obtained in the treatment of arteriosclerosis by means of low level laser therapy are certainly based on a number of different effects. First, there is sympathetic action. Also, the analgesic action of this type of current deserves special attention, since it is the cause of the subjective improvement which frequently precedes the objective improvement in cases of sever arteriosclerosis when pain is felt while resting. Also, rest pain did not mean the presence of irreversible pathologic change as the three patients with rest pain showed a good degree of improvement. The patient who showed no improvement after 7 courses of treatment may have an irreversible pathologic change and, this age of 69 years may have also contributed to the failure of treatment.

Conclusion: Low level laser therapy may be considered in the treatment of peripheral arteriosclerosis. 

Application of laser acupuncture in the treatment of periarthritis humeroscapularis

Branka Nikolic,. spec. Sport’s med. Address Zavod za zdravstvenu zastitu radnika ZTP-a “Beograd“, 11000 BeogradSlobodana Penezica Dr. 23 Yugoslavia

The effect of low intensity semi conductor laser was used as treatment methods for periarthritis humeroscapularis. The CC laser (Computer Controlled laser) was applied. Laser therapy has positive biological effects and antiinflamatory, antioedema effects and analgesia. We treated 18 patients with periarthritis humeroscapularis, 14 were female patients.

The laser was locally applied at the AC points Sj 14, Sj 15, Li 15, Li 10, Sj 5, Si 3, three times a week for the first week and twice a week for the second and the third week. After first treatment 12 of patients had pain – alleviating effect. After 6-7 treatments all had pain – alleviating effect and complete recovery of shoulder’s motor activity. Low intensity therapy has its place for treatment of periarthritis humeroscapularis.

Treatment of the acute Periarthritis humeroscapular with laserpuncture.

Odalys Gonzales Ãlvarez, Main Educational Clinic of Urgencies “Antonio Maceo”, Cerro Municipality, Havana City.

The periarthritis humeroscapular is a syndrome that contains very precise affections: the bursitis, the calcified tendinitis of supraespinoso, the bicipital tendinitis, among others. Pain and limitation of the joint movements of the shoulder characterize it. The treatment with laser of low power can produce resolution of the lesion, whenever it is made in early phases of the disease. In this study we propose the use of the laserpuncture, due to our accumulated experience in the treatment of these affection in acute phase, with acupuncture. A prospective study was carried out during 2 years (1997 – 1999), where 62 patients were selected because they accomplished the Approaches of Inclusion for the study. The sample was divided by aleatory assignment in 2 Groups of Treatment. Th study Group I was treated with laserpuncture, using Cuban laser equipment of HeNe of 632,8 nm and a dose of joule/cm2 was applied, and the Control Group II was treated with acupuncture needles. The conventional medical treatment was suspended. Daily sessions were given from Monday to Friday, for two weeks, until a total of 10. Both techniques demonstrated to be effective in the treatment of these affections, improving the clinical and radiological symptoms significantly when the treatment sessions was concluded. The patients accepted the laserpuncture better because of its painless character, less time of application, and the absence of bleeding and stress. 

Alzheimer’s Cold Laser Clinical Studies

The following is a summary of some of the clinical studies that were conducted using a cold laser to treat Alzheimer’s Syndrome. These studies are presented here to demonstrate the wide uses of a cold laser in the treatment of different medical conditions.

The Efficacy of 904 nm Laser Therapy for Alzheimer’s Diseases

Kazuyoshi Zenba, Vice president of Kanagawa Acupuncture Massage Association Prof. Masayuki Inoue, Secretary of JLPLTPA

Preface: Although we had reported about the possible efficacy of low power laser therapy (LPLT) for Senile Dementia(S D) 3 times from 1993 at the annual meetings of Japan Society for Laser Medicine, there was no practically useful treatment found for Alzheimer’s disease(AD) and Parkinson disease and other Senile Dementia even after the start of elderly-care-insurance system in Japan. As we have continued above said laser therapy for SD at home care visit of elderly persons and felt very useful and effective, we would like to report about recent situation of laser therapy for AD patients.

Especially recently, the number of Alzheimer’s disease patients is increasing by the arrival of super-aged world in Japan. However the cause of this disease is not known and there is no effective treatment established at present. As to the mechanism of LPLT, its main mechanism is mostly elucidated by the progress in the field of Molecular biology and widely used for the removal of pain, decrease of swelling and treatment of wound. However its application for the treatment of Brain diseases is hardly practiced.

We have continued the treatment of Senile Dementia patients by LPL considering it as to be one of practical and effective treatment of this disease LPLT is very useful for the medical treatment of the senile dementia patients at home for the expansion of ADL, pain relief, mitigation of inflammation, prevention of bedsore, the treatment of hemiplegia in a brain blood vessel obstacle and the braking of aggravation of Alzheimer’s disease without any fear of side effects by the irradiation of LPL to the head of patients. It will be not to exaggerate to say LPLT can be one of the main treatments of senior patients at home in the near future.

Object of study: To study the practical usefulness of LPLT for the treatment of Alzheimer’s disease patients at home in terms of improvement of ADL and QOL and also for the reduction of the burden of families of the care of patients.

Method of treatment: 15 Alzheimers disease patients, 5 male, and 10 female received irradiation of LPL for 2 minutes at each point, 2-3 times a week for one year. Laser irradiation points were as follows. Acupuncture points established as effective based on a long history of Oriental medicine. (1) Acupuncture point to improve blood circulation (2) Acupuncture point for the treatment of stroke (3) Acupuncture point for adjustment of blood pressure (4) Acupuncture point for adjustment of balance of autonomous nerve.( the forehead, the right and left temple, occiput).

In addition, the method (based on papers in Russia and Armenia that intravenous LPL irradiation improved the viscosity of blood) of irradiating LPL to the place which touches the pulse of an artery under collarbone was used as an additional medical treatment point.

LPL instrument: LTU-904H made by RianCorp Pty Ltd in Australia. Laser Type: Gallium Arsenide Laser diode (Ga-As)
Laser Wavelength: 904nm
Peak Power: 5W

Purse frequency: Low 2500 Hz, High 5000Hz Purse duration: 200 nanoseconds
Average power: Low 2.5mW, High 5mW

The evaluation method: Since the improvement and maintenance of Alzheimer patients in the care at home was the major subject of this study, the impression by care workers about the situation of patients was recorded as data of patients. Evaluation items were orientation, conversation capability, cooperativeness, the lack of composure, social role and activity, clothes and dress and leisure activities. Completely no change was O point, slight effective was 1 point and clearly effective was evaluated as 2 points. Summed up values were used for the judgment of the efficacy of LPL treatment for each patient and total evaluation of the usefulness of LPL therapy for Alzheimer’s disease.

Result: Among evaluation items, cooperativeness and the lack of composure were observed as useful as an effect, the effect appeared half a year after and continued after one year and later on.

It was suggested that LPLT was useful for the improvement of orientation disturbance, normalization of clothing and the dress. Because, many families and the care workers talked us LPL was very helpful since the present condition could be maintained, without getting worse.

After the start of LPL treatment, It was reported that the coldness of the hands and legs of patients vanished and joints and muscular stiffness were also mitigated. Therefore, the joint movable region was also secured comparatively. Also in excretion care, it became very easy to carry out the care of patients. It was able to say about all patients that their expression became quiet and came to show understanding to directions of a care worker. It is suggested by this that LPLT as one of practical treatment of patients at home by the improvement of care power at home.

Discussion: Since the senile-dementia-of-Alzheimer-type has a feature of advance of condition and it was said that condition became gradually critical, we tried this treatment expecting the maintenance of condition, and examination whether there was any delay effect. It is considered to have been suggested at least there was an effect of maintaining present condition in a certain field.

About the effect over the brain of laser irradiation, it was reported at the annual meeting of Japan Society for Laser Surgery and Medicine meeting in 1991 by Jun-Ichi Nishimura et al., of Department of Physiology, Yokohama City University School of Medicine. The 780 nm wavelength and 1mW laser irradiation to the inner core of rats made the increase of cerebral blood flows at hippocampus by the amount of about 20% in average (control:15, laser:15). Although after 30 minute it was confirmed having maintained the increase of 10%. In 1992 at the same medical conference, Takayuki Obata et. al., of the same Universityreported that laser irradiation of 780nm wavelength10mW to the head surface of rats activated cranial nerves activities (control:16, laser:15).

These reports suggested the possible use of LPL treatment to Senile Dementia and other brain disease patients. Unfortunately, these findings did not much attention to medical world In Japan. However, recently a possibility that ATP and cell-membrane potential of brain neuron could be controlled specifically by the irradiation of near-infrared lasers (830nm wavelength) on the surface of heads of rats was reported by Oda- Mochizuki etc.al.Ã?Ritsumeikan University, Synchrotron Light-Life Science Center. It was suggested by this research center that the condition of Epilepsy could be stabilized by Irradiating infrared laser from outside of heads of patients and decreasing the unusual excitement of cerebral neurons and in case of cerebral infarction, the aggravation of progress of Necrosis and Apoptosis of cerebral neurons could be stopped by making stabilize the electric potential of cell membrane of cerebral neurons.

Development of future research in this field is expected as what supports scientifically the medical treatment of LPL and the result of condition improvements, such as Senile Dementia, brain blood vessel obstacles, hemiplegia and Parkinson patients. Although the

wavelength of LPL used for Examination of the validity of LPL to Senile Dementia Patients” which we announced at the annual meetings of Japan Society for Laser Surgery and Medicine meeting over three years from 1993, was 780nm and out put was10mW, and 1mw. The LPL used for this examination was of the wavelength of 904nm and the peak value of a pulse was 5W and the average output was 5mW. However, the same medical treatment effect was confirmed. Although it is thought that there was no wavelength dependability of laser to the efficacy over the Alzheimer’s diseases of LPL(780,830,904nm lasers are equally effective for pain removal and wound healing), how is it sure enough? A question remains.

By this examination, at least the following effects were confirmed. Namely (1) the advance of condition of Alzheimer’s diseases has been blocked (2) and the expression of patients changed to smiling from disinterestedness, cooperativeness came out, an understanding came to be shown to a partner (3) We received comments from many families that the care of patients became much easier than before. It is considered that the head irradiation of near-infrared laser light makes the cerebral blood flow improve, activates nerve activities and has applied brakes to the advance of the apoptosis of brain cells as animal experiments are proving. Since the medical treatment efficacy is seldom acknowledged to middle degree class and a serious patient, although it is hard to call it the fundamental cure for Alzheimer’s disease by the present method, if medical a treatment is started in early-stage and continued, it may be possible to call it one of practical cures which can stop subsequent advance of disease.

Based on this experience, collecting the newest information overseas, research results in the biology field, we will continue to study the possible LPL method for the dramatic cure of Alzheimer’s diseases by changing the wavelength of the laser, the output, and the irradiation method and also combination with other therapies. 

Alcoholism Laser Clinical Studies

The following is a summary of some of the clinical studies that were conducted using cold laser to treat Alcoholism. These studies are presented here to demonstrate the wide uses of cold lasers in the treatment of different medical conditions.

Acupuncture for alcohol withdrawal: a randomized controlled trial

1 Psychiatric Hospital,
2 Department of Complementary Medicine (KIKOM), Inselspital, University of Berne, 3010 Berne, 3 Department of Social and Community Psychiatry, University of Berne, Laupenstrasse 49, 3010 Berne, Switzerland,

4 MRC Health Services Research Collaboration, Department of Social Medicine, University of Bristol, Bristol, UK and
5 Department of Social and Preventive Medicine, University of Berne, Finkenhubelweg 11, 3012 Berne, Switzerland
Received 1 February 2002; in revised form 11 March 2003; accepted 27 March 2003

Background and Aims: Previous trials on acupuncture in alcohol addiction were in outpatients and focused on relapse prevention. Rates of dropout were high and interpretation of results difficult. We compared auricular laser and needle acupuncture with sham laser stimulation in reducing the duration of alcohol withdrawal.

Methods: Inpatients undergoing alcohol withdrawal were randomly allocated to laser acupuncture (n = 17), needle acupuncture (n = 15) or sham laser stimulation (n = 16). Attempts were made to blind patients, therapists and outcome assessors, but this was not feasible for needle acupuncture. The duration of withdrawal symptoms (as assessed using a nurse-rated scale) was the primary outcome; the duration of sedative prescription was the secondary outcome. Results: Patients randomized to laser and sham laser had identical withdrawal symptom durations (median 4 days). Patients randomized to needle stimulation had a shorter duration of withdrawal symptoms (median 3 days; P = 0.019 versus sham intervention), and tended to have a shorter duration of sedative use, but these differences diminished after adjustment for baseline differences.

Conclusions: The data from this pilot trial do not suggest a relevant benefit of auricular laser acupuncture for alcohol withdrawal. A larger trial including adequate sham interventions is needed, however, to reliably determine the effectiveness of any type of auricular acupuncture in this condition. 

Acute Respiratory Distress Disorder Cold Laser Clinical Studies

The following is a summary of some of the clinical studies that were conducted using cold laser to treat Acute Respiratory Distress Disorder. These studies are presented here to demonstrate the wide uses of cold lasers in the treatment of different medical conditions.

Acute Respiratory Distress Syndrome Successfully Treated with Low-Level Laser Therapy

Chan Gunn, Institute for the Study and Treatment of Pain

Abstract Acute respiratory distress syndrome (ARDS) is a medical emergency, which may be precipitated by an acute injury to the lung. The injury can also follow direct chest trauma from aspiration of gastric contents or inhalation of toxic gasses. ARDS is not itself a specific disease but a syndrome – a group of symptoms and signs that make up one of the most important forms of respiratory failure. ARDS is devastating because it can develop quite suddenly in persons whose lungs had been perfectly normal – it kills at least 60% of its victims. The fundamental problem is the sudden appearance of large amounts of fluid in the lung preventing blood from entering the alveoli and decreasing oxygen extraction resulting in hypoxemia.

The tragic feature of ARDS is that it drowns its victim. The appearance of fluid in the lungs – a lethal situation – is from neuro-inflammation.

Important to keep in mind when treating ARDS are: a) Inflammation and Inflammatory exudates Gap Formation, b) Interstitial and Alveolar Inflammation, c) Inflammation and the Nervous System, d) Cholinergic anti-inflammatory pathway. Neuro-inflammation can be relieved by stimulation of the vagus nerve. Low-level laser therapy, a simple modality with few undesirable side effects, is used to relieve respiratory distress. 

Laser Therapy and Musculoskeletal Pain Syndromes (Chronic and Acute)

Musculoskeletal Pain Syndromes (Chronic and Acute)

Low-Level Light Therapy (LLLT) has been shown to be effective in a variety of musculoskeletal conditions and associated pain presentations.

In Rheumatoid Arthritis, LLLT can benefit not only the pain of acute small joint inflammation but also chronic pain. In a review article on rheumatology (3), some 18 papers were considered. All studies involved double-blind trials with LLLT in chronic rheumatoid and reported significant improvement in pain (80% success rate in relieving pain). Upon comparing LLLT to a similar rate of pain attenuation using anti-inflammatory drugs (NSAIDs), the LLLT was free of any side-effects while 20% of patients treated with NSAIDs suffered unacceptable side-effects of medication. In another study of 170 patients with rheumatoid arthritis using LLLT (4), pain attenuation of up to 90% was noted.

Trellis et al (6) used LLLT for osteoarthritis of the knee in 40 patients. He reported a significant reduction of 82% of the patients with improved joint mobility. Among 36 randomized patients, with pain caused by cervical osteoarthritis, those who received Infra-Red and Low-Level Laser treatment improved 75% compared with the group receiving mock treatment (31%). Similarly, a study of 60 patients with Cervical Osteoarthritis, Low Pulsed Laser was successful in relieving pain and in improving function.

The results of a study show that cervical myofascial pain is significantly improved at 3-month with Diode laser. A similar successful LLLT treatment has been described for whiplash injuries.

In a randomized study with 30 patients with supraspinatus or bicipital tendonitis, the results demonstrated the effectiveness of laser therapy in tendonitis of the shoulder. Another study with a patient population (n = 324), with either medial epicondylitis (Golfer’s elbow; n = 50) or lateral epicondylitis (Tennis elbow; n = 274), and randomly allocated, provides further evidence of the efficacy of LLLT in the management of lateral and medial epicondylitis.

Treatment with low-level laser therapy (LLLT) was shown effective in treating Carpal Tunnel Syndrome pain. Another study, significant decreases in McGill Pain Questionnaire scores, median nerve sensory latency, and Phalen and Tinel signs were observed after treatment series with Low-Level Laser Therapy. Patients could perform their previous work (computer typist, handyman) and be stable for 1 to 3 years.

In acute trauma, there is a soft tissue injury comprising swelling, hematoma, pain and reduced mobility. Sporting injuries and domestic accidents usually involve damage to muscles, joint ligaments, and tenclass. In the absence of bone fracture or other injury demanding priority treatment, LLLT should be instituted at the earliest opportunity. Kumar reported a comparative study in 50 patients with inversion injuries of the ankle. He found that compared to conventional physiotherapy, the LLLT treated patients showed a more rapid resolution of symptoms and an earlier return to full weight-bearing. 

Fibromyalgia (FM) is characterized by widespread pain in the body, associated with particular tender points. It is often accompanied by disturbed sleep patterns, fatigue, headaches, irritable bowel, and bladder syndrome, morning stiffness, anxiety, and depression. FM can cause a high level of functional disability and have a significantly negative effect on the quality of life. One study suggests that “Laser Therapy is effective on pain, muscle spasm, morning stiffness, fatigue, depression and total tender point number in Fibromyalgia”.

A randomized controlled study with 63 with non-radiating low back pain showed that LLLT significantly improved pain and function.

In summary, the bulk of published work to date supports the use of LLLT for the treatment of a variety of musculoskeletal conditions and associated pain. Moreover, the LLLT proved to be not only more effective than conventional methods but more economical as well. The added advantage of the absence of side effects, non-invasive nature of therapy and the ease of application ensure good patient acceptance of the treatment modality.

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REMY Class 4 Laser Details

Why Buy from Class4Lasers.com?

• We’ve got your back – as a dedicated laser pro shop since 2003, serving many thousands of satisfied customers is our passion. We will go out of our way to ensure that you receive fast, friendly and professional service, training and support now and ongoing.
• Guaranteed Best Price – We always offer the lowest manufacturer-authorized prices and if you find it for less (within 30 days), we will meet or beat it. We ensure exceptional value with low prices, free shipping, training, certification, high quality products & ongoing support.
• The REMY SPORT and REMY ELITE Lasers are 510k FDA Cleared for the widest range of therapeutic applications of all the class iv therapy lasers on the market, they are also granted CE Mark for distribution and use in Europe and the UK.
• We offer the lowest price per Watt of all Premium FDA Cleared Class IV Lasers on the market without compromising the quality, features, longevity, or performance of the product. This ensures satisfaction with higher power, performance, resulting in faster ROI.
• We provide up to a 5-Year Manufacturer Warranty to make sure each laser really lasts.
• We have a Florida-based service center – to support fast and reliable service if ever needed, with all parts and technician for fast turn around. If determined a longer repair will be needed (unlikely), we will rush you out a loaner laser.
• We are factory-authorized distributors – which means you can rest assured that you are buying an authentic product from a reputable dealer at the lowest factory direct pricing.
 We provide a marketing tool kit to support the success of your class 4 laser business and the building of clients to accelerate ROI. This includes beautiful color digital templates of trifold brochures, post cards and posters customized with your logo and contact info.
• We provide a deluxe custom case – a foam lined, shockproof, waterproof, carrying case, 3 protective glasses and “Laser in Use” sign.
• Discover Lasers LLC is an A+ BBB Accredited Company since 2008 with many 5 Star reviews. Your satisfaction is our goal and commitment, and we back that up with a *30 Day Money Back Satisfaction Guarantee.
• We have a dedicated toll-free number for concierge service and support with a laser specialist: Call Toll Free: 1-800-575-7963

The REMY Lasers come in the Classic SPORT/PT/VET/POD Models and the FX ELITE Models:
The Classic SPORT/VET delivers power up to 30W CW in the most proven optimal wavelengths for successful treatments with options of single wave length, dual (2) or quad (4). The most revered primary wavelengths for class IV lasers are either 810nm or 980nm, which are available individually in the 9 or 10 Watt single wave models. The 2 wave (dual) is available as a 30 Watt (15 Watts each wavelength) or 4 wave (QUAD), which is NOW available as a 30.2 (formerly 27.2) Watt System. Current independent research reveals that the 810nm is the best wavelength for deep penetration, musculoskeletal applications and hard tissue issues, supporting deep photobiomodulation (PBM). It can deliver great results for almost all applications where photobiomodulation is the primary goal. In the research, they found that 810nm provides up to 30 times the penetration of 980nm because it is not absorbed by the hemoglobin, which is why it helps to support regeneration and rehabilitation more effectively. Whereas the 980nm is popular for rapid pain relief plus reduction of inflammation, and is thus used in most larger pain clinics, and by most Class IV lasers since the beginning, which is why we offer it in our dual and quad wavelength versions. 

The REMY FX ELITE Models utilize the 810nm and 980nm wavelengths, PLUS the 1064nm wavelength, which is the longest useful wavelength of the “biological window”. It is scientifically proven to reach deeper levels of skin and tissues to stimulate production of collagen in the joints and spine. While some lasers are less efficient with certain skin types, the 1064nm wavelength is beneficial for use on all skin types. It delivers the longest and deepest penetration through the layers, with less dispersion in biological tissue, delivering extra pain melting power, all with minimal increase in heat output, for increased speed and efficient healing. It is also reported to improve human brain performance on cognitive tasks as well as to locally upregulate cerebral oxygen metabolism and hemodynamics. At 1064nm, this light wavelength penetrates into deeper tissue than either 810nm or 980nm wavelengths. This means the laser light activates metabolic processes in tissues unreachable by other light wavelengths.

The REMY Dual, REMY QUAD & REMY FX ELITE  offer multiple wavelengths within the “biological window” in different configurations. They include different combinations of the following wavelengths: 1064nm, 980nm, 905nm, 810nm, 635nm, or 650nm. The  secondary wavelengths are independently controlled just like with most high-end multi-wavelength systems. As a secondary or tertiary wavelength, these options add flexibility for muscle relaxation (at 980nm) and increased circulation and faster pain reduction (at 980nm), faster treatment, deepest penetration and support for the body and brain, with cooler temperature (at 1064), improved soft tissue treatments and wound care (at 635-650nm) and increased blood absorption with NO production (at 905nm).

For optimal PhotoBioModulation (PBM) 810nm is typically the primary and most desired wavelength due to deep penetration, rapid conversion of photons to ATP within the Mitochondria, with beneficial PBM effects throughout the entire musculoskeletal system, joints and hard tissues. Even though 1064nm, 980nm, 905nm and 650nm are outside of the therapeutic window they still add benefit in many applications and make the laser more versatile for additional treatment options. The REMY Classic and REMY FX ELITE systems easily switch between pulsing and continuous wave, are pulse adjustable up to 100% duty cycle, and includes an extensive internal protocol library with 25+ preset protocols for human applications and an additional 25+ preset protocols for animal applications. All of these systems come in a shock-proof, waterproof case with 3 pairs of protective eye glasses, 4 convex Zoom handpiece cage covers, first rate handpiece options, free training with certification for up to 6 techs, and include a professional marketing package to support you and your practice for a quick ROI.

Most laser companies don’t put much effort into their protocols. With REMY Lasers you get 25+ human and 25+ animal use protocols built in and ready to use with a couple of clicks. In the blue man picture nearby you can see a protocol choice screen. Simply choose/tap the part of the body on the screen and the protocol will launch. In many of the protocol libraries form other companies, only the name of the protocol changes but not the pulse frequency. Most protocols default to delivering maximum power for 10 minutes with no pulsing. Some systems will put the same dosage into an arthritic hand as they put into a bad hip, defying all logic and therapy standards. 

The advanced presets of the internal protocol library on the REMY work perfectly. They are each customized by a team of Doctors with precise variable in Hz frequency delivery in sweeps with multiple cycles and may combine pulsed and CW in a single setting for best results if the specific area warrants it. These lasers allow you to set them up to get the best results for each condition listed in the library. Additionally, you can create or modify and save your own custom presets for quick and easy use any time. If you have used another high-end system, then you will really appreciate the effort that went into the REMY protocols. It has one of the best internal protocol libraries of any high end laser and better protocols deliver superior results.

The REMY Lasers follow the best industry practices by adapting the treatment parameters to the patient. The 25+ protocols become hundreds of protocols once you take into consideration that each one can be customized for the patient according several variables. The setup screen as seen in a picture nearby shows how each protocol is adapted based on the patient size, skin color and the chronicity/pain level of the condition. In addition to following the best industry practices, the REMY Laser systems allow for manually over-riding the standards. One of the secrets of the laser industry is the effect of duty-cycle (on/off ratio) on the dosage delivery. Many systems like the LiteForce & K-laser use a fixed 50% duty cycle. What this means is that users are paying a very high price to get a 25-watt system (that costs about $30,000) that only puts out 12.5 joules/second anytime they are pulsing the laser. Since you pulse the laser for most applications, most users are wasting a huge amount of money because they are confused by the specifications and how they change the performance.
The REMY Laser Lasers have solved this problem by providing users the ability to program the duty cycle considerably higher than most other lasers. With the REMY Laser you can set up for 50-100% duty cycle so that means that a (15 watt) REMY pulsing at 90% will deliver more power (14 joules/second) and save you $16,500 when compared to a LiteForce Class IV Laser system. It makes you wonder why anyone would want to pay more for less?

REMY SPORT & FX ModelsR9 Single Wave
R10 Single Wave
VET9W Single Wave
VET10W Single Wave
MDC30W 2-Wave
PT/LAC30W DUAL 2-Wave
PT/LAC30W QUAD 4-Wave
POD30W DUAL 2-Wave
SPORT30W DUAL 2-Wave
POD 30W DUAL 2-Wave
POD 30W QUAD 4-Wave
Remy FX 90W 3-Wave
Remy FX 60W 2-Wave
Remy FX 45W 3-Wave
Remy FX 30W 2-Wave
Power & Wavelength

9W @810nm
10W @980nm

30W Combined Max Output
15W @ 810nm
15W @ 980nm
45W TriWave 15Wx3
(810nm, 980nm, 1064nm)
60W DualWave 30Wx2 (810nm, 980nm)
90W TriWave 30Wx3
(810nm, 980nm, 1064nm)
Typical Dosage10W CW = 6480 joules in 12 minutes25W CW = 7500 joules in 5 min
45W CW = 8100 joules in 3 min
(that’s 2700 j/cm2 per minute)
Best ApplicationHuge step up from most class 1-3b laser systems.Perfect for medium and large practices. 
Price$9,950 $12,500-$14,500-$21,995-$24,000

*The MDC30 can deliver 15 Watts at 810nm OR 15 Watts at 980nm or both wavelengths simultaneously up to 30 Watts Continuous Wave (CW) and 30W pulsed. The 30W system will now deliver a full 30 joules/sec. The REMY FX and MEDRAY SUPERMAX 45W Systems can deliver a full 45W CW, which equals 2700 joules/cm2 every one minute or 5400 j/cm2 every 2 min. The New REMY FX60W and FX90W on CW can deliver 3600 joules/cm2 per minute or 10,800 joules/cm2 per 3 minutes.

The REMY Lasers are top-quality FDA cleared, CE Mark Approved, class-4 lasers designed with high-end features and great support at a more affordable price. These generation 2 Class 4 Lasers are designed to meet or surpass the similar Italian-made “gold standard” Eltech K-Laser™ (that cost twice the price) and provides many of the same higher-end features found in ASPEN Laser, LiteCure Laser, LiteForce Laser, Summus Laser and other Class IV lasers, but at a considerably lower price. Thus resulting in a much faster return on investment (ROI). 

The REMY Classic, REMY SPORT VET/POD/PT & LAC  Lasers feature a large 7.2 inch graphic, color touchscreen into a small overall package weighing just 4.6 lbs. This provides a great compromise between portability, functionality, performance and ease of programming, when compared to some class 4 laser systems that are heavy and clunky or those with tiny or non-graphic displays. The compact, lighter weight design of REMY with full color graphic, rapid touch screen display make it a joy to use. 

The REMY FX ELITE has a larger 11″ rapid touch, full color iPad like screen and weigh 8- 10lbs. You can view some of the screens to the right and you can see how well they are laid out for ease of use. (Pictures coming soon)

REMY Classic Sport/POD/VET/PT/LAC all come with a 5-year manufacturer warranty with 1 year on the handpieces. When it comes to quality, the REMY LASERS are built tough, to withstand constant use, day in and day out for many years. They are reliable and dependable and we are confident in our knowledge of how well they perform and hold up through years of regular use. If ever you have an issue, which is unlikely, we take care of our customers. We have experienced little to no issues whatsoever with this product for over 7 years, which is how long this product has been available and thoroughly tested in the field. Additionally, the REMY lasers have been regularly updated and improved over the years. They are now controlled with the newest, most reliable and effective operating system backed up by a WiFi based software, which automatically updates itself via WiFi. Thus ensuring the newest and most updated software and protocol library, even many years later. 

We have a US based service center in FL, which stocks parts and offers fast turnaround service within days. 

The Gen 2 design removes the external connection to the fiber cable and integrates the connection inside the housing similarly to the K laser. Over the years, we learned that the external connection is the weakest link and the cause of most class 4 laser failures (in all class IV laser brands). This issue has been eliminated with our new Gen 2 design. The fiber optic cable connection has been moved inside the housing, making the REMY Class 4 Lasers some of the most durable systems on the market. While other companies use a 200-300 micron fiber optic cable, we use a heavy duty 400 micron fiber optic cable for long life and reliability in the REMY Class 4 Lasers and 600 micron fiber in the REMY FX Elite Series. This high quality design allows for the cable to be wrapped around the base or wheel, and the cable is now fixed to the laser body to insure maximum longevity of the laser diode(s). This reduces the potential for kinking and crushing of the cable in transport and makes the system more reliable. These design elements allow us to confidently offer a full 5-year warranty. The system can also be serviced after the warranty period at our Florida service center if ever needed, so you can rest assured that your laser investment will be successful for the long term.

We offer 20+ different laser models for different types of users. After looking at the trade-offs of price, weight, reliability and safety on the extremely high power lasers, we decided to specialize on the Class 4 Lasers where our clients see the best result and fastest ROI without any downsides. This means that you can choose the REMY LASER range from 9W to 90 Watts.

The 9 Watt 810nm is an entry level class 4 laser with the most popular 810nm wavelength for structural issues. Moving to the dual wavelength (810nm and 980nm) is great for both structural and musculoskeletal issues and is pretty standard for Chiropractors, Physical Therapists, Podiatrists and pain clinics. If you want even more wavelength diversity, the Tri-wave and Quad-wavelength models are very popular. The Quad delivers 30.2 watts at 635nm (200mW), 810nm (10W), 915nm (10W) and 980nm (10W). The Quad gives more versatility for anyone who is treating issues other than structural and musculoskeletal. 

For Practitioners who want the very best with the MOST POWER, we offer the REMY FX Elite Brand of Class IV Therapy Lasers. The FX ELITE is available in 90 Watts TriWave, 60 Watts Dual-Wave, 45 Watts TriWave and 30 Watts Dual-Wave. The FX is the Gold Standard for perfection in pain management and deep tissue therapy for multiple modalities, and built to suit the needs of all kinds of practitioners. If you really want the best class 4 laser on the market, the Elite brand REMY FX outperforms everything else on the market at a price that is often 40-50% less than other popular name brands.

The POWER of a Class 4 Laser varies greatly from one model to another. We have learned over the years that having more power translates to deeper treatments, faster treatments and superior results. Consequently we recommend that you purchase the most powerful laser that you can afford. All of the REMY lasers adjust all the way down to 500mW cold laser standards, so you do not have to worry about having too much power. The lasers are infinitely adjustable.

The REMY Lasers utilize the most established wavelengths. 810nm is the primary wavelength for lower power units and with 20 Watts and higher units, a secondary wavelength of 980nm is utilized in the Dual-wave units. For the Quad units we add the 905nm and the 635nm Red laser wavelength. They are great for supplemental therapies such as surface injuries, soft tissue issues and skin conditions. For burn and wound care or in animal care with soft tissue, wounds, hoof and blood related issues, the 635-650nm wavelength is preferred. When you want a wavelength where most of the energy is converted into heat, the 980nm can be used for increasing circulation and reducing inflammation with rapid pain control. The REMY Laser system give practitioners full control, so they can optimize their treatment for a wide variety of applications. The REMY lasers provide for a very high 3-dimensional power density that many experts think is the key to better therapeutic outcomes. Although lower power devices can deliver the same total energy level given enough time (usually much longer), they can never reach the same power density of the REMY Class 4 Laser Systems.

For high volume practices, minimizing patient treatment times while still delivering great results is a high priority. For these types of practices we offer a variety of powerful options including: the  REMY FX 60W 2-Wave, REMY FX 45W 3-Wave, REMY FX30W 2-Wave, and the 30 Watt 2-Wave Original REMY providng a cost effective solution for professional Class 4 Laser therapy. Practitioners can deliver over 4500 joules in 5 minutes with a MEDRAY MDC30W and an amazing 2700 j/cm2 per min. with the REMY FX 45W or 3600 j/cm2 with the REMY FX60W

The higher the device power, the more options you have for extremely short treatment times or deliver very high dosages for maximum impact for your patients. Because the REMY Laser has the programmable duty cycle (on/off ratio), you can deliver 4300 joules pulsing in 5 minutes. The REMY FX60W pulsed at 50% duty cycle will deliver 1800 j/cm2 per minute or 9000 j/cm2 per 5 minutes and double that for CW. This totally crushes most other systems that have a fixed duty cycle of 50% or less. With the REMY Lasers you can create custom protocols that include high duty cycle pulsing. We often recommend pulsing in the 4 – 40 Hz but at a 90% duty cycle. This give practitioners both pulsing and higher dosage. Very few other systems on the market allow this control at any price.

Unlike some other Class 4 lasers, the REMY Lasers do not require a long startup time. Turn it on and the laser boots up and is ready for treatments. Similar products can take up to 4 minutes to warm up the laser before you can start your first therapy. The REMY Laser systems are built using many of the same high precision design principals as surgical lasers so they are designed for critical operation and made to last, even under constant and regular use. They are built with the most advanced digital fan cooling systems that automatically turn on and off as needed to help reduce noise and increase efficiency. REMY Lasers have received the highest level FDA/510k Clearances for Physical Medicine/Pain Relief/Rehabilitation and Minor Surgical Procedures in Podiatric and Veterinary medicine.

The beauty of the REMY Lasers are a work of technological art. Just as the iPhone has become more compact and feature rich over time. So it is with this  product. It is built with the highest quality components from top to bottom so you can expect many years of trouble-free service. The REMY Laser  system performs a self-check at boot up so you always know it is working properly.

All Remy lasers use specially-designed hot swappable handpieces as shown, they connect to a flexible, yet industrial quality, 400/600 micron fiber-optic cable. A foot pedal is no longer required, but is optionally available for those who do like it. The hand-pieces are super strong, built from aircraft aluminum. The main Zoom handpiece is lightweight (8oz), comfortable to hold, has a built in Start/Stop finger switch, and an adjustable Zoom function that allows you to choose a beam size anywhere between 15-30mm. It comes with 4 convex clear ball shaped lens covers that glide easily over body parts, so you can apply pressure when appropriate and are easy to keep clean and sanitize. You are going to love all of the handpieces as they are each finely crafted tools with specific applications, and the overall versatility of these lasers is exceptional. The top part can be easily swapped with optional handpiece heads for use in ENT, Massage, Acupoint Therapy, Toenail Fungus, Warts and minor surgery. Recently we have added the newest attachment, which is a beautiful ROLLERBALL that not only rolls smoothly over the body, and allows for laser massage, but can also be quickly taken apart for cleaning and sanitation.

Remy Zoom Handpiece
Remy Rollerball Handpiece
Medical Cart Option

Some of our REMY Laser customers are asking for a medical cart.  We have several options available so let us know if you want a cart. This laser on a rolling cart is a good combination for many clinics. All of our carts are set at the most useful height, are sturdy, heavy enough that it will not tip over. They have shelves for holding accessories such as extra handpieces, glasses and manuals. If you would like to get a rolling cart for your new laser just let us know. A cart is included with the REMY FX Elite Packages and the REMY POD Turnkey package. 

Portability

Every detail on our REMY Lasers is top-of-line and that extends to the water-resistant, shock-proof carrying case (included).

This is not one of those cheap aluminum hard cases that weighs a lot but scratches and dents easily, this is the same type of water-resistant case (Pelican Style) used by professional photographers to protect their most expensive equipment. Inside the case is soft custom foam inserts for holding all your accessories. A perfect compliment to your top-of-the-line laser.

Smart

When you combine all these features with the exceptional support and service you get from Class4Lasers.com, you can’t go wrong with our selection of REMY Lasers. While we understand that you want to enhance your practice with a quality class 4 laser, we also understand that you should be able to do so without overextending your wallet. The cost savings with a REMY compared to comparable lasers are significant and we assure you that their performance is second to none. Our goal is happy customers and enthusiastic referrals. Once you incorporate this laser into your practice you will wonder how you ever managed without it. These class 4 lasers are very safe and easy to use, but because they do warm tissue to the touch, free training is provided as part of the package to ensure maximum safety for you and your clients and maximum clinical results for your practice. 

All REMY Classic and FX ELITE Laser systems include the laser controller with touch screen, zoom handpiece with 400 or 600 micron cable, hard-body mobile case, 3 pairs of glasses, manuals, training and a 5 year manufacturer warranty. The price also includes training and shipping.
To Order Call Toll Free 1-800-575-7963 and Mr Kalon Prensky, 20+ year laser specialist will be happy to assist you. You can also text to 808-870-0348 or eMail any questions with the form below.

Comparison of REMY VET30 30 Watt QUAD Wave to K-Laser 

 
SpecificationREMY VET30W QUADKlaser® Cube 30
1. Diode Power (watts)3045
2. Wavelengths (nm)637, 810, 905, 980 Adjustable635, 810, 910, 980
3. PulsingSweep, Single & CWSweep, Single & CW
4. Software UpgradableThru WiFiThru WiFi
5. Pulsing StepsUp to 12Up to 6
6. Adapts for Patient Size and skin colorYesYes
7. Hand Free OptionYesYes
8. Deliver Rates25 j/sec CW, 0-24.8 j/sec pulse30 j/sec CW, 0-29.5 j/sec pulse
9. Warranty5 Years5 Years
10. Interchangeable Heads56
11. Estimated Prices$14,595$37,500
Includes Custom MarketingYesNo
Includes Training PackageYesNo

Notes:
1. This is the total power of the diodes in the system and does not mean it will 100% of that power.
2. This shows the wavelengths used and if the blend of the different wavelengths are independently adjustable. Some systems are a “fixed blend” of multi-wavelengths meaning that the owner does not have independent control of the each wavelength. 810nm is the best wavelength for a photo-chemical reaction. 980nm is mainly for pain and inflammation control and produces about 1/30th the photo-chemical reaction as 810nm (based on research).
3. Systems with “sweep” will automatically rotate through multiple pulsing frequencies in one program allowing the laser to optimized to treat multiple symptoms in one program. Lower-tech systems have just one “single” pulsing frequency per program.
4. Cloud connected system can be get software and protocol update over the internet. Laser therapy is still evolving so this allows some laser to continuously improve over time while non-cloud connected systems go obsolete.
5. Pulsing technology is rapidly changing. Better systems allow for multiple pulsing steps. For example, this can allow the same program to be optimized for both pain (step 1) and inflammation reduction (step 2) and so on.
6. Every book you read about PBM will state that dosage is based on condition, patient size and skin color. Darker and larger patients need a higher dosage. This is also just common sense. Better system follow the best practices.
7. Hands free systems allow practitioners to have the laser fully automated. The REMY VET30W QUAD has a Bluetooth remote so the patient can turn on and off the system themselves.
8. Delivery rate is really what you are paying for but some system claim high deliver rates but don’t really deliver the marketed rate in most therapy sessions. Claiming high peak powers is a way to make the system seem like it is worth more than it really is.
9. Higher quality system have a better warranty.
10. Interchangeable heads allow the owner to swap out the emitter for different applications, proving better results.
11. Some times, you are just paying excessively for a brand name. Some older brands charge outrageous prices without delivering any better performance or efficacy.

As you can see from the comparison table, the REMY VET30W QUAD offers superior performance at a fraction of the cost of a similar class-4 lasers. Both REMY and the competing manufacturers offer multiple models but in all the cases, the REMY VET30W QUAD offers superior performance at a much lower cost.

Conclusion: In this analysis, we compare the REMY VET30W QUAD wavelength system to the new Cube 30. Prior to the release of the Cube 30, their flagship was the Cube 4+. The Klaser is made in Italy and their quality and designs are some of the best. That is why the REMY VET30W QUAD designers took alot of quality and design elements from the Klaser and took them to a higher level. If you compare the REMY VET30W QUAD to the Cube 4+, which sold for $27,500, it beats it’s performance hands down. Both system are very similar in the way the software and operating system control the therapy so the main area where the REMY VET30W QUAD comes out ahead is when you include the price, training and support in your decision.

Why Buy A REMY or MEDRAY Laser From Class4Lasers.com?

• We’ve got your back – as a dedicated laser pro shop since 2003, serving many thousands of satisfied customers is our passion. We will go out of our way to ensure that you receive fast, friendly and professional service, training and support now and ongoing.
• Guaranteed Best Price – We always offer the lowest manufacturer-authorized prices and if you find it for less (within 30 days), we will meet or beat it. We ensure exceptional value with low prices, free shipping, training, certification, high quality products & ongoing support.
• The REMY & MEDRAY Lasers are 510k FDA Cleared for the widest range of therapeutic applications of all the class iv therapy lasers on the market, they are also granted CE Mark for distribution and use in Europe and the UK.
• We offer the lowest price per Watt of all FDA Cleared Class IV Lasers on the market without compromising the quality, features, longevity, or performance of the product. This ensures satisfaction with higher power performance and a faster ROI.
• We provide up to a 5-Year Manufacturer Warranty to make sure each laser really lasts.
• We have a Florida-based service center – to support fast and reliable service if ever needed, with all parts and technician for fast turn around. If determined a longer repair will be needed (unlikely), we will rush you out a loaner laser.
• We are factory-authorized distributors – which means you can rest assured that you are buying an authentic product from a reputable dealer.
 We provide a marketing tool kit to support the success of your class 4 laser business and the building of clients to accelerate ROI. This includes beautiful color digital templates of trifold brochures, post cards and posters customized with your logo and contact info.
• We provide a custom case – shockproof, waterproof, carrying case, and “Laser in Use” sign.
• Discover Lasers LLC is an A+ BBB Accredited Company since 2008. Your satisfaction is our goal and commitment, and we back that up with a *30 Day Money Back Satisfaction Guarantee.
• We have a dedicated toll-free number for concierge service and support with a laser specialist: Call Toll Free: 1-800-575-7963

REMY Class 4 Laser Details

Why Buy from Class4Lasers.com?

• We’ve got your back – as a dedicated laser pro shop since 2003, serving many thousands of satisfied customers is our passion. We will go out of our way to ensure that you receive fast, friendly and professional service, training and support now and ongoing.
• Guaranteed Best Price – We always offer the lowest manufacturer-authorized prices and if you find it for less (within 30 days), we will meet or beat it. We ensure exceptional value with low prices, free shipping, training, certification, high quality products & ongoing support.
• The REMY SPORT and REMY ELITE Lasers are 510k FDA Cleared for the widest range of therapeutic applications of all the class iv therapy lasers on the market, they are also granted CE Mark for distribution and use in Europe and the UK.
• We offer the lowest price per Watt of all Premium FDA Cleared Class IV Lasers on the market without compromising the quality, features, longevity, or performance of the product. This ensures satisfaction with higher power, performance, resulting in faster ROI.
• We provide up to a 5-Year Manufacturer Warranty to make sure each laser really lasts.
• We have a Florida-based service center – to support fast and reliable service if ever needed, with all parts and technician for fast turn around. If determined a longer repair will be needed (unlikely), we will rush you out a loaner laser.
• We are factory-authorized distributors – which means you can rest assured that you are buying an authentic product from a reputable dealer at the lowest factory direct pricing.
 We provide a marketing tool kit to support the success of your class 4 laser business and the building of clients to accelerate ROI. This includes beautiful color digital templates of trifold brochures, post cards and posters customized with your logo and contact info.
• We provide a deluxe custom case – a foam lined, shockproof, waterproof, carrying case, 3 protective glasses and “Laser in Use” sign.
• Discover Lasers LLC is an A+ BBB Accredited Company since 2008 with many 5 Star reviews. Your satisfaction is our goal and commitment, and we back that up with a *30 Day Money Back Satisfaction Guarantee.
• We have a dedicated toll-free number for concierge service and support with a laser specialist: Call Toll Free: 1-800-575-7963

The REMY Lasers come in the Classic SPORT/PT/VET/POD Models and the FX ELITE Models:
The Classic SPORT/VET delivers power up to 30W CW in the most proven optimal wavelengths for successful treatments with options of single wave length, dual (2) or quad (4). The most revered primary wavelengths for class IV lasers are either 810nm or 980nm, which are available individually in the 9 or 10 Watt single wave models. The 2 wave (dual) is available as a 30 Watt (15 Watts each wavelength) or 4 wave (QUAD), which is NOW available as a 30.2 (formerly 27.2) Watt System. Current independent research reveals that the 810nm is the best wavelength for deep penetration, musculoskeletal applications and hard tissue issues, supporting deep photobiomodulation (PBM). It can deliver great results for almost all applications where photobiomodulation is the primary goal. In the research, they found that 810nm provides up to 30 times the penetration of 980nm because it is not absorbed by the hemoglobin, which is why it helps to support regeneration and rehabilitation more effectively. Whereas the 980nm is popular for rapid pain relief plus reduction of inflammation, and is thus used in most larger pain clinics, and by most Class IV lasers since the beginning, which is why we offer it in our dual and quad wavelength versions. 

The REMY FX ELITE Models utilize the 810nm and 980nm wavelengths, PLUS the 1064nm wavelength, which is the longest useful wavelength of the “biological window”. It is scientifically proven to reach deeper levels of skin and tissues to stimulate production of collagen in the joints and spine. While some lasers are less efficient with certain skin types, the 1064nm wavelength is beneficial for use on all skin types. It delivers the longest and deepest penetration through the layers, with less dispersion in biological tissue, delivering extra pain melting power, all with minimal increase in heat output, for increased speed and efficient healing. It is also reported to improve human brain performance on cognitive tasks as well as to locally upregulate cerebral oxygen metabolism and hemodynamics. At 1064nm, this light wavelength penetrates into deeper tissue than either 810nm or 980nm wavelengths. This means the laser light activates metabolic processes in tissues unreachable by other light wavelengths.

The REMY Dual, REMY QUAD & REMY FX ELITE  offer multiple wavelengths within the “biological window” in different configurations. They include different combinations of the following wavelengths: 1064nm, 980nm, 905nm, 810nm, 635nm, or 650nm. The  secondary wavelengths are independently controlled just like with most high-end multi-wavelength systems. As a secondary or tertiary wavelength, these options add flexibility for muscle relaxation (at 980nm) and increased circulation and faster pain reduction (at 980nm), faster treatment, deepest penetration and support for the body and brain, with cooler temperature (at 1064), improved soft tissue treatments and wound care (at 635-650nm) and increased blood absorption with NO production (at 905nm).

For optimal PhotoBioModulation (PBM) 810nm is typically the primary and most desired wavelength due to deep penetration, rapid conversion of photons to ATP within the Mitochondria, with beneficial PBM effects throughout the entire musculoskeletal system, joints and hard tissues. Even though 1064nm, 980nm, 905nm and 650nm are outside of the therapeutic window they still add benefit in many applications and make the laser more versatile for additional treatment options. The REMY Classic and REMY FX ELITE systems easily switch between pulsing and continuous wave, are pulse adjustable up to 100% duty cycle, and includes an extensive internal protocol library with 25+ preset protocols for human applications and an additional 25+ preset protocols for animal applications. All of these systems come in a shock-proof, waterproof case with 3 pairs of protective eye glasses, 4 convex Zoom handpiece cage covers, first rate handpiece options, free training with certification for up to 6 techs, and include a professional marketing package to support you and your practice for a quick ROI.

Most laser companies don’t put much effort into their protocols. With REMY Lasers you get 25+ human and 25+ animal use protocols built in and ready to use with a couple of clicks. In the blue man picture nearby you can see a protocol choice screen. Simply choose/tap the part of the body on the screen and the protocol will launch. In many of the protocol libraries form other companies, only the name of the protocol changes but not the pulse frequency. Most protocols default to delivering maximum power for 10 minutes with no pulsing. Some systems will put the same dosage into an arthritic hand as they put into a bad hip, defying all logic and therapy standards. 

The advanced presets of the internal protocol library on the REMY work perfectly. They are each customized by a team of Doctors with precise variable in Hz frequency delivery in sweeps with multiple cycles and may combine pulsed and CW in a single setting for best results if the specific area warrants it. These lasers allow you to set them up to get the best results for each condition listed in the library. Additionally, you can create or modify and save your own custom presets for quick and easy use any time. If you have used another high-end system, then you will really appreciate the effort that went into the REMY protocols. It has one of the best internal protocol libraries of any high end laser and better protocols deliver superior results.

The REMY Lasers follow the best industry practices by adapting the treatment parameters to the patient. The 25+ protocols become hundreds of protocols once you take into consideration that each one can be customized for the patient according several variables. The setup screen as seen in a picture nearby shows how each protocol is adapted based on the patient size, skin color and the chronicity/pain level of the condition. In addition to following the best industry practices, the REMY Laser systems allow for manually over-riding the standards. One of the secrets of the laser industry is the effect of duty-cycle (on/off ratio) on the dosage delivery. Many systems like the LiteForce & K-laser use a fixed 50% duty cycle. What this means is that users are paying a very high price to get a 25-watt system (that costs about $30,000) that only puts out 12.5 joules/second anytime they are pulsing the laser. Since you pulse the laser for most applications, most users are wasting a huge amount of money because they are confused by the specifications and how they change the performance.
The REMY Laser Lasers have solved this problem by providing users the ability to program the duty cycle considerably higher than most other lasers. With the REMY Laser you can set up for 50-100% duty cycle so that means that a (15 watt) REMY pulsing at 90% will deliver more power (14 joules/second) and save you $16,500 when compared to a LiteForce Class IV Laser system. It makes you wonder why anyone would want to pay more for less?

REMY SPORT & FX ModelsR9 Single Wave
R10 Single Wave
VET9W Single Wave
VET10W Single Wave
MDC30W 2-Wave
PT/LAC30W DUAL 2-Wave
PT/LAC30W QUAD 4-Wave
POD30W DUAL 2-Wave
SPORT30W DUAL 2-Wave
POD 30W DUAL 2-Wave
POD 30W QUAD 4-Wave
Remy FX 90W 3-Wave
Remy FX 60W 2-Wave
Remy FX 45W 3-Wave
Remy FX 30W 2-Wave
Power & Wavelength

9W @810nm
10W @980nm

30W Combined Max Output
15W @ 810nm
15W @ 980nm
45W TriWave 15Wx3
(810nm, 980nm, 1064nm)
60W DualWave 30Wx2 (810nm, 980nm)
90W TriWave 30Wx3
(810nm, 980nm, 1064nm)
Typical Dosage10W CW = 6480 joules in 12 minutes25W CW = 7500 joules in 5 min
45W CW = 8100 joules in 3 min
(that’s 2700 j/cm2 per minute)
Best ApplicationHuge step up from most class 1-3b laser systems.Perfect for medium and large practices. 
Price$9,950 $12,500-$14,500-$21,995-$24,000

*The MDC30 can deliver 15 Watts at 810nm OR 15 Watts at 980nm or both wavelengths simultaneously up to 30 Watts Continuous Wave (CW) and 30W pulsed. The 30W system will now deliver a full 30 joules/sec. The REMY FX and MEDRAY SUPERMAX 45W Systems can deliver a full 45W CW, which equals 2700 joules/cm2 every one minute or 5400 j/cm2 every 2 min. The New REMY FX60W and FX90W on CW can deliver 3600 joules/cm2 per minute or 10,800 joules/cm2 per 3 minutes.

The REMY Lasers are top-quality FDA cleared, CE Mark Approved, class-4 lasers designed with high-end features and great support at a more affordable price. These generation 2 Class 4 Lasers are designed to meet or surpass the similar Italian-made “gold standard” Eltech K-Laser™ (that cost twice the price) and provides many of the same higher-end features found in ASPEN Laser, LiteCure Laser, LiteForce Laser, Summus Laser and other Class IV lasers, but at a considerably lower price. Thus resulting in a much faster return on investment (ROI). 

The REMY Classic, REMY SPORT VET/POD/PT & LAC  Lasers feature a large 7.2 inch graphic, color touchscreen into a small overall package weighing just 4.6 lbs. This provides a great compromise between portability, functionality, performance and ease of programming, when compared to some class 4 laser systems that are heavy and clunky or those with tiny or non-graphic displays. The compact, lighter weight design of REMY with full color graphic, rapid touch screen display make it a joy to use. 

The REMY FX ELITE has a larger 11″ rapid touch, full color iPad like screen and weigh 8- 10lbs. You can view some of the screens to the right and you can see how well they are laid out for ease of use. (Pictures coming soon)

REMY Classic Sport/POD/VET/PT/LAC all come with a 5-year manufacturer warranty with 1 year on the handpieces. When it comes to quality, the REMY LASERS are built tough, to withstand constant use, day in and day out for many years. They are reliable and dependable and we are confident in our knowledge of how well they perform and hold up through years of regular use. If ever you have an issue, which is unlikely, we take care of our customers. We have experienced little to no issues whatsoever with this product for over 7 years, which is how long this product has been available and thoroughly tested in the field. Additionally, the REMY lasers have been regularly updated and improved over the years. They are now controlled with the newest, most reliable and effective operating system backed up by a WiFi based software, which automatically updates itself via WiFi. Thus ensuring the newest and most updated software and protocol library, even many years later. 

We have a US based service center in FL, which stocks parts and offers fast turnaround service within days. 

The Gen 2 design removes the external connection to the fiber cable and integrates the connection inside the housing similarly to the K laser. Over the years, we learned that the external connection is the weakest link and the cause of most class 4 laser failures (in all class IV laser brands). This issue has been eliminated with our new Gen 2 design. The fiber optic cable connection has been moved inside the housing, making the REMY Class 4 Lasers some of the most durable systems on the market. While other companies use a 200-300 micron fiber optic cable, we use a heavy duty 400 micron fiber optic cable for long life and reliability in the REMY Class 4 Lasers and 600 micron fiber in the REMY FX Elite Series. This high quality design allows for the cable to be wrapped around the base or wheel, and the cable is now fixed to the laser body to insure maximum longevity of the laser diode(s). This reduces the potential for kinking and crushing of the cable in transport and makes the system more reliable. These design elements allow us to confidently offer a full 5-year warranty. The system can also be serviced after the warranty period at our Florida service center if ever needed, so you can rest assured that your laser investment will be successful for the long term.

We offer 20+ different laser models for different types of users. After looking at the trade-offs of price, weight, reliability and safety on the extremely high power lasers, we decided to specialize on the Class 4 Lasers where our clients see the best result and fastest ROI without any downsides. This means that you can choose the REMY LASER range from 9W to 90 Watts.

The 9 Watt 810nm is an entry level class 4 laser with the most popular 810nm wavelength for structural issues. Moving to the dual wavelength (810nm and 980nm) is great for both structural and musculoskeletal issues and is pretty standard for Chiropractors, Physical Therapists, Podiatrists and pain clinics. If you want even more wavelength diversity, the Tri-wave and Quad-wavelength models are very popular. The Quad delivers 30.2 watts at 635nm (200mW), 810nm (10W), 915nm (10W) and 980nm (10W). The Quad gives more versatility for anyone who is treating issues other than structural and musculoskeletal. 

For Practitioners who want the very best with the MOST POWER, we offer the REMY FX Elite Brand of Class IV Therapy Lasers. The FX ELITE is available in 90 Watts TriWave, 60 Watts Dual-Wave, 45 Watts TriWave and 30 Watts Dual-Wave. The FX is the Gold Standard for perfection in pain management and deep tissue therapy for multiple modalities, and built to suit the needs of all kinds of practitioners. If you really want the best class 4 laser on the market, the Elite brand REMY FX outperforms everything else on the market at a price that is often 40-50% less than other popular name brands.

The POWER of a Class 4 Laser varies greatly from one model to another. We have learned over the years that having more power translates to deeper treatments, faster treatments and superior results. Consequently we recommend that you purchase the most powerful laser that you can afford. All of the REMY lasers adjust all the way down to 500mW cold laser standards, so you do not have to worry about having too much power. The lasers are infinitely adjustable.

The REMY Lasers utilize the most established wavelengths. 810nm is the primary wavelength for lower power units and with 20 Watts and higher units, a secondary wavelength of 980nm is utilized in the Dual-wave units. For the Quad units we add the 905nm and the 635nm Red laser wavelength. They are great for supplemental therapies such as surface injuries, soft tissue issues and skin conditions. For burn and wound care or in animal care with soft tissue, wounds, hoof and blood related issues, the 635-650nm wavelength is preferred. When you want a wavelength where most of the energy is converted into heat, the 980nm can be used for increasing circulation and reducing inflammation with rapid pain control. The REMY Laser system give practitioners full control, so they can optimize their treatment for a wide variety of applications. The REMY lasers provide for a very high 3-dimensional power density that many experts think is the key to better therapeutic outcomes. Although lower power devices can deliver the same total energy level given enough time (usually much longer), they can never reach the same power density of the REMY Class 4 Laser Systems.

For high volume practices, minimizing patient treatment times while still delivering great results is a high priority. For these types of practices we offer a variety of powerful options including: the  REMY FX 60W 2-Wave, REMY FX 45W 3-Wave, REMY FX30W 2-Wave, and the 30 Watt 2-Wave Original REMY providng a cost effective solution for professional Class 4 Laser therapy. Practitioners can deliver over 4500 joules in 5 minutes with a MEDRAY MDC30W and an amazing 2700 j/cm2 per min. with the REMY FX 45W or 3600 j/cm2 with the REMY FX60W

The higher the device power, the more options you have for extremely short treatment times or deliver very high dosages for maximum impact for your patients. Because the REMY Laser has the programmable duty cycle (on/off ratio), you can deliver 4300 joules pulsing in 5 minutes. The REMY FX60W pulsed at 50% duty cycle will deliver 1800 j/cm2 per minute or 9000 j/cm2 per 5 minutes and double that for CW. This totally crushes most other systems that have a fixed duty cycle of 50% or less. With the REMY Lasers you can create custom protocols that include high duty cycle pulsing. We often recommend pulsing in the 4 – 40 Hz but at a 90% duty cycle. This give practitioners both pulsing and higher dosage. Very few other systems on the market allow this control at any price.

Unlike some other Class 4 lasers, the REMY Lasers do not require a long startup time. Turn it on and the laser boots up and is ready for treatments. Similar products can take up to 4 minutes to warm up the laser before you can start your first therapy. The REMY Laser systems are built using many of the same high precision design principals as surgical lasers so they are designed for critical operation and made to last, even under constant and regular use. They are built with the most advanced digital fan cooling systems that automatically turn on and off as needed to help reduce noise and increase efficiency. REMY Lasers have received the highest level FDA/510k Clearances for Physical Medicine/Pain Relief/Rehabilitation and Minor Surgical Procedures in Podiatric and Veterinary medicine.

The beauty of the REMY Lasers are a work of technological art. Just as the iPhone has become more compact and feature rich over time. So it is with this  product. It is built with the highest quality components from top to bottom so you can expect many years of trouble-free service. The REMY Laser  system performs a self-check at boot up so you always know it is working properly.

All Remy lasers use specially-designed hot swappable handpieces as shown, they connect to a flexible, yet industrial quality, 400/600 micron fiber-optic cable. A foot pedal is no longer required, but is optionally available for those who do like it. The hand-pieces are super strong, built from aircraft aluminum. The main Zoom handpiece is lightweight (8oz), comfortable to hold, has a built in Start/Stop finger switch, and an adjustable Zoom function that allows you to choose a beam size anywhere between 15-30mm. It comes with 4 convex clear ball shaped lens covers that glide easily over body parts, so you can apply pressure when appropriate and are easy to keep clean and sanitize. You are going to love all of the handpieces as they are each finely crafted tools with specific applications, and the overall versatility of these lasers is exceptional. The top part can be easily swapped with optional handpiece heads for use in ENT, Massage, Acupoint Therapy, Toenail Fungus, Warts and minor surgery. Recently we have added the newest attachment, which is a beautiful ROLLERBALL that not only rolls smoothly over the body, and allows for laser massage, but can also be quickly taken apart for cleaning and sanitation.

Remy Zoom Handpiece
Remy Rollerball Handpiece
Medical Cart Option

Some of our REMY Laser customers are asking for a medical cart.  We have several options available so let us know if you want a cart. This laser on a rolling cart is a good combination for many clinics. All of our carts are set at the most useful height, are sturdy, heavy enough that it will not tip over. They have shelves for holding accessories such as extra handpieces, glasses and manuals. If you would like to get a rolling cart for your new laser just let us know. A cart is included with the REMY FX Elite Packages and the REMY POD Turnkey package. 

Portability

Every detail on our REMY Lasers is top-of-line and that extends to the water-resistant, shock-proof carrying case (included).

This is not one of those cheap aluminum hard cases that weighs a lot but scratches and dents easily, this is the same type of water-resistant case (Pelican Style) used by professional photographers to protect their most expensive equipment. Inside the case is soft custom foam inserts for holding all your accessories. A perfect compliment to your top-of-the-line laser.

Smart

When you combine all these features with the exceptional support and service you get from Class4Lasers.com, you can’t go wrong with our selection of REMY Lasers. While we understand that you want to enhance your practice with a quality class 4 laser, we also understand that you should be able to do so without overextending your wallet. The cost savings with a REMY compared to comparable lasers are significant and we assure you that their performance is second to none. Our goal is happy customers and enthusiastic referrals. Once you incorporate this laser into your practice you will wonder how you ever managed without it. These class 4 lasers are very safe and easy to use, but because they do warm tissue to the touch, free training is provided as part of the package to ensure maximum safety for you and your clients and maximum clinical results for your practice. 

All REMY Classic and FX ELITE Laser systems include the laser controller with touch screen, zoom handpiece with 400 or 600 micron cable, hard-body mobile case, 3 pairs of glasses, manuals, training and a 5 year manufacturer warranty. The price also includes training and shipping.
To Order Call Toll Free 1-800-575-7963 and Mr Kalon Prensky, 20+ year laser specialist will be happy to assist you. You can also text to 808-870-0348 or eMail any questions with the form below.

Laser Therapy and Musculoskeletal Pain Syndromes (Chronic and Acute)

Musculoskeletal Pain Syndromes (Chronic and Acute)

Low-Level Light Therapy (LLLT) has been shown to be effective in a variety of musculoskeletal conditions and associated pain presentations.

In Rheumatoid Arthritis, LLLT can benefit not only the pain of acute small joint inflammation but also chronic pain. In a review article on rheumatology (3), some 18 papers were considered. All studies involved double-blind trials with LLLT in chronic rheumatoid and reported significant improvement in pain (80% success rate in relieving pain). Upon comparing LLLT to a similar rate of pain attenuation using anti-inflammatory drugs (NSAIDs), the LLLT was free of any side-effects while 20% of patients treated with NSAIDs suffered unacceptable side-effects of medication. In another study of 170 patients with rheumatoid arthritis using LLLT (4), pain attenuation of up to 90% was noted.

Trellis et al (6) used LLLT for osteoarthritis of the knee in 40 patients. He reported a significant reduction of 82% of the patients with improved joint mobility. Among 36 randomized patients, with pain caused by cervical osteoarthritis, those who received Infra-Red and Low-Level Laser treatment improved 75% compared with the group receiving mock treatment (31%). Similarly, a study of 60 patients with Cervical Osteoarthritis, Low Pulsed Laser was successful in relieving pain and in improving function.

The results of a study show that cervical myofascial pain is significantly improved at 3-month with Diode laser. A similar successful LLLT treatment has been described for whiplash injuries.

In a randomized study with 30 patients with supraspinatus or bicipital tendonitis, the results demonstrated the effectiveness of laser therapy in tendonitis of the shoulder. Another study with a patient population (n = 324), with either medial epicondylitis (Golfer’s elbow; n = 50) or lateral epicondylitis (Tennis elbow; n = 274), and randomly allocated, provides further evidence of the efficacy of LLLT in the management of lateral and medial epicondylitis.

Treatment with low-level laser therapy (LLLT) was shown effective in treating Carpal Tunnel Syndrome pain. Another study, significant decreases in McGill Pain Questionnaire scores, median nerve sensory latency, and Phalen and Tinel signs were observed after treatment series with Low-Level Laser Therapy. Patients could perform their previous work (computer typist, handyman) and be stable for 1 to 3 years.

In acute trauma, there is a soft tissue injury comprising swelling, hematoma, pain and reduced mobility. Sporting injuries and domestic accidents usually involve damage to muscles, joint ligaments, and tenclass. In the absence of bone fracture or other injury demanding priority treatment, LLLT should be instituted at the earliest opportunity. Kumar reported a comparative study in 50 patients with inversion injuries of the ankle. He found that compared to conventional physiotherapy, the LLLT treated patients showed a more rapid resolution of symptoms and an earlier return to full weight-bearing. 

Fibromyalgia (FM) is characterized by widespread pain in the body, associated with particular tender points. It is often accompanied by disturbed sleep patterns, fatigue, headaches, irritable bowel, and bladder syndrome, morning stiffness, anxiety, and depression. FM can cause a high level of functional disability and have a significantly negative effect on the quality of life. One study suggests that “Laser Therapy is effective on pain, muscle spasm, morning stiffness, fatigue, depression and total tender point number in Fibromyalgia”.

A randomized controlled study with 63 with non-radiating low back pain showed that LLLT significantly improved pain and function.

In summary, the bulk of published work to date supports the use of LLLT for the treatment of a variety of musculoskeletal conditions and associated pain. Moreover, the LLLT proved to be not only more effective than conventional methods but more economical as well. The added advantage of the absence of side effects, non-invasive nature of therapy and the ease of application ensure good patient acceptance of the treatment modality.

Acute Respiratory Distress Disorder Cold Laser Clinical Studies

The following is a summary of some of the clinical studies that were conducted using cold laser to treat Acute Respiratory Distress Disorder. These studies are presented here to demonstrate the wide uses of cold lasers in the treatment of different medical conditions.

Acute Respiratory Distress Syndrome Successfully Treated with Low-Level Laser Therapy

Chan Gunn, Institute for the Study and Treatment of Pain

Abstract Acute respiratory distress syndrome (ARDS) is a medical emergency, which may be precipitated by an acute injury to the lung. The injury can also follow direct chest trauma from aspiration of gastric contents or inhalation of toxic gasses. ARDS is not itself a specific disease but a syndrome – a group of symptoms and signs that make up one of the most important forms of respiratory failure. ARDS is devastating because it can develop quite suddenly in persons whose lungs had been perfectly normal – it kills at least 60% of its victims. The fundamental problem is the sudden appearance of large amounts of fluid in the lung preventing blood from entering the alveoli and decreasing oxygen extraction resulting in hypoxemia.

The tragic feature of ARDS is that it drowns its victim. The appearance of fluid in the lungs – a lethal situation – is from neuro-inflammation.

Important to keep in mind when treating ARDS are: a) Inflammation and Inflammatory exudates Gap Formation, b) Interstitial and Alveolar Inflammation, c) Inflammation and the Nervous System, d) Cholinergic anti-inflammatory pathway. Neuro-inflammation can be relieved by stimulation of the vagus nerve. Low-level laser therapy, a simple modality with few undesirable side effects, is used to relieve respiratory distress. 

Alcoholism Laser Clinical Studies

The following is a summary of some of the clinical studies that were conducted using cold laser to treat Alcoholism. These studies are presented here to demonstrate the wide uses of cold lasers in the treatment of different medical conditions.

Acupuncture for alcohol withdrawal: a randomized controlled trial

1 Psychiatric Hospital,
2 Department of Complementary Medicine (KIKOM), Inselspital, University of Berne, 3010 Berne, 3 Department of Social and Community Psychiatry, University of Berne, Laupenstrasse 49, 3010 Berne, Switzerland,

4 MRC Health Services Research Collaboration, Department of Social Medicine, University of Bristol, Bristol, UK and
5 Department of Social and Preventive Medicine, University of Berne, Finkenhubelweg 11, 3012 Berne, Switzerland
Received 1 February 2002; in revised form 11 March 2003; accepted 27 March 2003

Background and Aims: Previous trials on acupuncture in alcohol addiction were in outpatients and focused on relapse prevention. Rates of dropout were high and interpretation of results difficult. We compared auricular laser and needle acupuncture with sham laser stimulation in reducing the duration of alcohol withdrawal.

Methods: Inpatients undergoing alcohol withdrawal were randomly allocated to laser acupuncture (n = 17), needle acupuncture (n = 15) or sham laser stimulation (n = 16). Attempts were made to blind patients, therapists and outcome assessors, but this was not feasible for needle acupuncture. The duration of withdrawal symptoms (as assessed using a nurse-rated scale) was the primary outcome; the duration of sedative prescription was the secondary outcome. Results: Patients randomized to laser and sham laser had identical withdrawal symptom durations (median 4 days). Patients randomized to needle stimulation had a shorter duration of withdrawal symptoms (median 3 days; P = 0.019 versus sham intervention), and tended to have a shorter duration of sedative use, but these differences diminished after adjustment for baseline differences.

Conclusions: The data from this pilot trial do not suggest a relevant benefit of auricular laser acupuncture for alcohol withdrawal. A larger trial including adequate sham interventions is needed, however, to reliably determine the effectiveness of any type of auricular acupuncture in this condition. 

Alzheimer’s Cold Laser Clinical Studies

The following is a summary of some of the clinical studies that were conducted using a cold laser to treat Alzheimer’s Syndrome. These studies are presented here to demonstrate the wide uses of a cold laser in the treatment of different medical conditions.

The Efficacy of 904 nm Laser Therapy for Alzheimer’s Diseases

Kazuyoshi Zenba, Vice president of Kanagawa Acupuncture Massage Association Prof. Masayuki Inoue, Secretary of JLPLTPA

Preface: Although we had reported about the possible efficacy of low power laser therapy (LPLT) for Senile Dementia(S D) 3 times from 1993 at the annual meetings of Japan Society for Laser Medicine, there was no practically useful treatment found for Alzheimer’s disease(AD) and Parkinson disease and other Senile Dementia even after the start of elderly-care-insurance system in Japan. As we have continued above said laser therapy for SD at home care visit of elderly persons and felt very useful and effective, we would like to report about recent situation of laser therapy for AD patients.

Especially recently, the number of Alzheimer’s disease patients is increasing by the arrival of super-aged world in Japan. However the cause of this disease is not known and there is no effective treatment established at present. As to the mechanism of LPLT, its main mechanism is mostly elucidated by the progress in the field of Molecular biology and widely used for the removal of pain, decrease of swelling and treatment of wound. However its application for the treatment of Brain diseases is hardly practiced.

We have continued the treatment of Senile Dementia patients by LPL considering it as to be one of practical and effective treatment of this disease LPLT is very useful for the medical treatment of the senile dementia patients at home for the expansion of ADL, pain relief, mitigation of inflammation, prevention of bedsore, the treatment of hemiplegia in a brain blood vessel obstacle and the braking of aggravation of Alzheimer’s disease without any fear of side effects by the irradiation of LPL to the head of patients. It will be not to exaggerate to say LPLT can be one of the main treatments of senior patients at home in the near future.

Object of study: To study the practical usefulness of LPLT for the treatment of Alzheimer’s disease patients at home in terms of improvement of ADL and QOL and also for the reduction of the burden of families of the care of patients.

Method of treatment: 15 Alzheimers disease patients, 5 male, and 10 female received irradiation of LPL for 2 minutes at each point, 2-3 times a week for one year. Laser irradiation points were as follows. Acupuncture points established as effective based on a long history of Oriental medicine. (1) Acupuncture point to improve blood circulation (2) Acupuncture point for the treatment of stroke (3) Acupuncture point for adjustment of blood pressure (4) Acupuncture point for adjustment of balance of autonomous nerve.( the forehead, the right and left temple, occiput).

In addition, the method (based on papers in Russia and Armenia that intravenous LPL irradiation improved the viscosity of blood) of irradiating LPL to the place which touches the pulse of an artery under collarbone was used as an additional medical treatment point.

LPL instrument: LTU-904H made by RianCorp Pty Ltd in Australia. Laser Type: Gallium Arsenide Laser diode (Ga-As)
Laser Wavelength: 904nm
Peak Power: 5W

Purse frequency: Low 2500 Hz, High 5000Hz Purse duration: 200 nanoseconds
Average power: Low 2.5mW, High 5mW

The evaluation method: Since the improvement and maintenance of Alzheimer patients in the care at home was the major subject of this study, the impression by care workers about the situation of patients was recorded as data of patients. Evaluation items were orientation, conversation capability, cooperativeness, the lack of composure, social role and activity, clothes and dress and leisure activities. Completely no change was O point, slight effective was 1 point and clearly effective was evaluated as 2 points. Summed up values were used for the judgment of the efficacy of LPL treatment for each patient and total evaluation of the usefulness of LPL therapy for Alzheimer’s disease.

Result: Among evaluation items, cooperativeness and the lack of composure were observed as useful as an effect, the effect appeared half a year after and continued after one year and later on.

It was suggested that LPLT was useful for the improvement of orientation disturbance, normalization of clothing and the dress. Because, many families and the care workers talked us LPL was very helpful since the present condition could be maintained, without getting worse.

After the start of LPL treatment, It was reported that the coldness of the hands and legs of patients vanished and joints and muscular stiffness were also mitigated. Therefore, the joint movable region was also secured comparatively. Also in excretion care, it became very easy to carry out the care of patients. It was able to say about all patients that their expression became quiet and came to show understanding to directions of a care worker. It is suggested by this that LPLT as one of practical treatment of patients at home by the improvement of care power at home.

Discussion: Since the senile-dementia-of-Alzheimer-type has a feature of advance of condition and it was said that condition became gradually critical, we tried this treatment expecting the maintenance of condition, and examination whether there was any delay effect. It is considered to have been suggested at least there was an effect of maintaining present condition in a certain field.

About the effect over the brain of laser irradiation, it was reported at the annual meeting of Japan Society for Laser Surgery and Medicine meeting in 1991 by Jun-Ichi Nishimura et al., of Department of Physiology, Yokohama City University School of Medicine. The 780 nm wavelength and 1mW laser irradiation to the inner core of rats made the increase of cerebral blood flows at hippocampus by the amount of about 20% in average (control:15, laser:15). Although after 30 minute it was confirmed having maintained the increase of 10%. In 1992 at the same medical conference, Takayuki Obata et. al., of the same Universityreported that laser irradiation of 780nm wavelength10mW to the head surface of rats activated cranial nerves activities (control:16, laser:15).

These reports suggested the possible use of LPL treatment to Senile Dementia and other brain disease patients. Unfortunately, these findings did not much attention to medical world In Japan. However, recently a possibility that ATP and cell-membrane potential of brain neuron could be controlled specifically by the irradiation of near-infrared lasers (830nm wavelength) on the surface of heads of rats was reported by Oda- Mochizuki etc.al.Ã?Ritsumeikan University, Synchrotron Light-Life Science Center. It was suggested by this research center that the condition of Epilepsy could be stabilized by Irradiating infrared laser from outside of heads of patients and decreasing the unusual excitement of cerebral neurons and in case of cerebral infarction, the aggravation of progress of Necrosis and Apoptosis of cerebral neurons could be stopped by making stabilize the electric potential of cell membrane of cerebral neurons.

Development of future research in this field is expected as what supports scientifically the medical treatment of LPL and the result of condition improvements, such as Senile Dementia, brain blood vessel obstacles, hemiplegia and Parkinson patients. Although the

wavelength of LPL used for Examination of the validity of LPL to Senile Dementia Patients” which we announced at the annual meetings of Japan Society for Laser Surgery and Medicine meeting over three years from 1993, was 780nm and out put was10mW, and 1mw. The LPL used for this examination was of the wavelength of 904nm and the peak value of a pulse was 5W and the average output was 5mW. However, the same medical treatment effect was confirmed. Although it is thought that there was no wavelength dependability of laser to the efficacy over the Alzheimer’s diseases of LPL(780,830,904nm lasers are equally effective for pain removal and wound healing), how is it sure enough? A question remains.

By this examination, at least the following effects were confirmed. Namely (1) the advance of condition of Alzheimer’s diseases has been blocked (2) and the expression of patients changed to smiling from disinterestedness, cooperativeness came out, an understanding came to be shown to a partner (3) We received comments from many families that the care of patients became much easier than before. It is considered that the head irradiation of near-infrared laser light makes the cerebral blood flow improve, activates nerve activities and has applied brakes to the advance of the apoptosis of brain cells as animal experiments are proving. Since the medical treatment efficacy is seldom acknowledged to middle degree class and a serious patient, although it is hard to call it the fundamental cure for Alzheimer’s disease by the present method, if medical a treatment is started in early-stage and continued, it may be possible to call it one of practical cures which can stop subsequent advance of disease.

Based on this experience, collecting the newest information overseas, research results in the biology field, we will continue to study the possible LPL method for the dramatic cure of Alzheimer’s diseases by changing the wavelength of the laser, the output, and the irradiation method and also combination with other therapies. 

Application of laser acupuncture in the treatment of periarthritis humeroscapularis

Branka Nikolic,. spec. Sport’s med. Address Zavod za zdravstvenu zastitu radnika ZTP-a “Beograd“, 11000 BeogradSlobodana Penezica Dr. 23 Yugoslavia

The effect of low intensity semi conductor laser was used as treatment methods for periarthritis humeroscapularis. The CC laser (Computer Controlled laser) was applied. Laser therapy has positive biological effects and antiinflamatory, antioedema effects and analgesia. We treated 18 patients with periarthritis humeroscapularis, 14 were female patients.

The laser was locally applied at the AC points Sj 14, Sj 15, Li 15, Li 10, Sj 5, Si 3, three times a week for the first week and twice a week for the second and the third week. After first treatment 12 of patients had pain – alleviating effect. After 6-7 treatments all had pain – alleviating effect and complete recovery of shoulder’s motor activity. Low intensity therapy has its place for treatment of periarthritis humeroscapularis.

Treatment of the acute Periarthritis humeroscapular with laserpuncture.

Odalys Gonzales Ãlvarez, Main Educational Clinic of Urgencies “Antonio Maceo”, Cerro Municipality, Havana City.

The periarthritis humeroscapular is a syndrome that contains very precise affections: the bursitis, the calcified tendinitis of supraespinoso, the bicipital tendinitis, among others. Pain and limitation of the joint movements of the shoulder characterize it. The treatment with laser of low power can produce resolution of the lesion, whenever it is made in early phases of the disease. In this study we propose the use of the laserpuncture, due to our accumulated experience in the treatment of these affection in acute phase, with acupuncture. A prospective study was carried out during 2 years (1997 – 1999), where 62 patients were selected because they accomplished the Approaches of Inclusion for the study. The sample was divided by aleatory assignment in 2 Groups of Treatment. Th study Group I was treated with laserpuncture, using Cuban laser equipment of HeNe of 632,8 nm and a dose of joule/cm2 was applied, and the Control Group II was treated with acupuncture needles. The conventional medical treatment was suspended. Daily sessions were given from Monday to Friday, for two weeks, until a total of 10. Both techniques demonstrated to be effective in the treatment of these affections, improving the clinical and radiological symptoms significantly when the treatment sessions was concluded. The patients accepted the laserpuncture better because of its painless character, less time of application, and the absence of bleeding and stress. 

Arteriosclerosis Cold Laser Clinical Studies

The following is a summary of some of the clinical studies that were conducted using cold laser to treat Arteriosclerosis. These studies are presented here to demonstrate the wide uses of a cold lasers in the treatment of different medical conditions.

Low Level Laser Therapy in the Treatment of Arteriosclerosis of the Lower Limbs

Attia M.A., EI-Kashef H. Laser center, Alhikmah Hospital, EI-Mansoura, Egypt Physics Department, Faculty of Science, Tanta Egypt

Abstract: Twenty patients with arteriosclerosis in the lower limbs were treated by low level laser therapy with lumbar paravertebral application a 20mW continuous wave He-Ne laser(632nm> and simultaneously a 250mW continuous diode laser (830 nm> was applied transcutaneously to the lumbar region by the scanner for 30 minutes 6 days per week for 2 months. The mean value of percentage of success was 87.2%. The results of the study indicate that low level laser therapy can influence beneficially arteriosclerosis in the lower limbs which is generally difficult to treat.

Introduction: Arteriosclerosis is a chronic obliterative disease affecting the lower portion of the aorta, its main branches and the arteries supplying the extremities. The condition occurs predominantly in patients between the ages of 45 and 70 years. It is present much more frequently in males than in females. It may be caused by an error in the metabolism of lipids (Oliver, 1955). Buck (1959) believed that the abnormal vascularization of the arterial wall has also been proposed as a significant factor in the development of the disease. Also, the Question of heredity as a factor in the pathogenesis of the disease must be raised (McKusick, 1958). The patient complains of pain in the extremities typical of intermittent calculation and difficulty in walking, finally rest pain is experienced particularly at night, characterized by a sensation of coldness or burning, hyperesthesia and tingling (Abramson, 1974). The purpose of the study was to evaluate the efficacy of low power laser in the treatment of arteriosclerosis. Materials and methods Twenty patients with arteriosclerosis of the lower limbs from the out-patient clinic of the General medicine Department of both Tanta University Hospital and Alhikmah Hospital, Mansoura were included in the study. The male to female ratio was 4:1. The ages ranged from 45 to 69 years. The duration of symptoms ranged from one to 8 months (table 1). The patients were experiencing pain in both calf muscles after walking distances (claudication distance) ranging from 200 to 500 meters. Three patients experienced rest pain at night. Clinical examinations revealed palpable walls of superficial arteries, particularly the dorsalis pedis. In the study, the claudication distance was determined for every patient in meters prior to treatment. Control normal individuals within the patients’ age group walked an average of 1500 meters without experiencing calf pain.

Results: Pain was relieved in 16 patients who received 3 to 7 courses of treatment. Eight patients were able to walk 1500 meters without experiencing any pain in the calf muscles, hence their rate of success was 100%. The remaining patients showed improvement from 73% to 95 (table 2). Three patients discontinued treatment for reasons not related to the treatment. One patient, age 69, with 4 months duration and claudication distance of 240 meters showed no improvement after receiving 7 courses of treatment. The mean rate of success was 87.2%.

Discussion: It was not easy to discuss the treatment of arteriosclerosis and only in the last 20 years have advancements been made. Although physical therapy is only part of the total management of arteriosclerosis of the lower limbs, it could play an important role in the management. No references were found in literature concentrating the use of low level laser therapy in the management of arteriosclerosis. This work has shown that low level laser therapy is capable of increasing the circulation in muscles and, with prolonged treatment, a considerable significant improvement in circulation can be achieved in cases of arteriosclerosis. Low level laser therapy not only influences the superficial circulation but also deep circulation. The mechanism of this action is probably due to the sympathetic effect, but it could also be used on the action of normal skin excitation. It can be assumed that apart from the increase in the pain threshold (Nikolova, 1968) and muscular excitation threshold, there is also an increase in the threshold for sympathicus stimulation (Pabst, 1960). By this paravertebral application, we must concede more importance to the sympathicus action, than to the direct action on the vasometer assumed by some authors (Monode, 1951; Zinn, 1956). The results obtained in the treatment of arteriosclerosis by means of low level laser therapy are certainly based on a number of different effects. First, there is sympathetic action. Also, the analgesic action of this type of current deserves special attention, since it is the cause of the subjective improvement which frequently precedes the objective improvement in cases of sever arteriosclerosis when pain is felt while resting. Also, rest pain did not mean the presence of irreversible pathologic change as the three patients with rest pain showed a good degree of improvement. The patient who showed no improvement after 7 courses of treatment may have an irreversible pathologic change and, this age of 69 years may have also contributed to the failure of treatment.

Conclusion: Low level laser therapy may be considered in the treatment of peripheral arteriosclerosis. 

Arthritis-Cervical Cold Laser Clinical Studies

The following is a summary of some of the clinical studies that were conducted using cold laser to treat Arthritis-Cervical. These studies are presented here to demonstrate the wide uses of a cold lasers in the treatment of different medical conditions.

The clinical efficacy of low-power laser therapy (lllt) on pain and function in cervical osteoarthritis.

Ozdemir F, Birtane M, Kokino S. Department of Physical Therapy and Rehabilitation, Medical Faculty of Trakya University, Edirne, Turkey.
Clin Rheumatol 2001;20(3):181-4

Pain is a major symptom in cervical osteoarthritis (COA). Low-power laser (LLLT) therapy has been claimed to reduce pain in musculoskeletal pathologies, but there have been concerns about this point. The aim of this study was to evaluate the analgesic efficacy of LPL therapy and related functional changes in COA. Sixty patients between 20 and 65 years of age with clinically and radiologically diagnosed COA were included in the study. They were randomised into two equal groups according to the therapies applied, either with LPL or placebo laser. Patients in each group were investigated blindly in terms of pain and pain-related physical findings, such as increased paravertebral muscle spasm, loss of lordosis and range of neck motion restriction before and after therapy. Functional improvements were also evaluated. Pain, paravertebral muscle spasm, lordosis angle, the range of neck motion and function were observed to improve significantly in the LPL group, but no improvement was found in the placebo group. LPL seems to be successful in relieving pain and improving function in osteoarthritic diseases.

Arthritis-Rheumatoid Cold Laser Clinical Studies

The following is a summary of some of the clinical studies that were conducted using a cold laser to treat Arthritis-Rheumatoid. These studies are presented here to demonstrate the wide uses of cold lasers in the treatment of different medical conditions.

50 year old female patient diagnosed as having Class 3 RA inflammatory phase of steady development. Probes used in treatments were 820nm (50mW) and 31 cluster probe with the 820nm probe being administered on each interphalangeal joint (30 seconds per point) followed by the cluster (one minute) over the whole hand. The pulsing frequency was 20 Hz and administration of treatment three times per week. The total number of treatments was 12 over a one month period.

You can see the improvement in the treatment of the condition and the third picture shows the progress at 13 treatments. After 6 months follow up it was found the initial inflammation was beginning to creep back, but the overall condition was much improved in comparison with the original status of the patient with no LLLT treatment.

Beneficial Effects of Laser Therapy in the Early Stages of Rheumatoid Arthritis Onset

Contantin Ailioaie1, Laura Marinela Lupusoru-Ailioaie2 1Medical Office for Laser Therapy, 1 Bistrita, B10-2, 6600-Iassy, Romania, 2AI.I. Cuza University, Dept. of Medical Physics, Iassy, Romania
LLLT Original Articles, Laser therapy Volume. 11-2, pg.79

The purpose of this study was to determine the effects of laser therapy in pain reduction and/or recovery of patients at the onset of Rheumatoid Arthritis (RA), compared with the traditional non-steroidal anti-inflammatory drugs (NSAIDs). Fifty-nine patients with RA of 6-12 months duration were included in the study. The patients were divided into 3 groups: Group 1 (21 patients) received laser therapy; Group 2 (18 patients) was submitted to placebo laser therapy and NSAIDs medication; Group 3 (20 patients) was treated only with NSAIDs. Physical therapy was instituted in all three groups. GaAIAs diode laser of 830 nm wavelength and 200mW maximum output power was used. Group 1 received laser therapy once each day, eight days per month, for a total of 32 treatments during a four-month period. The parameters used were 2-4 J/cm2 energy density, and a frequency of 5 Hz or 10 Hz depending on the number and severity of pain in the affected joints. Placebo laser treatment was given to group 2. the functional activity score, the acute pain phase reactants (ESR and C-reactive protein), T-lymphocytes and NK (natural killer) â?? cells were estimated. Synovial biopsies and Magnetic Resonance Imaging (MRI) of the synovial membrane were performed as well. The analysis of the clinical and biological parameters at the end of treatment showed a statistically significant decrease of duration of morning stiffness, of pain at rest and during movements, and improved acute phase reactants.

The overall efficacy rate in these studies was 86% in the first group, 50% in the laser placebo group and 40% in the NSAIDs-treated third group. After four months of treatment, our investigations showed that 830 nm infrared laser therapy promoted the restoration of function, relieving pain and limited the complications of RA.

The Effects of Laser Therapy in the Early Stages of Rheumatoid Arthritis Onset

C. Ailioaie, M. D.

Medical Office for Laser Therapy, Iassy, RO
Laura Marinela Lupusoru-Ailioaie, M. D.
“Al.I.Cuza” University, Dept. of Medical Physics, Iassy, RO

1.PURPOSE:

To study the effects of laser therapy, in comparison with other modality trials (NSAIDs), at the onset of (RA).

2.SUBJECTS and METHODS:

In the study 59 patients were included, in the first 6 – 12 months from RA onset. The patients were divided into three groups: Group 1 (21 patients) received laser therapy; Group 2 (18 patients) was submitted to placebo laser therapy and NSAIDs medication; Group 3 (20 patients) was treated only with NSAIDs. Physical therapy was instituted in all three groups.

A GaAIAs diode laser (830 nm, maximum output power 200 mW) was used. During 4 months, courses of laser therapy – once daily for 8 days, monthly – were administered to Group 1 and laser placebo Group 2. The density of energy (2 – 4 J/cm2) and frequency (5 Hz or 10 Hz) were dependent on the number and severity of pain in affected joints.

3.RESULTS:

The analysis of the clinical and biological parameters at the end of treatment showed a statistical significant decrease of duration of morning stiffness of pain at rest and during movements and improved acute phase reactants. The overall efficacy rate in these studies was 86% in group 1, 50% in the placebo laser group, and 40% in group 3.

4.DISCUSSION and CONCLUSIONS:

After 4 months of treatment, our investigations showed that infra-red laser therapy was able to restore function, to relieve pain and to avoid the complications of the disease or NSAIDs therapy (digestive or renal) at RA onset,beeing the most perspective modality of treatment.

The effect of laser therapy in complex treatment of patients with rheumatoid arthritis.

Korolkova O M et al.

115 patients with rheumatoid arthritis (RA) of II-III degrees were treated with basic RA medications and infrared laser. In a control group of 20 patients only basic medication was given. 10 areas of the body were irradiated daily, increasing the dose every day during a period of 8-10 days. The effectiveness of the therapy was controlled through laboratory tests on i.a. inflammatory agents and the activity of lipid peroxidation. The results were statistically significant. The best effect was found in patients with degree II RA. Steroid medication could be reduced 8-10 days earlier in this group of patients and in some cases the medication could even be excluded. Degree III patients had a more moderate benefit of the laser treatment.

The interauricular laser therapy of rheumatoid arthritis.

Sidorov-V-D, Mamiliaeva-D-R, Gontar-E-V, Reformatskaia-SIu.Vopr-Kurortol-Fizioter-Lech-Fiz-Kult. 1999; (3): 35-43.

Investigations have proved the ability of interauricular low- intensity infrared laser therapy (0.89 nm, 7.6 J/cm) to produce anti- inflammatory,immunomodulating action in patients with rheumatoid arthritis. The method has selective, pathogenetically directed immunomodulating effect the mechanism of which is similar to that of basic antirheumatic drugs and of intravenous laser radiation of blood. This laser therapy can be used as an alternative to intravenous blood radiation being superior as a noninvasive method.Interauricular laser therapy can potentiate the effects of nonsteroid anti-inflammatory drugs, cytostatics and diminish their side effects.

CLINICAL APPLICATION OF GaAIAs 830 NM DIODE LASER IN TREATMENT OF RHEUMATOID ARTHRITIS

Kanji Asada, Yasutaka Yutani, Akira Sakawa and Akira Shimazu. DepartmentofOrthopaedic Surgery, Osaka City UniversityMedical School, Japan

The authors have been involved in the treatment of rheumatoid arthritis (RA), in particular chronic poly-arthritis and the associated pain complaints. The biggest problem facing such patients is joint contracture, leading to bony ankylosis. This in turn severely restricts the range of motion (ROM) of the RA-affected joints, thereby seriously restricting the patient’s quality of life (QOL). The authors have determined that in these cases, daily rehabilitation practice is necessary to maintain the patient’s QOL at a reasonable level. The greatest problem in the rehabilitation practice is the severe pain associated with RA-affected joints, which inhibits restoration of mobility and improved ROM. LLLT or low reactive level laser therapy has been recognized in the literature as having been effective in pain removal and attenuation. The authors accordingly designed a clinical trial to assess the effectiveness of LLLT in RA related pain (subjective self-assessment) and ROM improvement (objective documented data). From July 1988 to June 1990, 170 patients with a total of 411 affected joints were treated using a GaAlAs diode laser system (830 nm, 60 mW C/W). Patients mean age was 61 years, with a ratio of males: females of 1: 5.25 (16%: 84%). Effectiveness was graded under three categories: excellent (remarkable improvement), good (clearly apparent improvement), and unchanged (little or no improvement). For pain attenuation, scores were: excellent&emdash;59.6%; good&emdash;30.4%; unchanged&emdash;10%. For ROM improvement the scores were: excellent&emdash;12.6%; good&emdash;43.7%; unchanged&emdash;43.7%. This gave a total effective rating for pain attenuation of 90%, and for ROM improvement of 56.3%.

LASER THERAPY OF RHEUMATOID ARTHRITIS.

Goldman JA, Chiapella J, Casey H, Bass N, Graham J, McClatcheyW, Dronavalli RV, Brown R, Bennett WJ, Miller SB, Wilson CH, Pearson B, Haun C, Persinski L, Huey H, MuckerheideM

Thirty people with classical or definite rheumatoid arthritis received laser exposure to a Q- switch neodymium laser that operated at 1.06 micrometer with an output of 15 joules/cm2 for 30 nsec. One hand was lased attheproximalinterphalangeal (PIP) and metacarpal phalangeal (MCP) joints, whereas the other hand was sham lased. The patient, physician, and occupational therapy evaluators did not know which hand was being lased. Twenty- one patients noted improvement of both their MCP and PIP joints of both hands during laser therapy. Twenty-seven noted improvement of their PIP joints and 26 noted improvement of the MCP joints during therapy. Heat, erythema, pain, swelling, and tenderness all improved with time in both hands, but the lased hand had more significant improvement in erythema and pain. There was also significant improvement in grasp and tip pressure on the lased side. The level of circulating immune complexes as measured by platelet aggregation decreased during lasing. The improvement may be related to laser exposure. The exact role that laser radiation has upon rheumatoid arthritis and its mechanism of action remain.

LASER THERAPY IN RHEUMATOLOGY

Judit OrtutayM.D., Klara Barabas M.D., Ph.D., *Adam Mester MD National Institute of Rheumatology and Physiotherapy, Budapest *Semmelweis University, Faculty of Medicine, Dept. of Diagnostic Radiology and Oncotherapy, National Laser Therapy Centre, Peterfy Sandor Teaching Hospital, Budapest .

Barabas irradiated first the joints of rheumatoid arthritis (RA) patients without skin ulcer. In the first open study objectively the range of motion and circumference of the treated joints were measured, Ritchie index as semiobjective parameter, subjective parameters as joint tenderness and pain on a visual analogous scale (VAS) were registered. The walking time was registered as a functional disability parameter. Laboratory activity parameters and the 99mTechnetium index was measured. The second part of the clinical study was double blinded, Infra Red (10mWand 100 mW) lasers were used versus dummy devices with the same outlook. The third part of the study were in vitro experiments. Synovial membranes of rheumatoid arthritis patients The DNA/RNA ratio of the RA group was compared to the control group. Significant difference was detected between the two groups. The fourth phase of clinical studies was to detect the effects of laser irradiation in other rheumatic diseases: psoriatic arthritis,sacroileitis, osteoarthritis, entesopathy, tenosynovitis, bursitis calcarea, fibromyalgia, localised muscle spasm, periarthritis humeroscapularis etc. The different wavelengths (604, 630, 660, 670, 690, 750, 780, 790, 820, 830, 904, 1053, 1219 nm,) were compared (30 – 100 mW) with other physiotherapy modalities, like ultrasound. Acknowledgement: The Central Research Institute of the Hungarian Academy of Sciences and LASOTRONIC AG (Switzerland) was helping the research.

Low level laser therapy (classes I, II and III) in the treatment of rheumatoid arthritis.

Brosseau L, Welch V, Wells G, deBie R, Gam A, Harman K, Morin M, Shea B,Tugwell P. School of Rehabilitation Sciences, Faculty of Health Sciences, University of Ottawa, 451 Smyth Road, Ottawa, Ontario, Canada, K1H-8M5.

BACKGROUND: Rheumatoid arthritis (RA) affects a large proportion of the population. Low Level Laser Therapy (LLLT) was introduced as an alternative non-invasive treatment for RA about 10 years ago. LLLT is a light source that generates extremely pure light, of a single wavelength. The effect is not thermal, but rather related to photochemical reactions in the cells. The effectivenessofLLLT for rheumatoid arthritis is still controversial.

OBJECTIVES: To assess the effectiveness of LLLT in the treatment of RA.

SEARCH STRATEGY: We searched MEDLINE, EMBASE, the registries of the Cochrane Musculoskeletal group and the field of Rehabilitation and Related Therapies as well as the Cochrane Controlled Trials Register up to January 30, 2000.

SELECTION CRITERIA: Following an a priori