You don’t have to live in pain
What is Safe Laser?
Safe Laser is a unique, highly effective, patented medical device developed by Hungarian scientists. It reduces pain and inflammation, speeds up the body’s self-healing processes, increases metabolism and initiates cell regeneration.
“My pain was significantly relieved by the laser after the first time I used it (…) after one week I was able to use both of my hands properly. (M. Bea)”
In what cases has it been proven useful medically?
Pain relief, joint, muscle inflammation, tendonitis, rheumatic pains, cartilage wear -and -tear
Muscle spasms, bruises, blood clots, bone fractures, muscle and ligament injuries
Epithelial injury, abrasions, cuts, postoperative scars, bedsores, herpes/cold sores
Healing ulcerative wounds
Tinnitus, hearing loss
Relieves and terminates symptoms
Toothache, inflammation, gingivitis and arthropy, oral mucosal injuries, ulcers, aphthae, pain relief during orthodontics and faster adjustment of the teeth, thus shortening the time of the orthodontics procedure
Acne, inflammation, wrinkles, rosacea
KNEE PAIN AND PAIN OF ARTHROSIS RELIEVED
“I can walk up to the second floor without a problem and grabbing the rail and my pain level is minimal.”
HEALING OF A HAND INJURY AND FLU
“After the second treatment my hand was completely asymptomatic (…) After two treatments I healed from the flu as well, and after 15 minutes the swelling went down on my throat.”
TREATMENT OF A BONE SPUR
“I felt the pain easing up day by day. After a week of treatment the sharp pain I had gotten used to disappeared. After 5 weeks I couldn’t even tell where the bone spur had been.”
Unique features and benefits
The brilliance of safe laser is that it is perfectly safe for the eyes thanks to its special, patented lens system. Thus it can be used at home without medical supervision
NO SIDE EFFECTS
Soft laser therapy can’t be overdone. It has been shown to have no side effects in the past 60 years, only positive ones
CAN’T BE OVERDONE
Soft lasers have a stimulating effect on both the weaker and properly functioning cells as well and it can not be overdone
Soft lasers do not only promote healing on the level of the skin but go deeper in the underlying tissues and in turn their effects reach further
MAY BE USED AT HOME
With Safe laser you can heal in your home, no need to go for treatments. It’s handy, you can use it any time and combine it with other therapies.
MAY HELP WITH A VAST ARRAY OF CONDITIONS
Safe laser, as it stimulates the body’s ability to heal (biostimulation), can be used for a wide variety of ailments. Additionally, every family member will have the possibility to use it, therefore it’s a great investment in the health of the family as well.
ELIMINATION OF FOOT PAIN
“Finally I was able to sleep through the night. I have been suffering for 4 years and with one treatment the pain was gone.”
HEALING OF LIGAMENT
“The injury was healed in 3 days.”
HEALING OF A BONE FRACTURE
“I had been told that I would need at least half a year to recover. In September no ossification started and by the end of October my bones healed nicely.”
The father of Safe laser
Safe Laser is a Hungarian patent developed after 40 years of laser research by Dr. Károly Rózsa, Doctor of the Hungarian Academy of Sciences.
The Safe Laser is (a special type of ‘soft laser’ or ‘cold laser’ ) a device which has the power of hospital lasers used in healing for 50 years, but is not dangerous to the eye because it is equipped with a special optical lense system. As a result, it can be used safely at home, no need for a specialist – you can do the treatment too.
What do doctors have to say about it?
Comparison of Safe Laser devices
Safe Laser 150 Red
SL150’s red laser light gets into the body approximately up to 3-4 cm deep under the skin surface. Therefore it may play a significant role in the treatment of lesions, inflammations and pain relief. Designed for versatile use, the accessories allow several types of treatment:
- General purpose laser on any skin surface
- With the nostril head the nostril can be treated (accessory)
- With fiber optic head the ears and mouth can be treated effectively (may be ordered separately)
Special lotions may be more effectively applied onto the skin with the special cosmetic head (may be ordered separately)
Power: 150 mW continuous (scattered radiation)
Wavelength: 660 nm (red light)
Safe Laser 500 Infra
Infra laser light is less absorbed by body tissues so it can penetrate deeper layers (its biological effect is up to 8 cm deep). Thus these lasers may be used perfectly in the therapy of musculoskeletal diseases for example, where their pain relief and anti-inflammatory effects are in full use while accelerating the healing of muscles, tendons and joints. In higher doses they have shown good results in the regeneration of cartilage surfaces and cartilages.
Power: 500mW continuous (scattered radiation)
Wavelength: 808nm (infrared) + 1 630nm LED
Safe Laser 1800 Infra
Unique level of healing, incredible level of pain relief and cell regeneration. How is it possible?
Due to the unique optics and the magnitude of photon density.
It is not the laser light that cures but the biological response to that light that it triggers in the cells is essential. The extent of the biological response depends on the degree of excitation, and the degree of excitation depends on photon density. It does matter if 1,000 photons or 1 million photons arrive at the electrons around the nucleus. They push the electron into a much higher level of orbital rendering the biological reaction much greater.
That’s why if you treat with the SL 500 for even 3 hours, you might not get the effect you get with the SL 1800 in 5 minutes. A candle is able to give off the power of a campfire in half a year, but it will never cook goulash soup in a cauldron.
Wavelength: 808nm (infrared) + 4 630nm LEDs
Safe Laser options for patients in London
Book an appointment and experience how quickly your pain subsides with Safe Laser.
SERIES OF TREATMENTS
In our treatment room within the London Massage Clinic, Willesden Green you can request appointments for treatment with the most powerful (SL1800) Safe Laser device.
PURCHASING A SAFE LASER DEVICE
After purchase we will mail your device via post (including a 1-year warranty). In Greater London we can deliver it to you in person, show and teach you how to use it effectively.
We support Safe Laser owners answering questions by email or phone and are in the process of creating tutorials for its use.
Safe Laser options for patients in London
Our intention is to create a Safe Laser operator network in England
Get your Safe Laser 1800, treat patients and we will direct inquiries from your area to you. This may mean professional development and additional income opportunity for you and faster recovery for your clients.
Contact and Inquiry
Lucien del Mar
Willesden Green, North West London, Zone 2
 Mester E.: Biomedical studies on the effects of the laser beam. Doctoral dissertation, Budapest, 1971
 Szabó Gy.: Laser Therapy of the ear, nose and throat. Candidate’s dissertation, Budapest, 1993
 Sohajda Mária: Comparison of the effect of soft lasers in chronic pain syndromes. Anniversary publication of City Hospital, Sátoraljaújhely, 1995
 Horváth Z, Donkó Z.: Possible ab initio explanation of laser „biostimulation” effect, Las. Appl. In Med. and Surgery, Bologna, 1992
 Neduchalova, Kylov: Use of laser in comprehensive therapy of musculoskeletal disorders in children, Low-level Laser Therapy, January, 2001
 Simunovic: Lasers in Medicine and Dentistry, EMLA, 2000
 Wilden, Ellerbtock: Az LLLT hatékonysága a belső fül kezelésében Lágylézer Terápia, 2001. április
 Riberio: Effects of low-intensity polarized visible laser radiation on skin burns: a light microscopy study, J. of Cl. Laser Medicine & Surg. 2004, 1Center for Lasers and Applications, IPEN-CNEN/SP, Cidade Universitária, Department of Histology, ICB/USP, Cidade Universitária, São Paulo, Brazil.
 Jan Tuner és Lars Hode: Laser Therapy in Dentistry and Medicine (Prima Books Sweden, 1996, 1–235.  Danhof G.: Lasertherapie in der Sportmedizin und Orthopadie, WBV Bio.-Med Verlag, Schorndorf, 1993  Martin P, Leibovich S.: Inflammatory cells during wound repair: the good, the bad and the ugly. Trends Cell Biol 15(11):599-606. 2005
 Enwemeka CS, Parker JC, Dowdy DC, Harkness EE, Sanford LE, Woodruff LD.: The efficacy of low-power lasers in tissue repair and pain control: a meta-analysis study. Photomed Laser Surg 2004; 22: 323–29 (CI=110, IF=1.785)
 Bjordal JM, Lopes-Martins RA, Joensen J.: A systematic review with procedural assessments and meta- analysis of low level laser therapy in lateral elbow tendinopathy (tennis elbow). BMC Musculoskelet Disord 2008; 9: 75
 Bjerring P, Clement M, Heickendorff L, Lybecker H, Kiernan M.: Dermal collagen production following irradiation by dye laser broadband light source. J Cosmet Laser Ther 4:39-43 2002 (CI=4, IF=0.857)
 Chow RT, Barnsley L.: Systematic review of the literature of low-level laser therapy (LLLT) in the management of neck pain. Lasers Surg Med 37:46-52 2005 (CI=88, IF=2.455)
 Fulop MA, Dhimmer S, Deluca JR, Johanson DD, Lenz RV, Patel KB, Douris PC, Enwemeka CS.: A meta- analysis of the efficacy of phototherapy in tissue repair. Photomed Laser Surg 2009 (CI=10, IF=1.756)
 Gáspár L., Kásler M.: Laserek az orvosi gyakorlatban. Springer Hungarica, 1-252, Budapest 1993
 Horváth Judit dr.: Lágylézerterápia a gyakorlatban, Wantex – Medical, 1993
 Sommer: Biostimulatory Windows in Low-intensity laser activation, Journal of clinical laser medicine and surgery 2001 Central Institute of Biomedical Engineering, Department of Biomaterials, ENSOMA- Laboratory, University of Ulm, Germany;
 Gür: Efficacy of low power laser therapy in Fibromyalgia: a single blind, placebo controlled trial, Lasers Medical Science 2002, Physical Medicine and Rehabilitation, School of Medicine, Dicle University, Diyarbakir, Turkey
 Dyson M.: Adjuvant therapies: ultrasound, laser therapy, electrical stimulation, hyperbaric oxygen and Vacuum-assisted closure. Leg Ulcers: a problem-based learning approach. Edited by Morison MJ, MoffaI CJ, Franks PJ, 429-451.Mosby Elsevier, Edinburgh. 2007
 Soriano F, Rios R, Pedrola M.: Acute cervical pain is relieved with Gallium Arsenide (GaAs) laser radiation. A double blind preliminary study. Laser Therapy 1996
 Aimbire F, Albertini R, Pacheco MTT.: Low-level laser therapy induces dose-dependent reduction of TNFα levels in acute inflammation. Photomed Laser Surg 2006; 24: 33–37. (CI=103, IF=1.732)
 Hawkins D, Abrahamse H.: Effect of multiple exposures of low-level laser therapy on the cellular responses of human skin fibroblasts. Photomed Laser Surg 24:705-714 2006 (CI=87, IF=1.732)
 Tuner J, Hode L.: Medical Indications: Wound Healing, in ‘Laser Therapy: Clinical Practice and Scientific Background’ Prima Books:Grangesberg, pp.189- 196 2002
 Brosseau L, Robinson V, Wells G.: Low-level laser therapy (classes I, II and III) for treating rheumatoid arthritis. Cochrane Database Syst Rev 2005; 4: CD002049.
 Lampl Y, Zivin JA, Fisher M, Lew R, Welin L, Dahlöf B, Borenstein P, Andersson B, Perez J et al.: Infrared Laser Therapy for Ischemic Stroke: A New Treatment Strategy: Results of the NeuroThera Effectiveness and Safety Trial-1 (NEST-1). Stroke. 2007; 38: 1843-1849
 Lapchak P, Wei J and Zivin J. Transcranial Infrared Laser Therapy Improves Clinical Rating Scores AÅer Embolic Strokes in rabbits. Stroke. 2004; 35: 1985-1988
 Yaakobi T, Shoshany Y, Levkovitz S, Rubin O, Ben Haim SA, Oron U. Long-term effect of low energy laser irradiation on infarction and reper- fusion injury in the rat heart. J Appl Physiol. 2001;90:2411–2419.
 Leung MC, Lo SC, Siu FK, So KF. Treatment of experimentally induced transient cerebral ischemia with low energy laser inhibits nitric oxide synthase activity and up-regulates the expression of transforming growth factor-beta 1. Lasers Surg Med. 2002;31:283–288. (CI=110, IF=1.785)
 Boonswang NA, Chicchi M, Lukachek A, Curtiss D., A new treatment protocol using photo- biomodulation and muscle/bone/joint recovery techniques having a dramatic effect on a stroke patient’s recovery: a new weapon for clinicians. Cardiothoracic Surgery Department, Easton Hospital, Easton, Pennsylvania, USA. 2012 Sep 11
 Huang YY, Gupta A, Vecchio D, de Arce VJ, Huang SF, Xuan W, Hamblin MR.: Transcranial low level laser (light) therapy for traumatic brain injury. Wellman Center for Photomedicine, MassachuseIs General Hospital, Boston, MA 02114, USA. J Biophotonics. 2012 Nov.5.
 Hashmi JT, Huang YY, Osmani BZ, Sharma SK, Naeser MA, Hamblin MR.: Role of low-level laser therapy in neurorehabilitation. – Wellman Center for Photomedicine, MassachuseIs General Hospital, Department of Dermatology, Harvard Medical School, Boston, MA 02114, USA. – 2010 American Academy of Physical Medicine and Rehabilitation. (CI=207, IF=1.731)
 Yaakobi T, Shoshany Y, Levkovitz S, Rubin O, Ben Haim SA, and Oron U. 2001. Long-term effect of low energy laser irradiation on infarction and reperfusion injury in the rat heart. J Appl Physiol 90:2411-9.
 Kemalov R, „Effect of low-intensity laser radiation on lipid metabolism and hemostasis in patients with myocardial infarction” Vopr Kurortol Fizioter Lech Fiz Kult., (2):6-8, (2006).
 Kolpakova M, Vlasov T, Petrishchev N, Vislobokov A Sechenov Ma, „Effect of the He-Ne laser irradiation on resistance of the isolated heart to the ischemic and reperfusion injury”Ross Fiziol Zh Im I. 89(12), 1496-502 (2003)
 Burduli N, Gazdanova A, „Laser Doppler fluometry in assessment of endothelium state in patients with coronary heart disease and its correction by intravenous laser irradiation of blood” Klin Med (Mosk) 86(6), 44-7 (2008).
 Volotovskaia A, Ulashchik V, Filipovich V, „Antioxidant action and therapeutic efficacy of laser irradiation of blood in patients with ischemic heart disease.” Vopr Kurortol Fizioter Lech Fiz Kult. (2003).
 T V Kovalyova, A V Farvayeva, L T Pimenov, S M Denisov, „Dynamics of hyperlipidemia and peripheral blood flow in patients with diabetes mellitus aÅer the course of combined laser therapy in ambulatory polyclinic conditions”, Medical Academy, 2nd Municipal Out-Patient Department, Izhevsk, RF Russian Medical University, 13th State Clinic Hospital, Moscow, RF.
 Cheng Y, Liu H, Yin T and Long T (2005). He-Ne laser treatment of diabetic peripheral neuropathy observed. Chinese Rehabiliation Medicine 20(4). ISSN: 1001-1242 (2005) -04-0286-02
 Naeser M, Hamblin MR (2011). Potential for Transcranial Laser or LED Therapy to Treat Stroke, Traumatic Brain Injury, and Neurodegenerative Disease. Photomedicine and Laser Surgery. 29(7)
 Tooke JE, „Microcirculation and diabetes”, British Medical Bulletin 45 (1989): 206-223.
 Bauersachs RM, Shaw SJ, Zeidler A, Meiselman HJ (1989). Red Blood Cell Aggregation and Blood Viscoeleasticity in Poorly Controlled Type 2 Diabetes Mellitus. Clinical Hemorheology 9: 935-952.
 Makela AM. Theoretical backgrounds for light applications in diabetes. Laser Florence 2004.
 Landyshev IuS, Avdeeva NV, Goborov ND, Krasavina NP, Tikhonova GA, Tkacheva SI.: Efficacy Of Low Intensity Laser Irradiation And Sodium Nedocromil In The Complex Treatment Of Patients With Bronchial Asthma, Ter Arkh. 2002;74(3):25-8.
 Zivin JA, Albers GW, Bornstein N, Chippendale T, Dahlof B, Devlin T, et al. Effectiveness and safety of transcranial laser therapy for acute ischemic stroke. Stroke. 2009 Apr;40(4):1359-64. Epub 2009 Feb 20.
 Cuda D, De Caria A. Effectiveness of combined counseling and low-level laser stimulation in the treatment of disturbing chronic tinnitus. Int Tinnitus J. 2008;14(2):175-80.
 Teggi R, Bellini C, Piccioni LO, Palonta F, Bussi M. Transmeatal low-level laser therapy for chronic tinnitus with cochlear dysfunction. Audiol Neurootol. 2009;14(2):115-20. Epub 2008 Oct 9.
 Gungor A, Dogru S, Cincik H, Erkul E, Poyrazoglu E. Effectiveness of transmeatal low power laser irradiation for chronic tinnitus. J Laryngol Otol. 2008 May;122(5):447-51. Epub 2007 Jul 12.
 C. Ailioaie, and L. Ailioaie, „The treatment of bronchial asthma with low level laser in aIack-free period at children” Proceeding of SPIE, 4166, pp. 303-308, 2000.
 IIai Neuman, MD and Yehuda Finkelstein, MD, „Narrow-band red light phototherapy in perennial allergic rhinitis and nasal polyposis” Department of Allergy & Asthma Hasharon Hospital Israel
 Yasuyo Maegawa MD, Toshiyuki Itoh MD, PhD,*, Toyoshi Hosokawa MD, PhD, Kazuhiro Yaegashi MD, PhD, Mayumi Nishi MD, PhD: Effects of near-infrared low-level laser irradiation on microcirculation – Lasers in Surgery and Medicine Volume 27, Issue 5, pages 427–437, 2000
 Pinheiro AL, Oliveira MG, Martins PP, Ramalho LM, Oliveira MA, Silva Júnior AN, et al. Biomodulation effects of LLLT on bone regeneration. Laser Ther 2001;13:73-9.
 Fujimoto K, Kiyosaki T, Mitsui N, Mayahara K, Omasa S, Suzuki N, et al.. Low-intensity laser irradiation stimulates mineralization via increased BMPs in MC3T3-E1 cells. Lasers Surg Med 2010;42:519-526.
 Simunovic, Z.:Laser therapy in the diseases of ear, nose and throat. p.381-383. In Laser in Medicine and Dentistry. Editor Zlatko Simunovic, Rijeka: Vitagraf 2000, 544 pgs.
 Hubacek, J.: Experience with the Use of LLLT in ENT Medicine, Laser Partner 22/2000, Prague 2000
 Simunovic, Z. et al.: Lasers in medicine and dentistry, Vitagraf Rijeka, 2000. Hahn, A. et al.: Combined Laser – Egb 761 Tinnitus Therapy, Acta Otolaryngol 2001, Suppl. 545, 92-93.
 Pertille A, Macedo A, Oliveira C.: Evaluation of muscle regeneration in aged animals aÅer treatment with low-level laser therapy. Universidade Metodista de Piracicaba, Piracicaba, SP, Brazil,
 Michael R Hamblin: Can osteoarthritis be treated with light? Arthritis Res Ther. 2013; 15(5): 120.
 Oliveira P, Santos AA, Rodrigues T.: Effects of phototherapy on cartilage structure and inflammatory markers in an experimental model of osteoarthritis. Federal University of São Carlos, Department of Physiotherapy, Brazil.
 A. Moritz, N. Gutknecht, O. Doertbudak, K. Goharkhay, U. Schoop, P. Schauer, and W. Sperr.: Bacterial Reduction in Periodontal Pockets Through Irradiation with a Diode Laser: A Pilot Study Journal of Clinical Laser Medicine & Surgery. FEBRUARY 1997, 15(1): 33-37. doi:10.1089/clm.1997.15.33.
 Karu T I.Photobiological Fundamentals of Low Power Laser Therapy. IEEE Journal of Quantum Electronics. 1987, 23 (10): 1703-
 Mester E. Effects of direct laser radiation on human lymphocytes. Arch Dermatol Res. 1978; 263 (3)
 Kamikawa Studies on low power laser therapy of pain. Lasers in Dentistry. 1989; p. 29-38. Amsterdam  Castano A P, Dai T, Yaroslavsky I, CohenR, Apruzzese W A, Smotrich M H, Hamblin M R. Low-level laser therapy for zynosan-induced arthritis in rats: Importance of illumination time. Lasers Surg Med. 2007; 39 (6): 543-550
 Klára Barabás, MD, PhD, József Bakos, MSc, Zsuzsanna Zeitler, MSc, Géza Bálint, MD, DSc, Erzsébet Nagy, MD, PhD, Tamás Lakatos, MD, PhD, Adrienna Katalin Kékesi, PhD, Lajos Gáspár, MD, PhD and Zoltán Szekanecz, MD, DSc. Effects of laser treatment on the expression of cytosolic proteins in the synovium of patients with osteoarthritis, Lasers in Surgery and Medicine Volume 46, Issue 8, pages 644–649, October 2014
 Samoilova K A, Kukui L M. Photohaemotherapy in clinical anf veteniary medicine: therapeutic effects and mechanisms. Laser Therapy. 1996; 8 (1): 63.