LLLT Evidences

• Andrä Frank: The Effects of intravascular Low Level Laser Therapy in the Scope of a Redifferentiation Therapy of Malignant Tumours. German Medical Journal of Oncology; No 6/2007.

• Bakeeva L, Manteiffel V, Rodichev E, Karu T: Formation of gigantic mitochondria in human blood lymphocytes under the effect of an He-Ne laser. Mol-Biol-Mosk. 1993 May-Jun; 27 (3):608-17.

• Bodenburg R: Laserneedle-acupuncture and intravascular laser blood-irradiation from a legal point of view. Pain & Acupuncture, 2007; 33,1:42-48.

• Boev S, Selivonenko V: The impact of the intravenous He-Ne-Laser therapy on the antioxidant system in patients with stable insertion angina and postinfarkt cardiosclerosis. Klin-Med-Mosk, 1997; 75,12:30-3.

• Brill G, Grigoriev S, Romanova T: Changes of leucocyte metabolism in He-Ne laser blood irradiation in vitro. Proceedings of SPIE. 1993; 1981:204-209.

• De Morais NC, Barbosa AM, Vale ML, Villaverde AB, de Lima CJ, Cogo JC, Zamuner SR: Anti-inflammatory effect of low-level laser and light-emitting diode in zymosan-induced arthritis. In: Photomed Laser Surg. 2010 Apr;28(2):227-32. doi: 10.1089/pho.2008.2422.

• Dimitriev A, Ludin V, Aparov N, Matyrnov V: Effect of intravascular laser irradiation of the blood on blood cells in pancreatitis. Klin Med (Mosk.). 1989; 67, 5:108-110.

• Driianskaia V: The clinico-immunological effects of immunotherapy in patients with acute pyelonephritis. Lik-Sprava. 1997; Jul- Aug; (4):89-92.

• Dube A, Hausal H, Gupta PK: Modulation of macrophage structure and function by low level He-Ne irradiation. Photochem. Photobiol. Sci. 2003; 2, 8:851-855.

• Frick G, Dehmlow R. Practice Guideline UVBund HOT: Fundamentals and use of stimulus-reaction-therapy. Stuttgart: Hippokrates 2001.

• Funk J, Kruse A, Kirchner H: Cytokine production after helium-neon laser irradiation in cultures of human peripheral blood mononuclear cells. Journal Photochem. Photobiol. Biology, 1992; 16, 3-4: 347-355.

• Gasparyan L: Laser Irradiation of the blood. Laser Partner – Clinixperience – All Volumes – 2003:1-4.

• Gasparyan L, Makela A, Oy E: Intravenous Laser Irradiation of Blood: current state and future perspectives.

• Grubnik V, Dotsenko S, Chuev P, Basenke I, Salemekh A: Laser in the prevention of early postoperative complications in the surgical treatment of obesity. Klein-Khir. 1994; 8:25-27.

• Gulsoy M, Ozer G, Bozkulak O, Tabakoglu H, Aktas E, Deniz G, Ertan C: LLLT increases lymphocyte proliferation. Journal Photochem. Photobiol. Biology, 2006; 82, 3:199-202.

• Hamblin R, Viveiros J, Changming Y, Ahmadi A, Ganz R, Tolkoff J: Helicobacter pylori accumulates photoactive porphyrins and is killed by visible light. Antimicrobial Agents and Chemotherapy, 2005; 49, 7:2822-2827.

• Heine H. Lehrbuch der biologischen Medizin. Stuttgart: Hippokrates, 3. Auflage 2007.

• Heine H, Schaeg G: Origin and function of „roodlike structures“ in mitochondria. Acta anat. 1979; 103:1-10.

• Karp G: Molekulare Zellbiologie. Heidelberg: Springer, 4. Auflage 2005.

• Karu T: The Science of Low-Power Laser Therapy. Amsterdam: Gordan and Breach Science Publishers, 1998.

• Kassak P, Sikurova L, Kvasnicka P, Bryszewska M: The response of Na/K-Atpase of human erythrocytes to green laser light treatment. Physiol Research, 2006; 55,2:189-194.

• Khotiaintsev K, Doger-Guerrero E, Glebova I, Svirid V, Sirenko J: Laser blood irradiation effect on electrophysiological characteristics of acute coronary syndrome patients. Proc. SPIE. 2929: 1996:132-137.

• Kipshidze N, Chapidze G, Bokhua M, Marsagishvili L: Effectiveness of blood irradiation using a Helium-Neon-Laser in the acute period of myocardial infarction. Sov-Med. 1990; 3:9-12.

• Kolarova H, Ditrichova D, Smolan S: Effect of He-Ne laser irradiation on phagocytotic activity of leukocytes in vitro. Acta-Univ-Palcki-Olmuc-Fac-Med. 1991; 129:127-132.

• Kozhura V, Dvoretskii S, Novoderzhkina I, Berezina T, Kirsanova A, Iakimento D, Kozinets GI: The effect of intravascular helium neon laser blood irradiation on the state of the compensatory processses in the acute period of hemorrhagic shock and after resuscitation. Anesteziol Reanimatol. 1993; 4:43-8.

• Ledin A, Dobkin V, Sadov A, Galichev K, Rzeutsky V: Soft-laser use in the preoperative preparation and postoperative treatment of patients with chronic lung abscesses. Proc. SPIE. 1999; 3829:2-5.

• Leonova G., Maistrovskaia O, Chudnovskii V: Helium-neon laser irradiation as inducer of interferon formation. Vopr-virosol. 1984; 39, 3:119-121.

• Lindgard A, Hulten L, Svensson L, Soussi B: Irradiation at 634 nm releases nitric oxide from human monocytes. Lasers Med Sc 2007; 22:30-36.

• Lutoshkin M, Tsypilev M, Lutoshkina M: Application of a Helium-Neon Laser (HNL) for the correction of renal function in patiets with chronic glomerulonephritis. Uro. Nefrol (Mosk.). 1993; 2:17-20.

• Manteifel V, Bakeeva L, Karu T: Ultrastructurel changes in chondriome of human lymphocytes after irradiation with He-Ne laser: appearance of giant mitochondria. Journal Photochem. Photobiol. Biology, 1997; 38, 25-30.

• Manteifel V, Karu T: Structure of Mitochondria and Activity of their Rspiratory Chain in successive Generations of Yeast Cells exposed to He-Ne Laser Light. Biology Bulletin 2005; 32, 6:556-566.

• Meshalkin E. (ed.): Application of Direct Laser Irradiation in Experimental and Clinical Heart Surgery [in Russian], Novosibirsk: Nauka, 1981.

• Mi X, Chen J, Cen Y, Liang Z, Zhou L: A comparative study of 632,8 and 532 nm laser irradiation on some rheological factors in human blood in vitro. J. Photochem. Photobiol. B., 2004; 74,1:7-12.

• Moshkovska T, Mayberry J: It is time to test low level laser in Great Britain. Postgraduate Medical Journal. 2005; 81:436-441.

• Mouayed A, Fareed F, Ihsan F, Ahmad Y: Estimation of IgM & IgG values in the serum after intravenous irradiation of blood with diode laser. First UAE International Conference on Biological and Medical Physics, Al-Ain. 2005; Abstract No. 70.

• Neeb G: Das Blutstasesyndrom. Verlag für Ganzheitliche Medizin. Kötzting: 2001.

• Neimark A, Muzalevskaia N: Low-intensity laser radiation in preoperative preparation of patients with benign prostatic hyperplasia. Urologiia. 2000; 1:11-5.

• Noohi F, Javdani M, Kiavar M: Study of the Efficacy of Low level laser in Myocardial Perfusion of Patients with Chronic Stable Angina. Abstracts: 16th Congress of Iranian Heart Association, Tehran; Nov 18-21, 2008; 91.

• Raggi F, Vallesi G: Intravenous Laser Blood Irradiation in Sports Mecicine. Schmerz & Akupunktur 3/2008; 34:126-129.

• Romberg H: Physikalische Grundlagen der Lasertherapie. Dt. Ztschr. f. Akupunktur 2005; 48,1:33-42.

• Schulte-Übbing, C (2014): Die Intravenöse Lasertherapie als integratives Verfahren in der Immunologie.

• Schulte-Übbing, C. et al (2015): Ein Integratives Therapiekonzept zur Behandlung von Autoimmun-Erkrankungen am Beispiel von Morbus Hashimoto.

• Schumm N. Intravasale Laser-Blutbestrahlung des Blutes. Schmerz & Akupunktur 2006; 32,4:211-215.

• Schumm N. Komplement. Integr. Med. KIM-11-12/2008.

• Shnitkind E, Yaping E, Geen S, Shalita AR, Lee WL: Anti-inflammatory properties of narrow-band blue light. In: J Drugs Dermatol. 2006 Jul-Aug;5(7):605-10.

• Siposan G, Lukacs A: Relative variation to received dose of some erythrocytic and leukocytic indices of huma blood as a result of low-level-laser radiation. Journal of Clinical Laser Medicine & Surgery. 2001; 19, 2:89-103.

• Skvorcov V, Nedogoda V: Niederleistungs-lasertherapie gegen chronische Lebererkrankungen. Raum & Zeit, 2002, 119: 5-12, übersetzt aus dem Russischen von Veronika Müller, Würzburg.

• Sluga E, Monneron A: Über die Feinstruktur und Topochemie von Riesenmitochondrien und deren Einlagerungen bei Myopathien. Virchows Archiv. 1970; 350, 3:250-260.

• SpasovA, Nedogoda V, Konan K, Kucheriavenko A: Effect of the intravenous laser blood irradiation on efficacy of drug preparations. Eksp Klin Farmakol. 2000; 63, 5:65-7.

• Stadler I, Evans R, Kolb B, Naim J, Narayan V, Buehner N, Lazafame R: In vitro effects of low level laser irradiation at 660 nm on peripheral blood lymphocytes. Lasers Surg. Med. 2000; 27, 3:255-261.

• Tuner J, Hode L: Laser Therapy – Clinical Practice and Scientific Background. Grängesberg: Prima Books AB, 2002.

• Vinck E, Cagnie B, Cornelissen M, Declerque H, Cambier D: Green light emitting diode Irridation enhances Fibroblast Growth impaired by high glucose levels. Photomedicine and laser surgery. 2005, 23, 2:167-171.

• Weber M: Vorrichtung zur intravasalen Laserblutbestrahlung und Verfahren zur Herstellung eines Einmal-Katheters für eine solche Vorrichtung. Deutsche Patentanmeldung 10 2005 019 006.5-55; www.webermedical.com.

• Weber M: Der blaue Laser. Schmerz & Akupunktur, 2006, 32, 4:208-210.

• Weight R, Viator J, Dale P, Caldwell C, Lisle A: Photoacustic detection of metastatic melanoma cells in the human circulatory system. Optical Letters. 2006; 31, 20:2998-3000.

• Wieden, T: Schmerztherapie der Fibromyalgie. Schmerz & Akupunktur 3/2008; 34:130-136.

• Wirz-Ridolfi, A: Frequencies with consequences. Schmerz & Akupunktur 2/2008; 61-65.

• Wirz-Ridolfi, A: Intravenous laser therapy in horses, Preliminary results of a Multi-Center Pilot Study. Schmerz & Akupunktur 3/2008; 120-124.

• www.wissenschaft.de, News 4.4.2005-Gesundheit, publiziert im Journal of Antimicrobial Agents and Chemotherapy, Bd. 49; 139.

• Xavier M, David DR, de Souza RA, Arrieiro AN, Miranda H, Santana ET, Silva JA Jr, Salgado MA, Aimbire F, Albertini R: Anti-inflammatory effects of low-level light emitting diode therapy on Achilles tendinitis in rats. In: Lasers Surg Med. 2010 Aug;42(6):553-8. doi: 10.1002/lsm.20896.

• Yu H, Chang K, Yu C, Chen J, Chen G: Low-energy helium-neon laser irradiation stimulates interleukin-1 alpha and interleukin-8 release from cultured human keratinocytes. Journal of investigative Dermatology. 1996; 107:593-596.

• Zhou J. Chinesische Medizin. OZV Bad Pyrmont – Beijing: 1. Auflage 2004.

Asbford R et al: Low intensity laser therapy for chronic venous leg ulcers. Nurs Stand, 1999 Oct 6- 12;l4(3):66-70, 72.

• Abergel RP et al: Biostimulation of wound healing by lasers: Experimental approaches in animal models and in fibroblast cultures. In: J Dermatol Surg Oncol 1987, 13:127-33.

• Adghimolaev TA et al: To the mechanism of action of laser radiation on structure and function of a nervous cell. In: Problems of bio-energetic of an organism and stimulation by laser radiation. Alma-Ata, 1976.

• Alekseeva AV, Ivanov AV, Minaev P et al: Research of action of laser radiation on blood cells. In: Mathematical models of biological systems. Moscow, 1971, p. 102-103.

• Ananchenko VG, Khanin AG, Gostishcheva O: Cytological parameters of bronchoalveolar lavage in patients with chronic obstructive bronchitis exposed to laser radiation of blood. Terapevticheskii arkhiv,1999; 71(11): 65-67.

• Baynozarova BJ: Influence monochromatic polarized red light on activity NAD-depending dechydrogenase of cycle Krebs. Biological action of laser radiation. Alma-Ata, 1977, p. 70-74.

• Belousov SS at al: Analgesic effect of intravascular He-Ne laser therapy in patients with stable and unstable angina pectoris. In: New in laser medicine and surgery, 1990, Moscow, part.1, p.101-103.

• Berki T, Nemeth P, Hegedus J: Effect of low power, continuous wave He-Ne laser irradiation on in vivo cultured lymphatic cell lines and macrophages. Stud biophys, 1985, 105, 3, 141-148.

• Braverman B, McCarthy R J, Ivankovich AD: Effect of helium-neon and infrared irradiation on wound healing in rabbits. Laser surg. Med. , 1989, 9, p.50.

• Djugurian MA: Activity of dehydrogenase and citochromokinase of a brain and a cardiac muscle of rats under influence of laser radiation of various wavelengths. Ph.D. Thesis of the biologist sciences. Kiev. 1986.

• Dreval VI at al: Study of the mechanism of action of laser radiation on the activity of enzymes. Comparative biochemistry of metabolism in animals. Kuibyshev, 1982, p.48-52.

• Gorbatenkova EA et al: The effect of endovascular laser irradiation on the parametrs LPO and endotoxication in experimentfl peritonitis. New in laser medicine and surgery,1990, Moscow, part 2, p.33-34.

• Hardy LB , Fine S: Effect of rube laser radiation on mouse fibroblatt culture. Fed Proc 1967, 26, 668.

• Ilyich GK: Medical and biological physics: fluctuations and waves, acoustics, hemodynamics Minsk, 2000 ,206 p.

• Latifullin IA et al: Products of lipid peroxidation, blood enzymes and kinins in myocardial infarction following endovascular laser therapy, Lasers and Medicine, Moscow,1989, part 1, p.100-101.

• Lyone R, Abergel R: Biostimulation of wound healing in vivo by a Helium-Neon laser. Ann. plast.

• Lysenkov NV et al: The application of methods and means of laser technology in biology and medicine. Proceedings of all-Union conference. Kiev, 1981, p.217.

• Meshalkin EN, Sergievsky VS, Кremleva LA: General activity and isopherment spectrum LDG of a myocardium and a liver of animals after irradiation of helium – neon laser. Blood circulation. 1984. N 1, p.3-6.

• Mikhailov V: Intravenous laser blood irradiation, Greece, 2007, 102 p.

• Mikhaylov V: The use of Intravenous Laser Blood Irradiation (ILBI) at 630-640 nm to prevent vascular diseases and to increase life expectancy.

• Mikhailov VA, Skobelkin OK: Application low level laser irradiation in preoperative period in patients with cancer. Book of Abstracts International Congress. Use of lasers in surgery and medicine, Moscow, 1989, part III, p.40-41.

• Mikhailov VA, Lotoshvili VA: Results of use Low-Level Laser Irradiation (LLLI) in patients with peripheral atherosclerotic disease. Abstracts XIII international congress of the international Society for laser surgery and medicine. Havana, Cuba, 1999, nov.22-26, p.151-152.

• Moroz A: ATF activity and maintenance ATF in some organs of the rats, after exposed of monochromatic red color. Hygiene and sanitary. 1976. N11, p. 110-111.

• Ohshiro T, Calderhead R: The role of low reactive level laser therapy in revitalising failing grafts and flaps. Laser Surg. Med. 1989. 1 31.

• Sergeyeva LI, Eremina SV: Hemolytic stability of erythrocytes in animals and humans under the action of laser radiation. Kuibishev Univ.,1984, p.98-104.

• Serych MM et al: The effect of low-energy monochromatic radiation on the activity of enzymes in various organs of rats. Biologgical effects of laser radiation. Kuibyshev, 1984,156 p.

• Stroev E, Larionov V, Grigoreva L, Makarova V, Dubinina I: The treatment of diabetic angiopathies by endo-vascular low-intensity laser irradiation. Probl-Endokrinol-Mosk. 1990; 36, 6:23-5.

• Smotrin SM: Influence of laser radiation on an exchange of serotoninum at patients with trophic ulcers of the bottom finitenesses. Application of laser radiation and a magnetic field in biology and medicine Minsk, 1982, p. 18-19.

• Zubkova SM: About the mechanism of biological action of radiation of the helium – neon laser. Biological sciences of M, 1978, N 7, p. 30-37.

• Brill G, Gasparyan L, Makela A (2003): Modification in relationships in the system endothelial cell-blood platelet by low level laser radiation. Laser Florence meeting.

• Chung H, Dai T, Sharma SK, Huang YY, Carroll JD, et al. (2012): The nuts and bolts of low-level laser (light) therapy. Ann Biomed Eng 40: 516-533.

• DeFronzo RA, Ratner RE, Han J, Kim DD, Fineman MS, et al. (2005): Effects of exenatide (exendin-4) on glycemic control and weight over 30 weeks in metformin-treated patients with type 2 diabetes. Diabetes Care 28: 1092-1100.

• Gasparyan L (2003): Laser Irradiation of the blood. Laser Partner- Clinixperience 1-4.

• Grossman N, Schneid N, Reuveni H, Halevy S, Lubart R (1998): 780 nm low power diode laser irradiation stimulates proliferation of keratinocyte cultures: involvement of reactive oxygen species, Lasers in surgery and medicine 22: 212-218.

• Hawkins D, Houreld N, Abrahamse H (2005): Low level laser therapy (LLLT) as an effective therapeutic modality for delayed wound healing. Ann N Y Acad Sci 1056: 486-493.

• Kazemikhoo N, Ansari F and Nilforoushzadeh: The Hypoglycemic Effect of Intravenous Laser Therapy in Diabetic Mellitus Type 2 Patients; A Systematic Review and Meta-analyses. iMedPub Journals, 2015, Vol. 1, No 1:7.

• KazemiKhoo N, Ansari F (2015): Blue or red: which intravascular laser light has more effects in diabetic patients? Lasers Med Sci 30: 363-366.

• Kovalyova T: Ambulatorische Applikation von kombinierter Lasertherapie an Patienten mit Diabetes mellitus und Dyslipidämie. Übersetzung Prof. Dr. Peter Marti, Institut für LLLT & Naturheilkunde, Internet: www.marti-inst.ch/IntLF_Diabetes_mellitus.asp.

• Kazemi-Khoo N (2006): Successful treatment of diabetic foot ulcers with low-level laser therapy. The Foot 16: 184-187.

• Kazemi-Khoo N, Shokrgozar MA, Kashani IR, Amanzadeh A, Mostafavi E, et al. (2014): In vitro therapeutic effects of low level laser at Mrna level on the release of skin growth factors from fibroblasts in diabetic mice. Avicenna journal of medical biotechnology 6: 113.

• Khamseh ME, Kazemikho N, Aghili R, Forough B, Lajevardi M, et al. (2011): Diabetic distal symmetric polyneuropathy: effect of lowintensity laser therapy. Lasers Med Sci 26: 831-835.

• Kovalyova T, Pimenov L, Denisov S: Die Dynamik der Hyperlipidaemie und des peripheren Blutflusses bei Patienten mit Diabetes mellitus nach Behandlung mit kombinierter Laser-Therapie bei ambulant-poliklinischen Bedingungen. Der 2. internationale Kongress „Laser und Gesundheit-99“, Moskau, 1999: 313. (deutsche Übersetzung von Marti: www.marti-institut.ch).

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• Makela A (2005): Role of L-arginine in the biological effects of blue light [5968-06]. Proceedings-Spie The International Society For Optical Engineering.

• Moshkovska T, Mayberry J (2005): It is time to test low level laser therapy in Great Britain. Postgrad Med J 81: 436-441.m.

• Passarella S, Casamassima E, Molinari S, Pastore D, Quagliariello E, et al. (1984): Increase of proton electrochemical potential and ATP synthesis in rat liver mitochondria irradiated in vitro by helium-neon laser. FEBS letters 175: 95-99.

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• Tiedan W (1992): Effects of low-energy He-Ne laser irradiation of extracorporeally circulatory blood on ATPase activities of erythrocyte membrane in patients with IDDM [J]. Laser Journal 6: 011.

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• Yu W, Naim J, Lanzafame R (1994): The effects of photo-irradiation on the secretion of TGF and PDGF from fibroblasts in vitro. Lasers Surg Med Suppl 6.

• Zinman LH, Ngo M, Ng ET, Nwe KT, Gogov S, et al. (2004): Lowintensity laser therapy for painful symptoms of diabetic sensorimotor polyneuropathy: a controlled trial. Diabetes Care 27: 921-924.

• C. Ailioaie, Ailioaie L: Low Level Laser Therapy in Children’s Allergic Purpura.

• Ashendorf D: The Ability of Low Level Laser Therapy to Mitigate Fibromyalgic Pain.The CFIDS Chronicle Physician’s Forum. Fall 1993.

• Gur A, Karokok M, Nas K, et al: Efficiency of Low Power Laser Therapy in Fibromyalgia: A Single-Blind Placebo Controlled Trial. Lasers Med Sci. 2002. 17(1): 57-61.

• Gur A, Karokok M, Nas K, et al: Effects of Low Power Laser and Low Dose Amitriptyline Therapy on Clinical Symptoms and Quality of Life in Fibromyalgia: A Single-Blind Placebo Controlled Trial. Rheumatol Int. 2002. 2(5): 188-193.

• Gür A, Karacoc M, Nas K, Cevik R, Sarac A, Ataoglu S: Effects of low power laser and low dose amitryptiline therapy on clinical symptoms and quality of life in fibromyalgia: a single-blind, placebo-controlled trial. Rheumatology International 2002; 22, 5:188-193.

• Longo L et al.: Laser Therapy for Fibromyositic Rheumatism. J Clin Las Med Surg. 1997. 15(5): 217-220.

• Momenzadeh S, Abbasi M, Ebadifar A, Aryani M, Bayrami J, Nematollahi F: The Intravenous Laser Blood Irradiation in Chronic Pain and Fibromyalgia. J Lasers Med Sci 2015;6(1):6-9.

• Wieden T: Schmerztherapie der Fibromyalgie. Schmerz & Akupunktur 3/2008; 34:130-136.

• Baptista M.S., Wainwright M: Photodynamic antimicrobial chemotherapy (PACT) for the treatment of malaria, leishmaniasis and trypanosomiasis. Braz J Med Biol Res, January 2011, Volume 44(1) 1-10.

• Hamblin, MR., Hasan T (2004): Photodynamic therapy: a new antimicrobial approach to infectious disease? Photochem Photobiol Sci 3(5): 436–450. doi:10.1039/b311900a.PMC 3071049. PMID 15122361.

• Hamblin, MR: Antimicrobial photodynamic inactivation: a bright new technique to kill resistant microbes. Current opinion in microbiology · July 2016.

• Jori G, Fabris C, Soncin M, Ferro S, Coppellotti O, Dei D, Fantetti L, Chiti G,Roncucci G: Photodynamic Therapy in the Treatment of Microbial Infections: Basic Principles and Perspective Applications. Lasers in Surgery and Medicine 38:468–481 (2006).

• Wainwright M, Maisch T, Nonell S, Plaetzer K, Almeida A, Tegos G, Hamblin M: Photoantimicrobials—are we afraid of the light?. Lancet Infect Dis 2016.

• Jeri-Anne, Janis and Chukuka: LLLT for Multiple sclerosis (MS).

• Schumm N: Intravasale Laser-Blutbestrahlung des Blutes. Schmerz & Akupunktur 2006; 32,4:211-215.

• Schumm N: Komplement. Integr. Med. KIM-11-12/2008.

• De Morais NC, Barbosa AM, Vale ML, Villaverde AB, de Lima CJ, Cogo JC, Zamuner SR: Anti-inflammatory effect of low-level laser and light-emitting diode in zymosan-induced arthritis. Photomed Laser Surg. 2010 Apr;28(2):227-32. doi: 10.1089/pho.2008.2.

• Shnitkind E, Yaping E, Geen S, Shalita AR, Lee WL: Anti-inflammatory properties of narrow-band blue light. J Drugs Dermatol. 2006 Jul-Aug;5(7):605-10.

• Xavier M, David DR, de Souza RA, Arrieiro AN, Miranda H, Santana ET, Silva JA Jr, Salgado MA, Aimbire F, Albertini R : Anti-inflammatory effects of low-level light emitting diode therapy on Achilles tendinitis in rats. Lasers Surg Med. 2010 Aug;42(6):553-8. doi: 10.1002/lsm.20896. 422.

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