Literature DB >> 23626925

Low-level laser (light) therapy (LLLT) on muscle tissue: performance, fatigue and repair benefited by the power of light.

Cleber Ferraresi1, Michael R Hamblin, Nivaldo A Parizotto.   

Abstract

The use of low level laser (light) therapy (LLLT) has recently expanded to cover areas of medicine that were not previously thought of as the usual applications such as wound healing and inflammatory orthopedic conditions. One of these novel application areas is LLLT for muscle fatigue and muscle injury. Since it is becoming agreed that mitochondria are the principal photoacceptors present inside cells, and it is known that muscle cells are exceptionally rich in mitochondria, this suggests that LLLT should be highly beneficial in muscle injuries. The ability of LLLT to stimulate stem cells and progenitor cells means that muscle satellite cells may respond well to LLLT and help muscle repair. Furthermore the ability of LLLT to reduce inflammation and lessen oxidative stress is also beneficial in cases of muscle fatigue and injury. This review covers the literature relating to LLLT and muscles in both preclinical animal experiments and human clinical studies. Athletes, people with injured muscles, and patients with Duchenne muscular dystrophy may all benefit.

Entities:  

Keywords:  ATP; low level laser therapy; mitochondria; muscle fatigue; muscle injury; reactive oxygen species; satellite cells

Year:  2012        PMID: 23626925      PMCID: PMC3635110          DOI: 10.1515/plm-2012-0032

Source DB:  PubMed          Journal:  Photonics Lasers Med        ISSN: 2193-0635


  86 in total

Review 1.  Photobiological principles of therapeutic applications of laser radiation.

Authors:  Yu A Vladimirov; A N Osipov; G I Klebanov
Journal:  Biochemistry (Mosc)       Date:  2004-01       Impact factor: 2.487

Review 2.  Molecular regulation of satellite cell function.

Authors:  Chet E Holterman; Michael A Rudnicki
Journal:  Semin Cell Dev Biol       Date:  2005 Aug-Oct       Impact factor: 7.727

3.  Global gene expression in skeletal muscle from well-trained strength and endurance athletes.

Authors:  Nigel K Stepto; Vernon G Coffey; Andrew L Carey; Anna P Ponnampalam; Benedict J Canny; David Powell; John A Hawley
Journal:  Med Sci Sports Exerc       Date:  2009-03       Impact factor: 5.411

4.  Low-level laser therapy improves skeletal muscle performance, decreases skeletal muscle damage and modulates mRNA expression of COX-1 and COX-2 in a dose-dependent manner.

Authors:  Patrícia de Almeida; Rodrigo Álvaro Brandão Lopes-Martins; Shaiane Silva Tomazoni; José Antônio Silva; Paulo de Tarso Camillo de Carvalho; Jan Magnus Bjordal; Ernesto Cesar Pinto Leal Junior
Journal:  Photochem Photobiol       Date:  2011-08-17       Impact factor: 3.421

5.  Effect of light-emitting diodes therapy (LEDT) on knee extensor muscle fatigue.

Authors:  Bruno Manfredini Baroni; Ernesto Cesar Pinto Leal Junior; Jeam Marcel Geremia; Fernando Diefenthaeler; Marco Aurélio Vaz
Journal:  Photomed Laser Surg       Date:  2010-07-13       Impact factor: 2.796

Review 6.  Multiple roles of cytochrome c oxidase in mammalian cells under action of red and IR-A radiation.

Authors:  Tiina I Karu
Journal:  IUBMB Life       Date:  2010-08       Impact factor: 3.885

7.  Spontaneous effects of low-level laser therapy (650 nm) in acute inflammatory mouse pleurisy induced by carrageenan.

Authors:  Rodrigo Alvaro Brandão Lopes-Martins; Regiane Albertini; Patrícia Sardinha Leonardo Lopes Martins; Jan Magnus Bjordal; Hugo Caire Castro Faria Neto
Journal:  Photomed Laser Surg       Date:  2005-08       Impact factor: 2.796

8.  Phototherapy with low-level laser affects the remodeling of types I and III collagen in skeletal muscle repair.

Authors:  Thais Oricchio Fedri de Souza; Dayane Aparecida Mesquita; Raquel Agnelli Mesquita Ferrari; Décio Dos Santos Pinto; Luciana Correa; Sandra Kalil Bussadori; Kristianne Porta Santos Fernandes; Manoela Domingues Martins
Journal:  Lasers Med Sci       Date:  2011-07-15       Impact factor: 3.161

9.  Effect of 830 nm low-level laser therapy in exercise-induced skeletal muscle fatigue in humans.

Authors:  Ernesto Cesar Pinto Leal Junior; Rodrigo Alvaro Brandão Lopes-Martins; Adriane Aver Vanin; Bruno Manfredini Baroni; Douglas Grosselli; Thiago De Marchi; Vegard V Iversen; Jan Magnus Bjordal
Journal:  Lasers Med Sci       Date:  2008-07-23       Impact factor: 3.161

Review 10.  Skeletal muscle stem cells.

Authors:  Jennifer C J Chen; David J Goldhamer
Journal:  Reprod Biol Endocrinol       Date:  2003-11-13       Impact factor: 5.211
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  64 in total

1.  Light-emitting diode therapy (LEDT) before matches prevents increase in creatine kinase with a light dose response in volleyball players.

Authors:  Cleber Ferraresi; Ricardo Vinicius Dos Santos; Guilherme Marques; Marcelo Zangrande; Roberley Leonaldo; Michael R Hamblin; Vanderlei Salvador Bagnato; Nivaldo Antonio Parizotto
Journal:  Lasers Med Sci       Date:  2015-02-27       Impact factor: 3.161

2.  What Can be Learned from the Time Course of Changes in Low-Frequency Stimulated Muscle?

Authors:  Dirk Pette
Journal:  Eur J Transl Myol       Date:  2017-06-24

Review 3.  Topical antimicrobials for burn infections - an update.

Authors:  Mert Sevgi; Ani Toklu; Daniela Vecchio; Michael R Hamblin
Journal:  Recent Pat Antiinfect Drug Discov       Date:  2013-12

4.  The action of pre-exercise low-level laser therapy (LLLT) on the expression of IL-6 and TNF-α proteins and on the functional fitness of elderly rats subjected to aerobic training.

Authors:  Eliane Martins Amadio; Andrey Jorge Serra; Simone A Guaraldo; José Antônio Silva; Ednei Luis Antônio; Flávio Silva; Leslie Andrews Portes; Paulo José Ferreira Tucci; Ernesto Cesar Pinto Leal-Junior; Paulo de Tarso Camillo de Carvalho
Journal:  Lasers Med Sci       Date:  2015-02-03       Impact factor: 3.161

5.  Light-emitting diode therapy (LEDT) improves functional capacity in rats with heart failure.

Authors:  Lucas Capalonga; Marlus Karsten; Vítor Scotta Hentschke; Douglas Dalcin Rossato; Maurício Pinto Dornelles; Anelise Sonza; Vanderlei Salvador Bagnato; Cleber Ferraresi; Nivaldo Antonio Parizotto; Pedro Dal Lago
Journal:  Lasers Med Sci       Date:  2016-04-08       Impact factor: 3.161

6.  Effect of pre-exercise phototherapy applied with different cluster probe sizes on elbow flexor muscle fatigue.

Authors:  Mateus Rossato; Rodolfo A Dellagrana; Fábio J Lanferdini; Raphael L Sakugawa; Caetano D Lazzari; Bruno M Baroni; Fernando Diefenthaeler
Journal:  Lasers Med Sci       Date:  2016-06-06       Impact factor: 3.161

7.  Pre-conditioning with low-level laser (light) therapy: light before the storm.

Authors:  Tanupriya Agrawal; Gaurav K Gupta; Vikrant Rai; James D Carroll; Michael R Hamblin
Journal:  Dose Response       Date:  2014-09-22       Impact factor: 2.658

8.  Are the ergogenic effects of photobiomodulation therapy age-dependent? A randomized double-blinded placebo-controlled trial.

Authors:  Carolina Gassen Fritsch; Laura Ayang Folgiarini; Natália Sgarioni Gomes; Marco Aurélio Vaz; Bruno Manfredini Baroni
Journal:  Lasers Med Sci       Date:  2019-04-25       Impact factor: 3.161

9.  Acute LED irradiation does not change the anaerobic capacity and time to exhaustion during a high-intensity running effort: a double-blind, crossover, and placebo-controlled study : Effects of LED irradiation on anaerobic capacity and performance in running.

Authors:  Elvis De Souza Malta; Rodrigo Araujo Bonetti De Poli; Gabriel Motta Pinheiro Brisola; Fabio Milioni; Willian Eiji Miyagi; Fabiana Andrade Machado; Alessandro Moura Zagatto
Journal:  Lasers Med Sci       Date:  2016-07-06       Impact factor: 3.161

10.  Low-level laser therapy (904nm) can increase collagen and reduce oxidative and nitrosative stress in diabetic wounded mouse skin.

Authors:  José Carlos Tatmatsu-Rocha; Cleber Ferraresi; Michael R Hamblin; Flávio Damasceno Maia; Nilberto Robson Falcão do Nascimento; Patricia Driusso; Nivaldo Antonio Parizotto
Journal:  J Photochem Photobiol B       Date:  2016-09-12       Impact factor: 6.252
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