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

Almeida, Patrícia de; Lopes-Martins, Rodrigo Álvaro Brandão; Tomazoni, Shaiane Silva; Silva, José Antônio da; Carvalho, Paulo de Tarso Camillo de; Bjordal, Jan Magnus; Leal-Junior, Ernesto César Pinto

doi:10.1111/j.1751-1097.2011.00968.x

Cited by 72 publications

(50 citation statements)

References 31 publications

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“…Previous studies have used light therapy for muscular preconditioning by delivering the light therapy over the target muscles 5 min before fatigue tests in vivo [27,28] or in clinical trials [20][21][22]. These studies reported an increased number of repetitions and consequently a better fatigue-muscle resistance.…”

Section: Discussionmentioning

confidence: 99%

Time response of increases in ATP and muscle resistance to fatigue after low-level laser (light) therapy (LLLT) in mice

et al. 2015

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Recently, low-level laser (light) therapy has been used to increase muscle performance in intense exercises. However, there is a lack of understanding of the time response of muscles to light therapy. The first purpose of this study was to determine the time response for light-emitting diode therapy (LEDT)-mediated increase in adenosine triphosphate (ATP) in the soleus and gastrocnemius muscles in mice. Second purpose was to test whether LEDT can increase the resistance of muscles to fatigue during intense exercise. Fifty male Balb/c mice were randomly allocated into two equal groups: LEDT-ATP and LEDT-fatigue. Both groups were subdivided into five equal subgroups: LEDT-sham, LEDT-5 min, LEDT-3 h, LEDT-6 h, and LEDT-24 h. Each subgroup was analyzed for muscle ATP content or fatigue at specified time after LEDT. The fatigue test was performed by mice repeatedly climbing an inclined ladder bearing a load of 150 % of body weight until exhaustion. LEDT used a cluster of LEDs with 20 red (630± 10 nm, 25 mW) and 20 infrared (850±20 nm, 50 mW) delivering 80 mW/cm 2 for 90 s (7.2 J/cm 2 ) applied to legs, gluteus, and lower back muscles. LEDT-6 h was the subgroup with the highest ATP content in soleus and gastrocnemius compared to all subgroups (P<0.001). In addition, mice in LEDT-6 h group performed more repetitions in the fatigue test (P<0.001) compared to all subgroups: LEDT-sham and LEDT-5 min (~600 %), LEDT-3 h (~200 %), and LEDT-24 h (~300 %). A high correlation between the fatigue test repetitions and the ATP content in soleus (r=0.84) and gastrocnemius (r=0.94) muscles was observed. LEDT increased ATP content in muscles and fatigue resistance in mice with a peak at 6 h. Although the time response in mice and humans is not the same, athletes might consider applying LEDT at 6 h before competition.

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Section: Discussionmentioning

confidence: 99%

Time response of increases in ATP and muscle resistance to fatigue after low-level laser (light) therapy (LLLT) in mice

et al. 2015

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“…The effects of low-level laser (light) therapy on muscle tissue when applied before or after intense exercise are mainly related to the prevention of exercise-induced damage, promotion of faster muscle recovery, and also producing increases in performance [10,30,11]. The use of LLLT to prevent muscle damage has been widely investigated in experimental models [15][16][17][18][19][20] and in clinical trials [21][22][23][24][25][26][27][28]. Experimental studies have used animal models to induce muscle damage, and clinical trials have used protocols of exercise in isokinetic dynamometers, fitness machines, or free weight lifting to induce muscle damage.…”

Section: Discussionmentioning

confidence: 99%

“…More studies using experimental models were conducted to investigate the effects of LLLT on CK activity [18,17,19,20]. Using a similar model of neuromuscular electrical stimulation previously reported [15], other studies also found LLLT dose responses of muscular pre-conditioning by decreased CK activity [18,19], including assessment of different wavelengths [20].…”

Section: Discussionmentioning

confidence: 99%

“…In order to investigate the effects of LLLT on Bmuscle protection^against exercise-induced muscle damage, different protocols of exercise or neuromuscular electrical stimulation have been used to induce muscle fatigue and damage in experimental models [15][16][17][18][19][20] and in clinical trials [21][22][23][24][25][26][27][28]. These studies have evaluated different wavelengths and different light sources such as diode lasers and light-emitting diodes (LEDs) [29].…”

Section: Introductionmentioning

confidence: 99%

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

et al. 2015

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Low-level laser (light) therapy (LLLT) has been applied over skeletal muscles before intense exercise (muscular pre-conditioning) in order to reduce fatigue and muscle damage (measured by creatine kinase, CK) in clinical trials. However, previous exercise protocols do not exactly simulate the real muscle demand required in sports. For this reason, the aim of this randomized and double-blind placebocontrolled trial was to investigate whether light-emitting diode therapy (LEDT) applied over the quadriceps femoris muscles, hamstrings, and triceps surae of volleyball players before official matches could prevent muscle damage (CK) with a dose response, establishing a therapeutic window. A professional male volleyball team (12 athletes) was enrolled in this study, and LEDT was applied before 4 matches during a national championship. LEDT used an array of 200 lightemitting diodes (LEDs) arranged in 25 clusters of 4 infrared LEDs (850±20 nm; 130 mW) and 25 clusters of 4 red LEDs (630±10 nm; 80 mW). Athletes were randomized to receive one of four different total doses over each muscle group in a double-blind protocol: 105 J (20 s), 210 J (40 s), 315 J (60 s), and placebo (no light for 30 s). CK in blood was assessed 1 h before and 24 h after each match. LEDT at 210 J avoided significant increases in CK (+10 %; P=0.993) as well as 315 J (+31 %, P=0.407). Placebo (0 J) allowed a significant increase in CK (+53 %; P=0.012) as well as LEDT at 105 J (+ 59 %; P=0.001). LEDT prevented significant increases of CK in blood in athletes when applied before official matches with a light dose response of 210-315 J, suggesting athletes might consider applying LEDT before competition.

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“…Additionally, the analgesic effect of LLLT is thought to be related to its antiinflammatory action (12)(13)(14)(15). Many experimental and clinical studies have shown that LLLT can reduce or modulate TNF-α levels (13,15).…”

Section: Introductionmentioning

confidence: 99%

Ankilozan spondilitte düşük doz lazer tedavisinin ağrı ve fonksiyonellik üzerine etkisi

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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

Cited by 72 publications

References 31 publications

Time response of increases in ATP and muscle resistance to fatigue after low-level laser (light) therapy (LLLT) in mice

Time response of increases in ATP and muscle resistance to fatigue after low-level laser (light) therapy (LLLT) in mice

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

Ankilozan spondilitte düşük doz lazer tedavisinin ağrı ve fonksiyonellik üzerine etkisi

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