Abstract

Musculoskeletal injuries are very frequent and are responsible for causing pain and impairment of muscle function, as well as significant functional limitations. In the acute phase, the most prescribed treatment is with non-steroidal anti-inflammatory drugs (NSAIDs), despite their questionable effectiveness. However, the use of photobiomodulation therapy (PBMT) in musculoskeletal disorders has been increasing in the last few years, and this therapy appears to be an interesting alternative to the traditional drugs. The objective of the present study was to evaluate and compare the effects of PBMT, with different application doses, and topical NSAIDs, under morphological and functional parameters, during an acute inflammatory process triggered by a controlled model of musculoskeletal injury induced via contusion in rats. Muscle injury was induced by means of a single trauma to the animals' anterior tibialis muscle. After 1h, the rats were treated with PBMT (830nm; continuous mode, with a power output of 100mW; 3.57W/cm2; 1J-35.7J/cm2, 3J-107.1J/cm2, and 9J-321.4J/cm2; 10, 30, and 90s) or diclofenac sodium for topical use (1g). Morphological analysis (histology) and functional analysis (muscle work) were performed, 6, 12, and 24h after induction of the injury. PBMT, with all doses tested, improved morphological changes caused by trauma; however, the 9J (321.4J/cm2) dose was the most effective in organizing muscle fibers and cell nuclei. On the other hand, the use of diclofenac sodium produced only a slight improvement in morphological changes. Moreover, we observed a statistically significant increase of muscle work in the PBMT 3J (107.1J/cm2) group in relation to the injury group and the diclofenac group (p<0.05). The results of the present study indicate that PBMT, with a dose of 3J (107.1J/cm2), is more effective than the other doses of PBMT tested and NSAIDs for topical use as a means to improve morphological and functional alterations due to muscle injury from contusion.

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