Objective To investigate the effects of low intensity laser (660nm), on the surae triceps muscle fatigue and power, during vertical jump in sedentary individuals, in addition to delayed onset muscle soreness.Methods We included 22 sedentary volunteers in the study, who were divided into three groups: G1 (n=8) without performing low intensity laser (control); G2 (n=7) subjected to 6 days of low intensity laser applications; and G3 (n=7) subjected to 10 days of low intensity laser applications. All subjects were evaluated by means of six evaluations of vertical jumps lasting 60 seconds each. In G2 and G3, laser applications in eight points, uniformly distributed directly to the skin in the region of the triceps surae were performed. Another variable analyzed was the delayed onset muscle soreness using the Visual Analog Scale of Pain.Results There was no significant difference in fatigue and mechanical power. In the evaluation of delayed onset muscle soreness, there was significant difference, being the first evaluation higher than the others.Conclusion The low intensity laser on the triceps surae, in sedentary individuals, had no significant effects on the variables evaluated.
In conclusion, swimming, a conservative treatment for peripheral nerve lesions, was not able to improve the nociception threshold in obese rats.
This study aims to evaluate if ligature-induced periodontitis can potentiates the deleterious effects of immobilization in the skeletal striated muscle, contributing to the development of muscle atrophy due to disuse. Forty Wistar rats were divided into four groups: (1) Control Group (CG), (2) Periodontal Disease (PDG), (3) Immobilized (IG), and (4) Immobilized with Periodontal Disease (IPDG). Periodontal disease was induced for 30 days, with ligature method, and the immobilization was performed with cast bandage for 15 days. Prior to euthanasia, nociceptive threshold and muscular grasping force were evaluated. Afterwards, the soleus muscle was dissected and processed for sarcomere counting and morphological/morphometric analysis. For data analysis, was used the one-way ANOVA and post-test Tukey (p < 0.05). The IG and IPDG presented lower muscle weight, lower muscular grip strength, and less number of sarcomeres compared to CG. The PDG showed reduction of muscle strength and nociceptive threshold after 15 days of periodontal disease and increased connective tissue compared to CG. The IPDG presented lower muscle length and nociceptive threshold. The IG presented reduction in cross-sectional area and smaller diameter, increase in the number of nuclei and a nucleus/fiber ratio, decrease in the number of capillaries and capillary/fiber ratio, with increase in connective tissue. The IPDG had increased nucleus/fiber ratio, decreased capillaries, and increased connective tissue when compared to the IG. The IPDG presented greater muscle tissue degeneration and increased inflammatory cells compared to the other groups. Ligature-induced periodontitis potentiated the deleterious effects of immobilization of the skeletal striated muscle.
Objective To evaluate the effect of jumping in aquatic environment on nociception and in the soleus muscle of trained and not trained Wistar rats, in the treatment of compressive neuropathy of the sciatic nerve.Methods Twenty-five Wistar rats were distributed into five groups: Control, Lesion, Trained + Lesion, Lesion + Exercise, and Trained + Lesion + Exercise. The training was jumping exercise in water environment for 20 days prior to injury, and treatment after the injury. Nociception was evaluated in two occasions, before injury and seven after injury. On the last day of the experiment, the right soleus muscles were collected, processed and analyzed as to morphology and morphometry.Results In the assessment of nociception in the injury site, the Control Group had higher average than the rest, and the Lesion Group was larger than the Trained + Lesion and Lesion + Exercise Groups. The Control Group showed higher nociceptive threshold in paw, compared to the others. In the morphometric analysis, in relation to Control Group, all the injured groups showed decreased muscle fiber area, and in the Lesion Group was lower than in the Lesion + Exercise Group and Trained + Lesion Group. Considering the diameter of the muscle fiber, the Control Group had a higher average than the Trained + Lesion Group and the Trained + Lesion + Exercise Group; and the Lesion Group showed an average lower than the Trained + Lesion and Lesion + Exercise Groups.Conclusion Resistance exercise produced increased nociception. When performed prior or after nerve damage, it proved effective in avoiding hypotrophy. The combination of the two protocols led to decrease in diameter and area of the muscle fiber.
Introdução: O músculo esquelético se adapta continuamente a estímulos. Objetivo: Analisar os efeitos da imobilização e remobilização sobre parâmetros morfológicos dos músculos sóleo e tibial anterior de ratos Wistar. Métodos: Dezoito animais foram imobilizados por 15 dias, divididos em três grupos de seis componentes cada: G1 – somente imobilizados; G2 – remobilizados livremente; G3 – remobilizados em meio aquático. Foram coletados os músculos sóleo e tibial anterior, direitos (imobilizados ou tratados) e esquerdos (controle). Resultados: A imobilização reduziu massa, diâmetro da fibra e comprimento do músculo sóleo, e massa muscular do tibial anterior. Em G2 e G3, houve aumento da massa e comprimento muscular do tibial anterior; e aumento do menor diâmetro da fibra do sóleo em G3. Conclusão: A imobilização afeta a morfologia dos músculos estudados, a remobilização livre e em meio aquático foram eficientes na recuperação do tibial anterior, enquanto para o sóleo apenas os exercícios aquáticos foram eficazes.
BACKGROUND AND OBJECTIVES: There are few studies in the literature especially reporting the effects of LASER associated to neural mobilization for sciatica. This study aimed at evaluating the effect of low-level LASER with wavelength of 830 nm and fluency of 4 J/cm 2 , of neural mobilization and of their association to decrease pain. METHODS:Sample was made up of 28 Wistar female rats, separated in four groups: G1 (placebo); G2 (neural mobilization); G3 (LASER); G4 (neural mobilization and LASER), being that all groups were submitted to sciatic nerve compression. Treatment was performed in the 3 rd , 5 th , 7 th , 10 th , 12 th and in the 14 th postoperative days. To evaluate nociception an analgesimeter was applied both to injury site and the plantar region of right hind paw. Evaluation moments were AV1 (pre-injury); AV2 (3 rd postoperative day before treatment); AV3 (4 th postoperative day); AV4 (7 th postoperative day), AV5 (10 th postoperative day) and AV6 (14 th postoperative day) before treatment; and AV7 (15 th postoperative day). RESULTS: At evaluation sites, there has been no statistically significant difference among groups, but in comparing evaluations there has been significant difference where AV1 values were higher as compared to remaining evaluations. CONCLUSION: Low-level LASER with wavelength of 830nm and fluency of 4J/cm 2 , neural mobilization and the association of both techniques were not effective to increase nociceptive threshold to pressure of female rats submitted to experimental sciatica.
The aim of this study was to evaluate the effects of exercise in the aquatic environment, performed before and/or after sciatic nerve compression in Wistar rats on morphological and functional parameters. Twenty-five Wistar rats were divided into the following groups: control (C), lesion (L), trained+lesion (TL), lesion+exercise (LE), and training+lesion+exercise (TLE), who underwent right sciatic nerve compression on day 21 of the experiment. The TL and TLE groups were submitted to a jumping exercise in a water environment for 20 days prior to injury and the LE and TLE groups after injury. The functional analysis was carried out using the sciatic functional index (SFI). On the last day of the experiment, the right sciatic nerves were collected, processed and analysed according to morphology and morphometry. The C group showed higher SFI in relation to the other groups. In the morphometric analysis, in comparison to C, all groups showed a decrease in the diameter of the injured nerve fibre, the myelin sheath and an increase in the percentage of connective tissue. There was a decrease in axon diameter in L, TL, and LE groups and a decrease in the density of nerve fibres in the TL and LE groups. The exercise did not affect functional recovery. However, the exercise prior to the injury improved morphology of the nervous tissue, and when performed pre- and postinjury, there was also an improvement in nerve regeneration, but this was not the case with exercise performed after the injury demonstrating worse results.
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