Effects of neuromuscular electric stimulation during the immobilization in the mechanical properties of the skeletal muscle. / Efeitos da eletroestimulação neuromuscular durante a imobilização nas propriedades mecânicas do músculo esquelético

AUTOR(ES)

João Paulo Chieregato Matheus

DATA DE PUBLICAÇÃO

2005

RESUMO

The neuromuscular electric stimulation (NMES) is an important tool used in sport medicine to accelerate the recovery process. The objective of this study was to analyze the effects of NMES during the immobilization of the gastrocnemius muscle, in lengthened (LP) and shortened positions (SP). Sixty young female rats WISTAR were distributed into six groups and followed for 7 days: control (C), electric stimulation (ES), immobilized in shortened (ISP), immobilized in lengthened (ILP), immobilized in shortened and electric stimulation (ISP+ES) and immobilized in lengthened and electric stimulation (ILP+ES). For the immobilization, the right hind limb was involved by a tubular mesh and cotton rolls and plaster. NMES was used in a frequency of 50 Hz, 10 minutes a day, totaling 20 contractions in each session. After 7 days the animals were killed and their gastrocnemius muscles of the right side were submitted to a mechanical test in traction in an universal test machine (EMIC®). From the curves load versus elongation the following mechanical properties were obtained: elongation in the yield limit (EPL), load in the yield limit (LPL), elongation in the ultimate load (EUL), ultimate load (UL) and stiffness. The immobilizations SP and LP promoted significant reductions (p<0,05) in the properties of EPL, LPL, EUL and UL being more accentuated mainly in group ISP. When used NMES, there was significant increment (p<0,05) of such properties only in group ISP. As for stiffness, significant reduction was observed (p<0,05) only of the group C for group ISP. When the NMES was used, the stiffness of group ILP+EE was significantly (p<0,05) higher and closer to group C than for group ISP+EE. We conclude that in this experimental model the immobilization of the muscles in the lengthened position delayed the reduction of the properties and the electric stimulation contributed to the maintenance of the mechanical properties during the immobilization period, mainly for group ILP+ES.

ASSUNTO(S)

atrofia muscular terapia por estimulação elétrica. immobilization muscular atrophy resistência à tração imobilização propriedades mecânicas mechanical properties electric stimulation therapy. traction strength

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