期刊
EUROPEAN JOURNAL OF APPLIED PHYSIOLOGY
卷 109, 期 3, 页码 405-415出版社
SPRINGER
DOI: 10.1007/s00421-010-1364-3
关键词
Fatigue; Recovery; Torque; Contractile slowing; Muscle length; Joint excursion
资金
- Natural Sciences and Engineering Research Council of Canada
The fatigue-related reduction in joint range of motion (ROM) during dynamic contraction tasks may be related to muscle length-dependent alterations in torque and contractile kinetics, but this has not been systematically explored previously. Twelve young men performed a repetitive voluntary muscle shortening contraction task of the dorsiflexors at a contraction load of 30% of maximum voluntary isometric contraction (MVC) torque, until total 40A degrees ROM had decreased by 50% at task failure (POST) to 20A degrees ROM. At both a short (5A degrees dorsiflexion) and long muscle length (35A degrees plantar flexion joint angle relative to a 0A degrees neutral ankle joint position), voluntary activation, MVC torque, and evoked tibialis anterior contractile properties of a 52.8 Hz high-frequency isometric tetanus [peak evoked torque, maximum rate of torque development (MRTD), maximum rate of relaxation (MRR)] were evaluated at baseline (PRE), at POST, and up to 10 min of recovery. At POST, we measured similar fatigue-related reductions in torque (voluntary and evoked) and slowing of contractile kinetics (MRTD and MRR) at both the short and long muscle lengths. Thus, the fatigue-related reduction in ROM could not be explained by length-dependent fatigue. Although torque (voluntary and evoked) at both muscle lengths was depressed and remained blunted throughout the recovery period, this was not related to the rapid recovery of ROM at 0.5 min after task failure. The reduction in ROM, however, was strongly related to the reduction in joint angular velocity (R (2) = 0.80) during the fatiguing task, although additional factors cannot yet be overlooked.
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