Gregor R J, Edgerton V R, Perrine J J, Campion D S, DeBus C
J Appl Physiol Respir Environ Exerc Physiol. 1979 Aug;47(2):388-92. doi: 10.1152/jappl.1979.47.2.388.
The relationship between the predominance of fast and slow muscle fibers of the vastus lateralis and "in vivo" torque velocity properties in 22 female athletes was studied. Fiber types were classified according to the histochemical myofibrillar adenosine triphosphatase technique at a basic pH. Maximal extensor troques were recorded at 30 degrees from full extension at four selected velocities. While results confirm earlier reports on muscle fiber type and performance, an additional finding was that as knee extension velocities increased from 0 to 95 degrees/s angle specific extensor torque production did not decline as seen in in vitro muscle preparations. The difference in extensor torque between 0 and 96 degrees/s appeared far more critical than the differences observed between 96 and 288 degrees/s. Significant differences in torque were seen at 96, 192, and 288 degrees/s in thos with greater than 50% and less than 50% slow-twitch fibers. When expressed per kilogram of body weight the subjects with greater than 50% fast-twitch fiber produced the greatest torque at 192 degrees/s. These results suggest that the velocity at which torque begins to decline in vivo is related to the proportion of slow-twitch fibers in the vastus lateralismuscle.
研究了22名女性运动员股外侧肌中快肌纤维和慢肌纤维的优势与“体内”扭矩速度特性之间的关系。根据碱性pH值下的组织化学肌原纤维三磷酸腺苷酶技术对纤维类型进行分类。在四个选定速度下,从完全伸展30度处记录最大伸肌扭矩。虽然结果证实了早期关于肌肉纤维类型和性能的报道,但另一个发现是,随着膝关节伸展速度从0增加到95度/秒,特定角度的伸肌扭矩产生并没有像在体外肌肉制剂中那样下降。0至96度/秒之间的伸肌扭矩差异似乎比96至288度/秒之间观察到的差异更为关键。在慢肌纤维大于50%和小于50%的人群中,在96、192和288度/秒时观察到扭矩存在显著差异。以每千克体重表示时,快肌纤维大于50%的受试者在192度/秒时产生的扭矩最大。这些结果表明,体内扭矩开始下降的速度与股外侧肌中慢肌纤维的比例有关。
