Structure and Motion Laboratory, The Royal Veterinary College , Hatfield, North Mymms AL9 7TA, UK.
Biol Lett. 2024 Aug;20(8):20240260. doi: 10.1098/rsbl.2024.0260. Epub 2024 Aug 7.
The actions of the major human leg muscles are well established; however, the functions of these muscle actions during steady running remain unclear. Here, leg structures and mechanisms are considered in terms of their functions in meeting the task of a vehicle acting as an effective machine, supporting body weight during translation with low mechanical work demand and in supplying mechanical work economically. Legs are modelled as a sequence of linkages that predict muscle actions and reveal the varying muscle functions within the integrated leg. Work avoidance is achieved with isometric muscles and linkages that promote a sliding of the hip over the ground contact, resulting in an approximately horizontal path of the centre of mass. Economical work supply requires, for muscle with constrained power, shortening over the entire stance duration; this function is achieved by the hamstrings without disrupting the linkages resulting in work avoidance. In late stance, the two functions occur through coactivation of antagonistic muscles, providing one answer to Lombard's paradox. Quadriceps and hamstring tensions result in opposing moments about both hip and knee joints, but by doing so perform the independent yet complementary roles of work avoidance during translating weight support and economical work supply.
人体主要腿部肌肉的作用已得到充分证实;然而,这些肌肉在稳定跑步过程中的作用仍不清楚。在这里,腿部结构和机制被认为是为了满足作为有效机器的车辆的任务而存在的,在平移过程中以低机械功需求支撑体重,并以经济的方式提供机械功。腿部被建模为一系列连杆,这些连杆预测肌肉的作用,并揭示了整合腿部中不断变化的肌肉功能。等长肌肉和连杆可以促进髋关节在地面接触上滑动,从而使质心的路径大致水平,实现了避免做功。对于受约束功率的肌肉,经济地做功需要在整个支撑期内缩短;这一功能由腘绳肌实现,而不会破坏连杆,从而避免了避免做功。在支撑末期,两种功能通过拮抗肌肉的共同激活来实现,这为 Lombard 悖论提供了一个答案。股四头肌和腘绳肌的张力在髋关节和膝关节处产生相反的力矩,但这样做可以实现独立但互补的作用,即在平移支撑体重和经济地做功时避免做功。
