Payne R C, Veenman P, Wilson A M
Structure and Motion Laboratory, The Royal Veterinary College, London, UK.
J Anat. 2005 Feb;206(2):193-204. doi: 10.1111/j.1469-7580.2005.00353.x.
Muscles have two major roles in locomotion: to generate force and to absorb/generate power (do work). Economical force generation is achieved by short-fibred pennate muscle while the maximum power output of a muscle is architecture independent. In this study we tested the hypothesis that there is an anatomical and structural separation between the force-generating anti-gravity muscles and the propulsive (limb/trunk moving) muscles of the equine forelimb. Muscle mass and fascicle length measurements were made on the thoracic limb extrinsic muscles of six fresh horse cadavers. Physiological cross-sectional area and maximum isometric force were then estimated. Maximum power was estimated from muscle volume and published contraction velocity data. The majority of extrinsic forelimb muscles were large with long fascicles arranged in parallel to the long axis of the muscle. Muscles arranged in this way are optimised for doing work. The architecture of serratus ventralis thoracis (SVT) was unique. It had short (48 +/- 17 mm) fascicles, arranged at about 45 degrees to the long axis of the muscle, which would suggest a force-generating, anti-gravity role. The muscle belly of SVT was sandwiched between two broad, thick sheets of aponeurosis. Hence, SVT could make a significant contribution to the overall elastic properties of the thoracic limb.
产生力量以及吸收/产生功率(做功)。短纤维羽状肌能够实现经济的力量产生,而肌肉的最大功率输出与结构无关。在本研究中,我们检验了这样一个假设:马前肢中产生力量的抗重力肌肉与推进(肢体/躯干移动)肌肉在解剖学和结构上是分离的。对六具新鲜马尸体的胸肢外在肌进行了肌肉质量和肌束长度测量。然后估算了生理横截面积和最大等长力。根据肌肉体积和已发表的收缩速度数据估算了最大功率。大多数前肢外在肌体积较大,肌束长且与肌肉长轴平行排列。以这种方式排列的肌肉在做功方面得到了优化。胸侧锯肌(SVT)的结构独特。它具有短(48±17毫米)肌束,与肌肉长轴呈约45度排列,这表明其具有产生力量的抗重力作用。胸侧锯肌的肌腹夹在两片宽阔、厚实的腱膜之间。因此,胸侧锯肌可能对胸肢的整体弹性特性有显著贡献。
