P L Powell, R R Roy, P Kanim, M A Bello, V R Edgerton
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引用次数: 482
Abstract
The maximum tetanic tension (Po) generated by a skeletal muscle is determined by its functional cross-sectional area (CSA) and its specific tension (tension/CSA). Measurements of average fiber length (normalized to a sarcomere length of 2.2 micron), muscle mass, and approximate angle of pinnation of muscle fibers within a muscle were taken from 26 different guinea pig hindlimb muscles and were used to calculate CSA. The specific tension was assumed to be 22.5 N X cm-2 and was used to determine the estimated Po of each muscle studied. In a second group of guinea pigs the in situ Po of 11 selected hindlimb muscles and muscle groups were determined. Estimated and measured Po values were found to have a strong linear relationship (r = 0.99) for muscle and muscle groups tested. The specific tension of the soleus, a homogeneously slow-twitch muscle, was shown to be approximately 15.4 N X cm-2 (P less than 0.01). Therefore, in our hands a specific tension value of 22.5 N X cm-2 appears to be a reasonable value for all mixed muscles studied in the guinea pig hindlimb and can be used to estimate their Po.
骨骼肌产生的最大破伤风张力(Po)由其功能横截面积(CSA)和比张力(张力/CSA)决定。测量平均纤维长度(归一化为2.2微米的肌节长度)、肌肉质量和肌肉纤维的大致夹角,取自26个不同的豚鼠后肢肌肉,并用于计算CSA。假设特定张力为22.5 N X cm-2,并用于确定所研究的每块肌肉的估计Po。第二组豚鼠选取11个后肢肌肉和肌群,测定其原位Po值。估计和测量的Po值在肌肉和被测肌肉群之间有很强的线性关系(r = 0.99)。比目鱼肌是一种均匀的慢收缩肌,其比张力约为15.4 N X cm-2 (P < 0.01)。因此,在我们手中,22.5 N X cm-2的特定张力值似乎是在豚鼠后肢研究的所有混合肌肉中合理的值,可以用来估计它们的Po。
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