长度和刺激频率对猫比目鱼肌等长收缩张力的影响。
The effects of length and stimulus rate on tension in the isometric cat soleus muscle.
作者信息
Rack P M, Westbury D R
出版信息
J Physiol. 1969 Oct;204(2):443-60. doi: 10.1113/jphysiol.1969.sp008923.
Abstract
- By subdividing ventral roots and supplying stimulating pulses to different groups of motor units in rotation, smooth contractions of soleus could be obtained with low rates of stimulation.2. Isometric tension was recorded with different rates of stimulation, and at different muscle lengths.3. Longitudinal histological sections were cut from muscles fixed at different lengths, and sarcomeres were measured. Mean sarcomere lengths in soleus could then be related to the angle at the ankle.4. At high rates of stimulation the maximum active tension was obtained at a length corresponding to an angle of about 60 degrees at the ankle, and a mean sarcomere length of about 2.8 mu. The isometric tension fell only slightly on shortening the muscle to a length equivalent to 100 degrees , and a mean sarcomere length about 2.3 mu. Further shortening caused a marked fall in tension.5. There was a reciprocal relationship between stimulus rate and muscle length; when the muscle was long low rates of stimulation gave near maximal tension, whereas at short lengths the maximum tension was reached only when the stimulus rate was very high. It is suggested that stimulating pulses activate the contractile machinery of the muscle more effectively at long than at short muscle lengths.6. When at low rates of stimulation pulses were distributed among the motor units in rotation to give a smooth contraction, the tension rose higher than during the unfused tetanus that accompanied synchronous stimulation of the same motor units at the same rate. It is suggested that in an unfused tetanus internal movement of the muscle reduces the tension below that developed in a truly isometric state.7. The rate of rise of tension in an isometric tetanus varied with both muscle length and rate of stimulation. At each stimulus rate there was a range of lengths in which the isometric tension developed slowly, this was the same length range in which, at that stimulus rate, the length tension curve was steep.
摘要
通过将腹根细分并轮流对不同组的运动单位施加刺激脉冲,以低刺激频率可使比目鱼肌实现平稳收缩。
在不同的刺激频率和不同的肌肉长度下记录等长张力。
从固定在不同长度的肌肉上切取纵向组织切片,并测量肌节。然后可以将比目鱼肌的平均肌节长度与踝关节角度相关联。
在高刺激频率下,最大主动张力在对应于踝关节约60度角度的长度处获得,平均肌节长度约为2.8微米。将肌肉缩短至相当于100度角度的长度(平均肌节长度约为2.3微米)时,等长张力仅略有下降。进一步缩短会导致张力显著下降。
刺激频率与肌肉长度之间存在反比关系;当肌肉较长时,低刺激频率可产生接近最大的张力,而在短长度时,只有当刺激频率非常高时才会达到最大张力。这表明,与短肌肉长度相比,刺激脉冲在长肌肉长度时能更有效地激活肌肉的收缩机制。
当以低刺激频率将脉冲轮流分布在运动单位之间以产生平稳收缩时,张力上升得比以相同频率同步刺激相同运动单位时伴随的不完全强直收缩时更高。这表明在不完全强直收缩中,肌肉的内部运动使张力低于真正等长状态下产生的张力。
等长强直收缩中张力的上升速率随肌肉长度和刺激频率而变化。在每个刺激频率下,都有一个长度范围,在这个范围内等长张力发展缓慢,这与在该刺激频率下长度 - 张力曲线陡峭的长度范围相同。
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