Wiegner A W
J Appl Physiol (1985). 1987 Apr;62(4):1615-21. doi: 10.1152/jappl.1987.62.4.1615.
When a relaxed joint is subjected to a small sinusoidal torque, the amplitude of the steady-state displacement response is increased up to severalfold by a transient larger perturbation. The original state, in which the relaxed joint is unexpectedly stiff, is restored by several seconds of inactivity. This thixotropic phenomenon has previously been observed in a variety of human joints. We have now investigated the mechanism of thixotropic behavior at relaxed joints in rats anesthetized with pentobarbital sodium, by using a series of preparations including the intact ankle joint, a blood-perfused soleus muscle preparation, an isolated soleus muscle, and ankle joint isolated by severing all muscular attachments. Thixotropic behavior was observed in all intact, isolated muscle, and isolated joint preparations. The contribution of the joint to thixotropic behavior was comparable to, and at times exceeded, the contribution of muscle. We also analyzed the short-range stiffness properties of relaxed, blood-perfused soleus muscles and found them to be similar to thixotropy with respect to range of action (0.2-0.3% of muscle length), elastic modulus (approximately 4 kg/cm2), and time course for redevelopment (time constant = 2.5 s at 34 degrees C). Thus thixotropic behavior at a relaxed joint may be attributed both to the joint structures and to short-range stiffness of muscles acting at the joint.
当一个松弛的关节受到一个小的正弦扭矩作用时,稳态位移响应的幅度会因一个短暂的较大扰动而增加几倍。通过几秒钟的静止不动,松弛关节意外僵硬的初始状态得以恢复。这种触变性现象此前已在多种人体关节中观察到。我们现在通过一系列实验准备,包括完整的踝关节、血液灌注的比目鱼肌标本、分离的比目鱼肌以及切断所有肌肉附着点后分离出的踝关节,研究了用戊巴比妥钠麻醉的大鼠松弛关节处触变性行为的机制。在所有完整的、分离的肌肉和分离的关节标本中均观察到了触变性行为。关节对触变性行为的贡献与肌肉相当,有时甚至超过肌肉。我们还分析了血液灌注的松弛比目鱼肌的短程刚度特性,发现其在作用范围(肌肉长度的0.2 - 0.3%)、弹性模量(约4 kg/cm²)和恢复发展的时间进程(34℃时时间常数 = 2.5 s)方面与触变性相似。因此,松弛关节处的触变性行为可能既归因于关节结构,也归因于作用于关节的肌肉的短程刚度。
