人类肌梭的牵张敏感化
Stretch sensitization of human muscle spindles.
作者信息
Edin B B, Vallbo A B
机构信息
Department of Physiology, Umeå University, Sweden.
出版信息
J Physiol. 1988 Jun;400:101-11. doi: 10.1113/jphysiol.1988.sp017113.
Abstract
- Sixty-seven afferents from the finger extensor muscles were consecutively recorded by microneurography. 2. The units were classified as primary or secondary muscle spindle afferents or Golgi tendon organ afferents on the basis of their responses to ramp-and-hold stretches, sinusoidals superimposed on ramp-and-hold stretches, maximal twitch contractions and isometric contractions and relaxations. 3. The muscle was repeatedly stretched and then either kept short or long for a few seconds followed by a slow ramp stretch. The responses of the muscle afferents to the slow stretch were compared under the two conditions. 4. Thirty out of thirty-eight units classified as primary spindle afferents and four out of eleven units classified as secondary afferents showed an enhanced response to the slow ramp when the muscle had been kept short compared to the response when the muscle had been kept long. 5. None of the eighteen Golgi tendon organ afferents showed any difference in this respect. 6. It is concluded that stretch sensitization does occur in human muscle spindles and, when present, constitutes firm evidence of the afferent originating from a muscle spindle rather than a Golgi tendon organ. In addition, due to differences in the response characteristics of primaries and secondaries, the test may aid in separating muscle spindle primary afferents from secondary afferents.
摘要
- 通过微神经图技术连续记录了67条来自手指伸肌的传入神经纤维。2. 根据它们对斜坡-保持拉伸、叠加在斜坡-保持拉伸上的正弦波、最大抽搐收缩以及等长收缩和舒张的反应,将这些单位分类为初级或次级肌梭传入神经或高尔基腱器官传入神经。3. 肌肉被反复拉伸,然后保持短时间或长时间几秒钟,随后进行缓慢的斜坡拉伸。在这两种情况下比较肌肉传入神经对缓慢拉伸的反应。4. 在38个被分类为初级梭形传入神经的单位中,有30个,在11个被分类为次级传入神经的单位中,有4个,当肌肉保持短时,与肌肉保持长时相比,对缓慢斜坡的反应增强。5. 18个高尔基腱器官传入神经在这方面没有显示出任何差异。6. 得出的结论是,拉伸敏化确实发生在人类肌梭中,并且当存在时,构成了传入神经源自肌梭而非高尔基腱器官的确凿证据。此外,由于初级和次级反应特征的差异,该测试可能有助于区分肌梭初级传入神经和次级传入神经。
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