肌肉冷却和拉伸对猫肌肉梭次级末梢的影响。

The effects of muscle cooling and stretch on muscle spindle secondary endings in the cat.

作者信息

Michalski W J, Séguin J J

出版信息

J Physiol. 1975 Dec;253(2):341-56. doi: 10.1113/jphysiol.1975.sp011193.

DOI:10.1113/jphysiol.1975.sp011193

PMID:129561

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1348509/

Abstract

The objectives of the investigation were to identify the muscle spindle endings which respond to cooling of the relaxed muscle and to study their response to stretch. 2. The discharge of single afferents from 162 de-efferented muscle spindles in the relaxed medial gastrocnemius muscle of the anaesthetized cat was studied in vivo during cooling of the muscle from 37 to 24 degrees C. Temperature measurements were made at the inner surface of the muscle, while cooling (never below 15 degrees C) was applied at the skin over the muscle. 3. The endings were classified as primary or secondary endings on the basis of their conduction velocity, the dividing line being set at 70 m/sec. A response to cooling was obtained only from endings with afferents conducting at velocities of 20-70 m/sec. These fifty-six endings (CR) represented 65% of the secondary endings studied; the remaining secondary endings (NCR) and the primary endings showed no activity during cooling of the relaxed muscle. 4. During maintained stretches of 4-12 mm, activity of the NCR and primary endings decreased when the muscle was cooled. Cooling affected the CR endings in the same way, but only if the muscle was stretched 6 mm or more. During a smaller maintained muscle stretch, cooling caused an increase in CR activity, superimposed on the response to stretch. 5. The response to a 10 mm stretch at velocities of 10-70 mm/sec was studied in twenty-six CR, eleven NCR and twenty-one primary endings. 6. The dynamic responses of CR endings were intermediate between those of the primary endings and NCR endings. For any velocity of stretch the mean dynamic index of the CR endings was significantly greater than that of the NCR endings but significantly less than that of the primary endings. 7. The mean static responses of the CR and primary endings, measured 0-5 sec after the end of ramp stretch, were the same and significantly greater than that of the NCR endings. 8. The results indicate that cooling of the relaxed mammalian muscle may be used to differentiate between primary endings and about two-thirds of the secondary endings. The remaining secondary endings can be recognized by their small dynamic and static response to stretch.

摘要

本研究的目的是确定对放松肌肉冷却产生反应的肌梭末梢，并研究它们对拉伸的反应。2. 在麻醉猫的放松的腓肠肌内侧，对162个去传入神经的肌梭的单根传入纤维放电进行了体内研究，研究期间肌肉温度从37℃冷却至24℃。在肌肉内表面进行温度测量，而在肌肉上方的皮肤处施加冷却（温度从不低于15℃）。3. 根据传导速度将末梢分为初级末梢或次级末梢，分界线设定为70米/秒。仅从传入纤维传导速度为20 - 70米/秒的末梢获得了对冷却的反应。这56个末梢（CR）占所研究次级末梢的65%；其余的次级末梢（NCR）和初级末梢在放松肌肉冷却期间未表现出活动。4. 在4 - 12毫米的持续拉伸过程中，当肌肉冷却时，NCR和初级末梢的活动减少。冷却对CR末梢的影响方式相同，但前提是肌肉拉伸6毫米或更多。在较小的持续肌肉拉伸过程中，冷却导致CR活动增加，叠加在对拉伸的反应之上。5. 对26个CR、11个NCR和21个初级末梢在10 - 70毫米/秒速度下的10毫米拉伸反应进行了研究。6. CR末梢的动态反应介于初级末梢和NCR末梢之间。对于任何拉伸速度，CR末梢的平均动态指数均显著大于NCR末梢，但显著小于初级末梢。7. 在斜坡拉伸结束后0 - 5秒测量的CR和初级末梢的平均静态反应相同，且显著大于NCR末梢。8. 结果表明，放松的哺乳动物肌肉冷却可用于区分初级末梢和大约三分之二的次级末梢。其余的次级末梢可通过其对拉伸的小动态和静态反应来识别。