Bessou P, Joffroy M, Montoya R, Pagès B
J Physiol. 1984 Jan;346:73-91. doi: 10.1113/jphysiol.1984.sp015008.
We describe the effects on group I and II afferents as well as alpha- and gamma-efferents of gastrocnemius muscles elicited by stretch and release of the triceps surae muscle performed by a dorsiflexion movement, a maintained dorsiflexion and release of the ankle joint. The experiments were made in decerebrated cats in which the neural loops between the muscles and the spinal cord were intact. Multi-unit discharges of each kind of fibre were obtained, electronically on-line, from two monopolar electrodes 4 mm apart on a small branch of the gastrocnemius lateralis or medialis nerve. Sensory and motor impulses were separated according to the opposite directions of their propagation, then both groups were further subdivided according to conduction velocity. The stretch reflex induced by ankle flexion was associated in eighteen out of nineteen experiments with reflex changes in the activity of the gamma-axon population of the gastrocnemius nerve branch. Facilitatory, depressor and biphasic (facilitatory-depressor) effects were observed, the particular type seeming to depend on the level of gamma tone and gamma-motoneurone size. Flexion release led to cessation of the alpha stretch reflex and to a rebound firing of the gamma-axon population. The lengthening reaction and the clasp-knife phenomenon occurred in certain preparations and were associated with reflex inhibition of the gamma-motoneurones. The over-all responses of group I fibres to triceps stretch showed dynamic and static components, whereas those of the group II fibres were, except in two examples, almost devoid of dynamic sensitivity. During release of stretch and as a result of the simultaneous rebound in gamma activity, the afferent discharges showed a very short pause, no pause, or even a rebound. The origins of the discharges of groups I and II muscle afferents and the factors (muscle length, active and passive muscle tension, reflex changes in fusimotor drive) influencing the activity of the receptors involved are considered as far as possible. Some aspects of the mechanisms of the fusimotor reflex are discussed.
我们描述了由背屈运动、持续背屈以及踝关节的背屈释放所引起的腓肠肌拉伸和放松对I类和II类传入神经以及腓肠肌的α和γ传出神经的影响。实验在去大脑猫身上进行,这些猫的肌肉与脊髓之间的神经环路是完整的。通过位于腓肠肌外侧或内侧神经小分支上相距4毫米的两个单极电极,以电子在线方式获得每种纤维的多单位放电。感觉和运动冲动根据其相反的传播方向进行分离,然后两组再根据传导速度进一步细分。在19个实验中的18个实验中,踝关节屈曲诱发的牵张反射与腓肠肌神经分支γ轴突群活动的反射性变化相关。观察到易化、抑制和双相(易化 - 抑制)效应,具体类型似乎取决于γ紧张性和γ运动神经元大小。屈曲释放导致α牵张反射停止以及γ轴突群的反弹放电。在某些标本中出现了延长反应和折刀现象,并且与γ运动神经元的反射性抑制有关。I类纤维对三头肌拉伸的总体反应显示出动态和静态成分,而II类纤维的反应,除了两个例子外,几乎没有动态敏感性。在拉伸释放期间,由于γ活动同时反弹,传入放电显示出非常短暂的停顿、没有停顿,甚至是反弹。尽可能考虑了I类和II类肌肉传入神经放电的起源以及影响所涉及感受器活动的因素(肌肉长度、主动和被动肌肉张力、肌梭运动驱动的反射性变化)。讨论了肌梭运动反射机制的一些方面。