| Abstract: | Morphological and electrophysiological investigations of the means whereby the principal descending motor systems (the cortico-, rubro-, reticulo-, and vestibulo-spinal tracts) are connected with the segmental interneuronal apparatus and motoneurons show that these connections can be based on two different principles. Descending systems either activate motoneurons directly (monosynaptically) or are connected primarily with various interneuron systems, exerting their influence in that case by regulating the activity of simpler or more complex spinal mechanisms. The older descending system (reticulo- and vestibulo-spinal) possess a monosynaptic excitatory action of motoneurons; the evolutionarily newer descending systems, which transmit the most complex motor signals from the cerebral and cerebellar cortex to the spinal cord (cortico- and rubro-spinal), terminate synaptically in every case on interneurons. It is only in primates that a few cortico-spinal fibers form monosynaptic connections with motoneurons. The chief ways of action of the descending systems on interneurons are: control of the afferent inflow into the interneuron system by presynaptic inhibition of the corresponding synapses; control of the interneuron system by postsynaptic interaction with afferent influences; control of motoneurons through the specialized interneuron apparatus. The investigation shows that the last of these mechanisms functions in the cortico- and rubro-spinal, and possibly also in the reticulo- and vestibulo-spinal systems. The functional role of the various means of connection of the descending systems with the spinal neurons in the system of movement control is discussed.A. A. Bogomolets Institute of Physiology, Academy of Sciences of the Ukrainian SSR, Kiev. Translated from Neirofiziologiya, Vol. 2, No. 2, pp. 189–202, March–April, 1970. |
