Efferent and afferent activity in a gastrocnemius nerve branch during locomotion in the thalamic cat.

The firing patterns of alpha and gamma efferent fibres and of group I and group II afferent fibres innervating the gastrocnemius muscle were observed during spontaneous locomotor movements in the thalamic cat. Multi-unit discharges of each kind of fibre were obtained by electronic sorting of the action potentials from the whole activity of a thin branch of gastrocnemius lateralis or medialis nerve. The main results were: During the locomotor cycle the activity of the afferent and efferent populations was highly modulated. alpha- and gamma-motoneurones were co-activated within the locomotor cycle during ankle plantar-flexion. The gamma discharge began to rise earlier and to fall later than did the alpha discharge. The amplitude of the gamma discharge, unlike that of the alpha discharge, was largely independent of the vigour of walking. Between the cyclic discharges, most of gamma populations were tonically active whereas alpha populations were silent. Subgroups of the alpha and gamma populations were not usually activated according to the cell-size principle, but, the activation of the latest gamma subgroup always preceded that of the earliest alpha subgroup. Modulation of the group I and II afferent discharges was closely related to the cyclic length changes of the parent muscle. Fusimotor activation during the active shortening of gastrocnemius muscle prevented the afferent discharges from pausing. The pattern of afferent and efferent activity during selective curarisation of the extrafusal junctions indicated that the discharge of static gamma-motoneurones is modulated during the locomotor cycle. After curarisation of both extrafusal and intrafusal junctions, an efferent-discharge pattern of central origin persisted alternately in extensor- and flexor-muscle nerves (fictive locomotion). The durations of the fictive locomotor cycle and of the cyclic discharge in the sartorius nerve were increased as a consequence of the suppression of phasic afferent inputs to the C.N.S. Maintained ankle dorsi-flexion slowed the fictive locomotor rhythm and elicited opposite effects, respectively excitation and depression, on the magnitude of the alpha and gamma discharges. Maintained ankle plantar-flexion scarcely perturbed the duration of the fictive locomotor cycle, but the duration of the sartorius-nerve discharge lengthened at the expense of that of the gastrocnemius discharge. Both gastrocnemius alpha- and gamma-motoneurones were depressed, the former considerably more than the latter. The roles of the gastrocnemius afferents and gamma-efferents during the locomotor cycle are discussed in the light of these results.