Divergent synaptic influences affecting discharge pattering of genioglossus motor units

Abstract

Discharge patterns of single motor units were recorded from 5 inframandibular muscles in acutely prepared adult rhesus monkeys and cats. The alterations in interspike interval patterns were studied in genioglossus motor units during respiration, swallowing, laryngeal, and precentral cortex stimulation in animals anesthetized with urethane. Genioglossus motor units were active in both inspiration and swallowing with 87% of the units demonstrating a significant difference in distributions of their first order interspike interval histograms in swallowing as compared to their respiratory pattern. Interaction between several swallows and the prolonged inhibition of respiration (1–7 sec) altered the discharge pattern of a genioglossus unit from its activity during normal respiration. This significant change in the distribution of the interspike intervals of the motor unit in both first order and autocorrelation histograms occurred during the marked increase in intensity and duration of the gross EMG of the genioglossus muscle during the return of respiration. Stimulation of the precentral cortex of the rhesus monkey indicated a third central synaptic influence on the genioglossus motoneurons with a given motor unit discharging in masticatory movements and swallowing. A first order latency histogram demonstrated a fourth synaptic influence with a correlation between the stimulus pulse to the superior laryngeal nerve innervating the laryngeal region and the latency to when a genioglossus motor unit discharged. The latency analysis suggested a vago-hypoglossal reflex from sensory input of the laryngeal region synaptically affecting genioglossus motoneurons by a polysynaptic pathway.