Gz. Chiao et al., NEURONAL-ACTIVITY IN NUCLEUS AMBIGUUS DURING DEGLUTITION AND VOCALIZATION IN CONSCIOUS MONKEYS, Experimental Brain Research, 100(1), 1994, pp. 29-38
Extracellular recordings were made from the nucleus ambiguus in three
conscious Macaca nemestrina monkeys during spontaneous vocalizations a
nd swallows. The temporal relationship of neuronal activity to swallow
ing was inferred through correlation with the thyroarytenoid electromy
ographic (EMG) activity. Videofluoroscopic analysis of a fourth monkey
during swallows of barium-impregnated fruit juice established the tem
poral relationship between swallowing and thyroarytenoid EMG activity.
Of 691 cells recorded from the nucleus ambiguus and its adjacent area
, the neuronal activity of 80 cells showed modulation during swallowin
g. Sixty-two cells were classified as ''active'' cells, with increased
activity in relation to swallowing, while 18 cells were classified as
''suppressed'' cells, with tonic activity that reduced with swallowin
g. A continuum of latency was seen between the onset of modulation of
these cells and the onset of swallowing, from ''early'' before the swa
llow to ''late'' after the swallow onset with most of the cells (44 ce
lls) showing modulation near the onset of the swallow. A majority (37)
of the 62 active swallowing-related cells also discharged with vocali
zation, but they demonstrated a lower discharge frequency and a longer
burst duration during swallowing. Of the 18 suppressed swallowing-rel
ated cells, 11 cells discharged phasically with the respiratory cycle
and may be a part of the ventral medullary respiratory center. This ch
ronic awake primate model would preserve the many sensory inputs that
may modify the oropharyngeal swallow and may better approximate human
physiology.