TY - JOUR
T1 - Receptors responding to changes in upper airway pressure
AU - Hwang, Ji Chuu
AU - St. John, Walter M.
AU - Bartlett, Donald
N1 - Funding Information:
These studies were supportedb y grant 20574 from the National Heart, Lung and Blood Institute, National Instituteso f Health. J.-C. H. is a fellow of the Albert J. Ryan Foundation; this work representsa portion of his doctoral dissertation. The authors thank Thomas A. Bledsoe and Kurt V. Knuth for technicala ssistance.
PY - 1984/3
Y1 - 1984/3
N2 - Our purpose was to characterize receptors which respond to changes in uppr airway pressures. Such changes alterations in hypoglossal and phrenic nerve activities. Decerebrate, vagotomized, paralyzed and ventilated cats were prepared so that pressures could be altered within segments of upper airways. Activities of single fibers in the superior laryngeal and glossopharyngeal nerves were monitored. Most superior laryngeal receptors discharged tonically at zero transmural pressure. Discharges of approximately half decreased (A) and the rest increased (B) with pressure reductions of -7 to -8 cm H2O. Pressure increases of +7 to +28 cm H2O caused increases in Group A activities while Group B responses varied. The remaining receptors were silent, being activated by pressure decreases and/or increases. Activities of other silent receptors, similarly activated, were recorded from glossopharyngeal nerve. Tonically active glossopharyngeal receptors increased discharged after both pressure increases and decreases. Most tonically active and silent receptors, having afferents in either nerve, adapted incompletely to sustained pressures. These may have major functions in hypoglossal responses to changes in upper airway pressures.
AB - Our purpose was to characterize receptors which respond to changes in uppr airway pressures. Such changes alterations in hypoglossal and phrenic nerve activities. Decerebrate, vagotomized, paralyzed and ventilated cats were prepared so that pressures could be altered within segments of upper airways. Activities of single fibers in the superior laryngeal and glossopharyngeal nerves were monitored. Most superior laryngeal receptors discharged tonically at zero transmural pressure. Discharges of approximately half decreased (A) and the rest increased (B) with pressure reductions of -7 to -8 cm H2O. Pressure increases of +7 to +28 cm H2O caused increases in Group A activities while Group B responses varied. The remaining receptors were silent, being activated by pressure decreases and/or increases. Activities of other silent receptors, similarly activated, were recorded from glossopharyngeal nerve. Tonically active glossopharyngeal receptors increased discharged after both pressure increases and decreases. Most tonically active and silent receptors, having afferents in either nerve, adapted incompletely to sustained pressures. These may have major functions in hypoglossal responses to changes in upper airway pressures.
KW - Cat
KW - Glossopharyngeal nerve
KW - Hypoglossal nerve
KW - Receptors
KW - Superior laryngeal nerve
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U2 - 10.1016/0034-5687(84)90057-4
DO - 10.1016/0034-5687(84)90057-4
M3 - Article
C2 - 6739990
AN - SCOPUS:0021345812
SN - 0034-5687
VL - 55
SP - 355
EP - 366
JO - Respiration Physiology
JF - Respiration Physiology
IS - 3
ER -