Mechanical effects of pharyngeal constrictor activation on pharyngeal airway function

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Mechanical effects of pharyngeal constrictor activation on pharyngeal airway function

Samuel T. Kuna and Christi R. Vanoye

Department of Internal Medicine, University of Texas Medical Branch, Galveston, Texas 77555-0561

The mechanical effects of pharyngeal constrictor (PC) muscle activation on pharyngeal airway function were determined in 20decerebrate, tracheotomized cats. In 10 cats, a high-complianceballoon attached to a pressure transducer was partially inflatedto just occlude the pharyngeal airway. During progressive hyperoxichypercapnia, changes in pharyngeal balloon pressure were directlyrelated to phasic expiratory hyopharyngeus (middle PC) activity.In two separate protocols in 10 additional cats, the followingmeasurements were obtained with and without bilateral electricalstimulation (0.2-ms duration, threshold voltage) of the distalcut end of the vagus nerve's pharyngeal branch supplying PC motoroutput: 1) pressure-volume relationships in an isolated, sealedupper airway at a stimulation frequency of 30 Hz and 2) rostrallydirected axial force over a stimulation frequency range of 0-40Hz. Airway compliance determined from the pressure-volume relationshipsdecreased with PC stimulation at and below resting airway volume.Compared with the unstimulated condition, PC stimulation increasedairway pressure at airway volumes at and above resting volume.This constrictor effect progressively diminished as airway volumewas brought below resting volume. At relatively low airway volumesbelow resting volume, PC stimulation decreased airway pressurecompared with that without stimulation. PC stimulation generateda rostrally directed axial force that was directly related tostimulation frequency. The results indicate that PC activationstiffens the pharyngeal airway, exerting both radial and axialeffects. The radial effects are dependent on airway volume: constrictionof the airway at relatively high airway volumes, and dilationof the airway at relatively low airway volumes. The results implythat, under certain conditions, PC muscle activation may promotepharyngeal airwaypatency.

hyopharyngeus; cricothyroid; upper airway

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