The effects of changes in laryngeal airway CO2 concentration on genioglossus muscle activity in the anaesthetized cat.

In the anaesthetized cat the larynx was isolated in situ, artificially ventilated and used to assess reflex effects exerted by respiration-related laryngeal stimuli on genioglossus electromyographic activity (Gg EMG) and respiratory frequency (RF). Phasic Gg EMG was not observed when the larynx was unventilated but was evoked, with a concurrent decrease in RF, when negative pressures or oscillatory pressures similar to those of normal ventilation were applied to the larynx. Increases in laryngeal airway CO2 concentration also enhanced Gg EMG and reduced RF. All reflex effects were abolished by bilateral section of the superior laryngeal nerves. We propose that negative intralaryngeal pressure and CO2 may act together to restore pharyngeal patency during obstructive apnoea.