Respiratory-related pharyngeal constrictor muscle activity in awake goats

Respiratory-related electromyogram (EMG) activities of the middle (MPC) and inferior (IPC) pharyngeal constrictor (PC) muscles were determined simultaneously with up to six additional upper airway abductor and adductor muscles in awake adult goats. Phasic PC activation began in late inspiration and...

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Bibliographic Details
Published in:Respiration physiology 1999-06, Vol.116 (1), p.9-23
Main Authors: O’Halloran, K.D, Herman, J.K, Bisgard, G.E
Format: Article
Language:English
Subjects:
Animals
Apnea - chemically induced
Biological and medical sciences
Cardiorespiratory control. Arterial mecano- and chemoreceptor
Chemoreceptor Cells - metabolism
Control of breathing, pharyngeal constrictor muscle activity
Dopamine
Electromyography
Fundamental and applied biological sciences. Psychology
Goats - physiology
Hypercapnia - physiopathology
Hypercapnia, pharyngeal muscles
Hypoxia - physiopathology
Hypoxia, pharyngeal muscles
Mammals, goat
Muscle Contraction - drug effects
Muscles, pharyngeal constrictor
Pharyngeal Muscles - drug effects
Pharynx, muscle activity
Respiration - drug effects
Sodium Cyanide - pharmacology
Upper airways, pharyngeal constrictor muscle
Vertebrates: respiratory system
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Summary:Respiratory-related electromyogram (EMG) activities of the middle (MPC) and inferior (IPC) pharyngeal constrictor (PC) muscles were determined simultaneously with up to six additional upper airway abductor and adductor muscles in awake adult goats. Phasic PC activation began in late inspiration and persisted throughout expiration with a steady, an augmenting or a biphasic pattern of activity. Considerable differences were noted in the EMG responses of the MPC and IPC muscles to respiratory-related stimuli. During hypoxia and hypercapnia, phasic MPC activity decreased or was not recruited whereas phasic IPC activity was augmented with increased chemical drive. During spontaneous augmented breaths and peripheral chemoreceptor stimulation with sodium cyanide, the pattern of activation of the MPC was similar to that of the thyroarytenoid muscle (TA), a laryngeal adductor whereas IPC activity was strikingly similar to activity of the laryngeal and pharyngeal dilators. The expiratory portion of an augmented breath was associated with increased phasic MPC and TA but not IPC activities. Dopamine-induced apneas resulted in tonic activation of the MPC and TA at a level equal to or greater than control activity but no recruitment of IPC activity. The marked differences in MPC and IPC responses to respiratory-related stimuli suggests that these muscles may have different mechanical effects on pharyngeal airway caliber in the goat. The results suggest that the MPC may help brake expiratory flow thus helping to control expiratory timing and lung volume. In contrast, the IPC may promote pharyngeal airway patency by stiffening or dilating the pharyngeal airway. The results demonstrate that a variety of stimuli can influence respiratory-related PC activity and suggest that the PC muscles are important in the regulation of breathing and upper airway patency.
ISSN:0034-5687
DOI:10.1016/S0034-5687(99)00026-2