Journal
JOURNAL OF APPLIED PHYSIOLOGY
Volume 111, Issue 3, Pages 696-703Publisher
AMER PHYSIOLOGICAL SOC
DOI: 10.1152/japplphysiol.00123.2011
Keywords
pharynx; obstructive sleep apnea; neuromuscular control; obesity; aging
Categories
Funding
- National Heart, Lung, and Blood Institute [HL-50381, HL-37379]
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Polotsky M, Elsayed-Ahmed AS, Pichard L, Richardson RA, Smith PL, Schneider H, Kirkness JP, Polotsky V, Schwartz AR. Effect of age and weight on upper airway function in a mouse model. J Appl Physiol 111: 696-703, 2011. First published June 30, 2011; doi: 10.1152/japplphysiol.00123.2011.-Defects in pharyngeal mechanical and neuromuscular control are required for the development of obstructive sleep apnea. Obesity and age are known sleep apnea risk factors, leading us to hypothesize that specific defects in upper airway neuromechanical control are associated with weight and age in a mouse model. In anesthetized, spontaneously breathing young and old wild-type C57BL/6J mice, genioglossus electromyographic activity (EMG(GG)) was monitored and upper airway pressure-flow dynamics were characterized during ramp decreases in nasal pressure (Pn, cmH(2)O). Specific body weights were targeted by controlling caloric intake. The passive critical pressure (Pcrit) was derived from pressure-flow relationships during expiration. The Pn threshold at which inspiratory flow limitation (IFL) developed and tonic and phasic EMG(GG) activity during IFL were quantified to assess the phasic modulation of pharyngeal patency. The passive Pcrit increased progressively with increasing body weight and increased more in the old than young mice. Tonic EMG(GG) decreased and phasic EMG(GG) increased significantly with obesity. During ramp decreases in Pn, IFL developed at a higher (less negative) Pn threshold in the obese than lean mice, although the frequency of IFL decreased with age and weight. The findings suggest that weight imposes mechanical loads on the upper airway that are greater in the old than young mice. The susceptibility to upper airway obstruction increases with age and weight as tonic neuromuscular activity falls. IFL can elicit phasic responses in normal mice that mitigate or eliminate the obstruction altogether.
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