Ventilatory responses to hypercapnia during wakefulness and sleep in obese adolescents with and without obstructive sleep apnea syndrome

Journal Name: 
Sleep
Authors: 
Yuan,H.
Pinto,S.J.
Huang,J.
McDonough,J.M.
Ward,M.B.
Lee,Y.N.
Bradford,R.M.
Gallagher,P.R.
Shults,J.
Konstantinopoulou,S.
Samuel,J.M.
Katz,E.S.
Hua,S.
Tapia,I.E.
Marcus,C.L.
Abstract: 
STUDY OBJECTIVES: Abnormal ventilatory drive may contribute to the pathophysiology of the childhood obstructive sleep apnea syndrome (OSAS). Concomitant with the obesity epidemic, more adolescents are developing OSAS. However, few studies have specifically evaluated the obese adolescent group. The authors hypothesized that obese adolescents with OSAS would have a blunted hypercapnic ventilatory response (HCVR) while awake and blunted ventilatory responses to carbon dioxide (CO(2)) during sleep compared with obese and lean adolescents without OSAS. DESIGN: CVR was measured during wakefulness. During nonrapid eye movement (NREM) and rapid eye movement (REM) sleep, respiratory parameters and genioglossal electromyogram were measured during CO(2) administration in comparison with room air in obese adolescents with OSAS, obese control study participants, and lean control study participants. SETTING: Sleep laboratory. PARTICIPANTS: Twenty-eight obese patients with OSAS, 21 obese control study participants, and 37 lean control study participants. RESULTS: The obese OSAS and obese control groups had a higher HCVR compared with the lean control group during wakefulness. During both sleep states, all 3 groups had a response to CO(2); however, the obese OSAS group had lower percentage changes in minute ventilation, inspiratory flow, inspiratory time, and tidal volume compared with the 2 control groups. There were no significance differences in genioglossal activity between groups. CONCLUSIONS: HCVR during wakefulness is increased in obese adolescents. Obese adolescents with OSAS have blunted ventilatory responses to CO(2) during sleep and do not have a compensatory prolongation of inspiratory time, despite having normal CO(2) responsivity during wakefulness. Central drive may play a greater role than upper airway neuromotor tone in adapting to hypercapnia
9
2012
Volume: 
35
Pages: 
1257-1267
Keywords: 
administration & dosage, Adolescent, Analysis of Variance, Carbon Dioxide, Child, Comparison, complications, Control Groups, differences, Disease, electronic, etiology, Female, hospital, Humans, Hypercapnia, Laboratories, laboratory, Male, metabolism, Methods, Monitoring,Physiologic, Movement, Obesity, patient, Patients, physiopathology, Polysomnography, Research, Research Support, Respiratory Function Tests, response, Role, Sleep, Sleep Apnea,Obstructive, Sleep,Rem, support, Tidal Volume, Time, Universities, Wakefulness