Effects of Sleep-disordered Breathing on Cerebrovascular Regulation: A Population-based Study

Cerebrovascular regulation is impaired in patients with moderate to severe obstructive sleep apnea; however, it is unknown whether this impairment exists in individuals with less severe sleep-disordered breathing. To test the hypothesis that cerebrovascular responses to hypercapnia are attenuated in...

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Bibliographic Details
Published in:American journal of respiratory and critical care medicine 2010-12, Vol.182 (11), p.1445-1452
Main Authors: MORGAN, Barbara J, REICHMUTH, Kevin J, PEPPARD, Paul E, FINN, Laurel, BARCZI, Steven R, YOUNG, Terry, NIETO, F. Javier
Format: Article
Language:English
Subjects:
Anesthesia. Intensive care medicine. Transfusions. Cell therapy and gene therapy
Biological and medical sciences
Blood Flow Velocity
Blood Pressure
Blood. Blood coagulation. Reticuloendothelial system
Carbon Dioxide - metabolism
Cardiovascular disease
Cerebrovascular Circulation
Cohort analysis
Cohort Studies
Female
Flow velocity
Heart Rate
Humans
Hypercapnia - etiology
Hypercapnia - physiopathology
Hypotheses
I. Sleep and Control of Ventilation
Intensive care medicine
Male
Medical sciences
Middle Aged
Oxygen saturation
Pharmacology. Drug treatments
Polysomnography - methods
Pulmonary Ventilation
Questionnaires
Respiratory Function Tests - methods
Sleep apnea
Sleep Apnea Syndromes - complications
Sleep Apnea Syndromes - metabolism
Sleep Apnea Syndromes - physiopathology
Sleep disorders
Ultrasonography, Doppler, Transcranial - methods
Vasodilation
Wisconsin
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Summary:Cerebrovascular regulation is impaired in patients with moderate to severe obstructive sleep apnea; however, it is unknown whether this impairment exists in individuals with less severe sleep-disordered breathing. To test the hypothesis that cerebrovascular responses to hypercapnia are attenuated in a nonclinical population-based cohort. A rebreathing test that raised end-tidal CO₂ tension by 10 mm Hg was performed during wakefulness in 373 participants of the Wisconsin Sleep Cohort. We measured cerebral flow velocity (transcranial Doppler ultrasound); heart rate (electrocardiogram); blood pressure (photoplethysmograph); ventilation (pneumotachograph); and end-tidal CO₂ (expired gas analysis). Cerebrovascular CO₂ responsiveness was quantified as the slope of the linear relationship between flow velocity and end-tidal CO₂ during rebreathing. Linear regression analysis was performed using cerebrovascular CO₂ responsiveness as the outcome variable. Main independent variables were the apnea-hypopnea index and the mean level of arterial oxygen saturation during sleep. We observed a positive correlation between cerebrovascular CO₂ responsiveness and the mean level of oxygen saturation during sleep that was statistically significant in unadjusted analysis and after adjustment for known confounders and the increase in arterial pressure during rebreathing. Each 5% decrease in Sa(O₂) during sleep predicted a decrease in cerebrovascular reactivity of 0.4 ± 0.2 cm/second/mm Hg P(ET)CO₂. In contrast, the negative correlation between cerebrovascular CO₂ responsiveness and apnea-hypopnea index was statistically significant only in the unadjusted analysis. Hypercapnic vasodilation in the cerebral circulation is blunted in individuals with sleep-disordered breathing. This impairment is correlated with hypoxemia during sleep.
ISSN:1073-449X
1535-4970
DOI:10.1164/rccm.201002-0313OC