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  • Title: Morning attenuation in cerebrovascular CO2 reactivity in healthy humans is associated with a lowered cerebral oxygenation and an augmented ventilatory response to CO2.
    Author: Cummings KJ, Swart M, Ainslie PN.
    Journal: J Appl Physiol (1985); 2007 May; 102(5):1891-8. PubMed ID: 17317869.
    Abstract:
    We hypothesized that, in healthy subjects without pharmacological intervention, an overnight reduction in cerebrovascular CO(2) reactivity would be associated with an elevated hypercapnic ventilatory [ventilation (VE)] responsiveness and a reduction in cerebral oxygenation. In 20 healthy male individuals with no sleep-related disorders, continuous recordings of blood velocity in the middle cerebral artery, arterial blood pressure, VE, end-tidal gases, and frontal cortical oxygenation using near infrared spectroscopy were monitored during hypercapnia (inspired CO(2), 5%), hypoxia [arterial O(2) saturation (Sa(O(2))) approximately 84%], and during a 20-s breath hold to investigate the related responses to hypercapnia, hypoxia, and apnea, respectively. Measurements were conducted in the evening (6-8 PM) and in the early morning (6-8 AM). From evening to morning, the cerebrovascular reactivity to hypercapnia was reduced (5.3 +/- 0.6 vs. 4.6 +/- 1.1%/Torr; P < 0.05) and was associated with a reduced increase in cerebral oxygenation (r = 0.39; P < 0.05) and an elevated morning hypercapnic VE response (r = 0.54; P < 0.05). While there were no overnight changes in cerebrovascular reactivity or VE response to hypoxia, there was greater cerebral desaturation for a given Sa(O(2)) in the morning (AM, -0.45 +/- 0.14 vs. PM, -0.35 +/- 0.14%/Sa(O(2)); P < 0.05). Following the 20-s breath hold, in the morning, there was a smaller surge middle cerebral artery velocity and cerebral oxygenation (P < 0.05 vs. PM). These data indicate that normal diurnal changes in the cerebrovascular response to CO(2) influence the hypercapnic ventilatory response as well as the level of cerebral oxygenation during changes in arterial Pco(2); this may be a contributing factor for diurnal changes in breathing stability and the high incidence of stroke in the morning.
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