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人类静息和运动状态下高碳酸血症引起的通气和脑血流量起始反应

Onset responses of ventilation and cerebral blood flow to hypercapnia in humans: rest and exercise.

作者信息

Ogoh Shigehiko, Ainslie Philip N, Miyamoto Tadayoshi

机构信息

Department of Integrative Physiology, University of North Texas Health Science Center, Fort Worth, Texas 76107, USA.

出版信息

J Appl Physiol (1985). 2009 Mar;106(3):880-6. doi: 10.1152/japplphysiol.91292.2008. Epub 2009 Jan 8.

Abstract

The respiratory and cerebrovascular reactivity to changes in arterial Pco(2) (Pa(CO(2))) is an important mechanism that maintains CO(2) or pH homeostasis in the brain. It remains unclear, however, how cerebrovascular CO(2) reactivity might influence the respiratory chemoreflex. The purpose of the present study was therefore to examine the interaction between onset responses of the respiratory chemoreflex and middle cerebral artery (MCA) mean blood velocity (V(mean)) to hypercapnia (5.0% CO(2)-40% O(2)-balance N(2)) at rest and during dynamic exercise ( approximately 1.0 l/min O(2) consumption). Each onset response was evaluated using a single-exponential regression model consisting of the response time latency [CO(2)-response delay (t(0))] and time constant (tau). At rest, t(0) and tau data indicated that the MCA V(mean) onset response was faster than the ventilatory (Ve) response (P < 0.001). In contrast, during exercise, t(0) of Ve and MCA V(mean) onset responses were decreased. In addition, despite the enhanced Pa(CO(2)) response to CO(2) administration (P = 0.014), tau of MCA V(mean) tended to increase during exercise (P = 0.054), whereas tau of Ve decreased (P = 0.015). These findings indicate that 1) at rest, faster washout of CO(2) via cerebral vasodilation results in a reduced activation of the central chemoreflex and subsequent reduced Ve onset response, and 2) during exercise, despite higher rates of increasing Pa(CO(2)), the lack of change in the onset response of cerebral blood flow and reduced washout of CO(2) may act to augment the Ve onset response.

摘要

呼吸和脑血管对动脉血二氧化碳分压(Pa(CO₂))变化的反应性是维持大脑二氧化碳或pH值稳态的重要机制。然而,脑血管二氧化碳反应性如何影响呼吸化学反射仍不清楚。因此,本研究的目的是在静息状态和动态运动(约1.0升/分钟耗氧量)期间,研究呼吸化学反射的起始反应与大脑中动脉(MCA)平均血流速度(V(mean))对高碳酸血症(5.0% CO₂ - 40% O₂ - 其余为N₂)的相互作用。每个起始反应均使用由反应时间潜伏期[二氧化碳反应延迟(t(0))]和时间常数(tau)组成的单指数回归模型进行评估。在静息状态下,t(0)和tau数据表明MCA V(mean)起始反应比通气(Ve)反应更快(P < 0.001)。相反,在运动期间,Ve和MCA V(mean)起始反应的t(0)均降低。此外,尽管对二氧化碳给药的Pa(CO₂)反应增强(P = 0.014),但MCA V(mean)的tau在运动期间趋于增加(P = 0.054),而Ve的tau则降低(P = 0.015)。这些发现表明:1)在静息状态下,通过脑血管舒张更快地清除二氧化碳会导致中枢化学反射的激活减少,进而使Ve起始反应降低;2)在运动期间,尽管Pa(CO₂)升高的速率更高,但脑血流量起始反应缺乏变化以及二氧化碳清除减少可能会增强Ve起始反应。

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