急性低氧时交感激活对血管反应的性别差异。
Sex differences in the vascular response to sympathetic activation during acute hypoxaemia.
机构信息
Department of Nutrition and Exercise Physiology, University of Missouri, Columbia, MO, USA.
出版信息
Exp Physiol. 2021 Aug;106(8):1689-1698. doi: 10.1113/EP089461. Epub 2021 Jul 10.
NEW FINDINGS
What is the central question of this study? Sympathetically mediated vasoconstriction is preserved during hypoxaemia in humans, but our understanding of vascular control comes from predominantly male cohorts. We tested the hypothesis that young women attenuate sympathetically mediated vasoconstriction during steady-state hypoxaemia, whereas men do not? What is the main finding and its importance? Sympathetically mediated vasoconstriction is preserved or even enhanced during steady-state hypoxia in young men, and the peripheral vascular response to sympathetic activation during hypoxaemia is attenuated in young women. These data advance our understanding of sex-related differences in hypoxic vascular control.
ABSTRACT
Activation of the sympathetic nervous system causes vasoconstriction and a reduction in peripheral blood flow. Sympathetically mediated vasoconstriction may be attenuated during systemic hypoxia to maintain oxygen delivery; however, in predominantly male participants sympathetically mediated vasoconstriction is preserved or even enhanced during hypoxaemia. Given the potential for sex-specific differences in hypoxic vascular control, prior results are limited in application. We tested the hypothesis that young women attenuate sympathetically mediated vasoconstriction during steady-state hypoxaemia, whereas men do not. Healthy young men (n = 13, 25 ± 4 years) and women (n = 11, 24 ± 4 years) completed two trials consisting of a 2-min cold pressor test (CPT, a well-established sympathoexcitatory stimulus) during baseline normoxia and steady-state hypoxaemia. Beat-to-beat blood pressure (finger photoplethysmography) and forearm blood flow (venous occlusion plethysmography) were measured continuously. Total and forearm vascular conductance (TVC and FVC, respectfully) were calculated. A change (Δ) in TVC and FVC from steady-state during the last 1 min of CPT was calculated and differences between normoxia and systemic hypoxia were assessed. In men, the reduction in TVC during CPT was greater during hypoxia compared to normoxia (ΔTVC, P = 0.02), whereas ΔTVC did not differ between conditions in women (P = 0.49). In men, ΔFVC did not differ between normoxia and hypoxia (P = 0.92). In women, the reduction in FVC during CPT was attenuated during hypoxia (ΔFVC, P < 0.01). We confirm sympathetically mediated vasoconstriction is preserved or enhanced during hypoxaemia in young men, whereas peripheral vascular responsiveness to sympathetic activation during hypoxaemia is attenuated in young women. The results advance our understanding of sex-related differences in hypoxic vascular control.
新发现
这项研究的核心问题是什么?在人类低氧血症期间,交感介导的血管收缩得以保留,但我们对血管控制的理解来自主要是男性队列。我们测试了这样一个假设,即年轻女性在稳态低氧期间减弱交感介导的血管收缩,而男性则不会?主要发现及其重要性是什么?在年轻男性中,交感介导的血管收缩在稳态低氧期间得以保留,甚至增强,而在低氧期间交感神经激活引起的外周血管反应在年轻女性中减弱。这些数据增进了我们对缺氧血管控制中性别相关差异的理解。
摘要
激活交感神经系统会导致血管收缩和外周血流量减少。在全身缺氧期间,交感介导的血管收缩可能会减弱,以维持氧输送;然而,在主要是男性参与者中,在低氧血症期间,交感介导的血管收缩得以保留,甚至增强。鉴于缺氧血管控制中可能存在性别特异性差异,先前的结果在应用中受到限制。我们测试了这样一个假设,即年轻女性在稳态低氧期间减弱交感介导的血管收缩,而男性则不会。13 名健康年轻男性(25 ± 4 岁)和 11 名年轻女性(24 ± 4 岁)参与者分别完成了两项试验,包括在基线正常氧合和稳态低氧期间进行 2 分钟冷加压试验(CPT,一种既定的交感兴奋刺激)。连续测量血压(手指光容积描记法)和前臂血流量(静脉闭塞容积描记法)。计算总血管和前臂血管传导率(分别为 TVC 和 FVC)。从 CPT 的最后 1 分钟的稳态计算 TVC 和 FVC 的变化(Δ),并评估正常氧合和系统性缺氧之间的差异。在男性中,CPT 期间 TVC 的减少在低氧时比在正常氧合时更大(Δ TVC,P=0.02),而女性在两种情况下的Δ TVC 没有差异(P=0.49)。在男性中,正常氧合和低氧之间的Δ FVC 没有差异(P=0.92)。在女性中,CPT 期间 FVC 的减少在低氧时减弱(Δ FVC,P<0.01)。我们证实,在年轻男性中,交感介导的血管收缩在低氧血症期间得以保留或增强,而在年轻女性中,低氧期间交感神经激活引起的外周血管反应性减弱。研究结果增进了我们对缺氧血管控制中性别相关差异的理解。
Zotero 插件