在 2.5% 的高碳酸环境中暴露 10 分钟会增加脑血流,但不会影响执行功能

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Mustafa Shirzad , James Van Riesen , Nikan Behboodpour , Matthew Heath
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引用次数: 0

摘要

太空旅行和探索与环境中二氧化碳的增加(即高碳酸环境)有关。一些研究报告称,与长期高碳酸环境相关的生理变化(如脑血流量[CBF]增加)会导致 "太空雾",从而对认知和精神运动表现产生不利影响,而另一些研究报告则称这种变化没有发生或发生了积极变化。在此,我们采用了反累积任务来评估短暂暴露于高碳酸环境是否会影响自上而下的执行功能(EF)。反复视要求目标指向性眼动与目标镜像对称,是识别微妙的执行功能变化的理想工具。健康的年轻成年人(19-25 岁)在吸入 2.5% 的二氧化碳(FiCO2)10 分钟(即高碳酸血症状态)之前(即干预前)、期间(即同时)和之后(即干预后)以及在正常碳酸血症状态(即对照组)期间进行了反累积试验。在这两种条件下,均测量了脑血管通气、通气和心肺反应。结果显示,高碳酸血症条件下的 CBF、通气量和潮气末二氧化碳均有所增加,因此表现出了对 FiCO2 增加的预期生理适应。但值得注意的是,零假设和等效测试表明,同时和干预后的反施法反应时间对高碳酸血症环境没有耐受性;也就是说,瞬时暴露于 2.5% 的 FiCO2 不会对以眼球运动为基础的 EF 测量产生实时或持久的影响。因此,研究结果提供了一个框架,在一定程度上确定了维持高水平 EF 的 FiCO2 百分比和时限。未来的工作将探索慢性高碳酸血症暴露期间的 CBF 和 EF 动态,以更直接地应对太空飞行和探索的挑战。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
10-min exposure to a 2.5% hypercapnic environment increases cerebral blood blow but does not impact executive function

Space travel and exploration are associated with increased ambient CO2 (i.e., a hypercapnic environment). Some work reported that the physiological changes (e.g., increased cerebral blood flow [CBF]) associated with a chronic hypercapnic environment contributes to a “space fog” that adversely impacts cognition and psychomotor performance, whereas other work reported no change or a positive change. Here, we employed the antisaccade task to evaluate whether transient exposure to a hypercapnic environment influences top-down executive function (EF). Antisaccades require a goal-directed eye movement mirror-symmetrical to a target and are an ideal tool for identifying subtle EF changes. Healthy young adults (aged 19–25 years) performed blocks of antisaccade trials prior to (i.e., pre-intervention), during (i.e., concurrent) and after (i.e., post-intervention) 10-min of breathing factional inspired CO2 (FiCO2) of 2.5% (i.e., hypercapnic condition) and during a normocapnic (i.e., control) condition. In both conditions, CBF, ventilatory and cardiorespiratory responses were measured. Results showed that the hypercapnic condition increased CBF, ventilation and end-tidal CO2 and thus demonstrated an expected physiological adaptation to increased FiCO2. Notably, however, null hypothesis and equivalence tests indicated that concurrent and post-intervention antisaccade reaction times were refractory to the hypercapnic environment; that is, transient exposure to a FiCO2 of 2.5% did not produce a real-time or lingering influence on an oculomotor-based measure of EF. Accordingly, results provide a framework that – in part – establishes the FiCO2 percentage and timeline by which high-level EF can be maintained. Future work will explore CBF and EF dynamics during chronic hypercapnic exposure as more direct proxy for the challenges of space flight and exploration.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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