健康人群在模拟太空飞行中脑灌注、血管周围间隙体积和脑室体积的纵向变化。

Longitudinal Changes in Cerebral Perfusion, Perivascular Space Volume, and Ventricular Volume in a Healthy Cohort Undergoing a Spaceflight Analog.

机构信息

From the Department of Radiology and Radiological Science (J.B.T., J.A.T., H.R.C., J.H.C., M.D.T., G.G., D.R.R.), Medical University of South Carolina; Charleston, South Carolina.

Laboratory of Neuroimaging (F.S.), University of Southern California, Los Angeles, California.

出版信息

AJNR Am J Neuroradiol. 2023 Sep;44(9):1026-1031. doi: 10.3174/ajnr.A7949. Epub 2023 Aug 10.

DOI:10.3174/ajnr.A7949

PMID:37562828

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10494950/

Abstract

BACKGROUND AND PURPOSE

A global decrease in brain perfusion has recently been reported during exposure to a ground-based spaceflight analog. Considering that CSF and glymphatic flow are hypothesized to be propelled by arterial pulsations, it is unknown whether a change in perfusion would impact these CSF compartments. The aim of the current study was to evaluate the relationship among changes in cerebral perfusion, ventricular volume, and perivascular space volume before, during, and after a spaceflight analog.

MATERIALS AND METHODS

Eleven healthy participants underwent 30 days of bed rest at 6° head-down tilt with 0.5% atmospheric CO as a spaceflight analog. For each participant, 6 MR imaging brain scans, including perfusion and anatomic-weighted T1 sequences, were obtained before, during, and after the analog period. Global perfusion, ventricular volume, and perivascular space volume time courses were constructed and evaluated with repeated measures ANOVAs.

RESULTS

Global perfusion followed a divergent time trajectory from ventricular and perivascular space volume, with perfusion decreasing during the analog, whereas ventricular and perivascular space volume increased ( < .001). These patterns subsequently reversed during the 2-week recovery period.

CONCLUSIONS

The patterns of change in brain physiology observed in healthy participants suggest a relationship between cerebral perfusion and CSF homeostasis. Further study is warranted to determine whether a causal relationship exists and whether similar neurophysiologic responses occur during spaceflight.

摘要

背景与目的

最近有报道称，在模拟地面太空飞行期间，大脑灌注整体减少。考虑到 CSF 和糖质淋巴流动被假设是由动脉搏动推动的，目前尚不清楚灌注的变化是否会影响这些 CSF 区室。本研究的目的是评估模拟飞行前后脑灌注、脑室容积和血管周围间隙体积变化之间的关系。

材料和方法

11 名健康参与者以 6°头低位倾斜 30 天，0.5%大气 CO 作为模拟飞行。对于每个参与者，在模拟前后获得了 6 次磁共振成像脑扫描，包括灌注和解剖加权 T1 序列。使用重复测量 ANOVA 构建和评估全局灌注、脑室容积和血管周围间隙体积的时间过程。

结果

全局灌注的时间轨迹与脑室和血管周围间隙体积不同，模拟期间灌注下降，而脑室和血管周围间隙体积增加（<.001）。这些模式随后在 2 周恢复期内逆转。

结论

健康参与者观察到的脑生理学变化模式表明脑灌注和 CSF 动态平衡之间存在关系。需要进一步研究以确定是否存在因果关系，以及在太空飞行期间是否会发生类似的神经生理学反应。

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