干浸实验中颈静脉和门静脉容积、大脑中静脉血流速度及颅内压

Jugular and Portal Vein Volume, Middle Cerebral Vein Velocity, and Intracranial Pressure in Dry Immersion.

作者信息

Arbeille Philippe, Avan Paul, Treffel Loïc, Zuj Kathryn, Normand Herve, Denise Pierre

出版信息

Aerosp Med Hum Perform. 2017 May 1;88(5):457-462. doi: 10.3357/AMHP.4762.2017.

DOI:10.3357/AMHP.4762.2017

PMID:28417833

Abstract

BACKGROUND

The objective was to determine if short term exposure to dry immersion (DI) results in a cephalic fluid shift similar to what has been observed with spaceflight.

METHODS

Data were collected from 10 individuals at rest and during the first 2 h of dry immersion. Jugular vein (JV), portal vein (PV), and thyroid volume were measured using 3D echography. Middle cerebral vein velocity (MCVv) was determined using transcranial Doppler ultrasound. The cochlear response to audio stimulation was used to derive an estimate of intracranial pressure (dICP).

RESULTS

After 2 h of DI, there was a significant increase (mean ± SD) in JV (2.21 ± 1.10 mL), PV (1.05 ± 0.48 mL), and thyroid (0.428 ± 0.313 mL) volume. MCVv was also significantly increased with DI (3.90 ± 5.03 cm · s-1). There was no change in dICP with DI in part due to large individual variability. The range of dICP changes appeared to be related to MCVv, with participants with the largest increase in MCVv also showing increased dICP.

DISCUSSION

The results suggest that DI induces a significant cephalic fluid shift similar to what is observed with spaceflight. The increased thyroid volume suggests that cerebral tissue may also be subjected to similar fluid filtration, with implications for changes in intracranial pressure. However, despite all participants having an increase in JV and thyroid volume, only half showed an increase in dICP, suggesting that increased venous pooling alone is not sufficient to cause increased intracranial pressure.Arbeille P, Avan P, Treffel L, Zuj K, Normand H, Denise P. Jugular and portal vein volume, middle cerebral vein velocity, and intracranial pressure in dry immersion. Aerosp Med Hum Perform. 2017; 88(5):457-462.

摘要

背景

目的是确定短期暴露于干浸（DI）是否会导致类似于太空飞行中观察到的头向体液转移。

方法

收集了10名个体在静息状态以及干浸开始后2小时内的数据。使用三维超声心动图测量颈静脉（JV）、门静脉（PV）和甲状腺体积。使用经颅多普勒超声测定大脑中静脉速度（MCVv）。利用耳蜗对音频刺激的反应来估算颅内压（dICP）。

结果

干浸2小时后，颈静脉（2.21±1.10 mL）、门静脉（1.05±0.48 mL）和甲状腺（0.428±0.313 mL）体积显著增加。大脑中静脉速度也随着干浸显著增加（3.90±5.03 cm·s-1）。干浸时颅内压没有变化，部分原因是个体差异较大。颅内压变化范围似乎与大脑中静脉速度有关，大脑中静脉速度增加最大的参与者颅内压也升高。

讨论

结果表明，干浸会引起类似于太空飞行中观察到的显著头向体液转移。甲状腺体积增加表明脑组织可能也受到类似的液体滤过作用，这对颅内压变化有影响。然而，尽管所有参与者的颈静脉和甲状腺体积都增加了，但只有一半的人颅内压升高，这表明仅静脉血池增加不足以导致颅内压升高。

阿尔贝耶P、阿万P、特雷费尔L、祖伊K、诺曼德H、丹尼斯P。干浸时颈静脉和门静脉体积、大脑中静脉速度及颅内压。航空航天医学与人类表现。2017；88（5）：457 - 462。

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干浸实验中颈静脉和门静脉容积、大脑中静脉血流速度及颅内压

Jugular and Portal Vein Volume, Middle Cerebral Vein Velocity, and Intracranial Pressure in Dry Immersion.

作者信息

出版信息

BACKGROUND

METHODS

RESULTS

DISCUSSION

背景

方法

结果

讨论

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