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模拟屏气潜水至20米深度时的肺泡气体交换

Alveolar gas exchange during simulated breath-hold diving to 20 m.

作者信息

Linér M H, Ferrigno M, Lundgren C E

机构信息

Department of Physiology, State University of New York, Buffalo 14214.

出版信息

Undersea Hyperb Med. 1993 Mar;20(1):27-38.

PMID:8471957
Abstract

Alveolar gas exchange, as affected by changes in pulmonary blood flow, was studied in five subjects performing breath holds lasting 75 s at the surface and during compression to 20 m in a hyperbaric chamber. After reaching the maximal depth, VO2 started to increase, compared to control, reaching a maximum of 346 +/- 66 (SE) ml (STPD).min-1.m2 (body surface area) at 50 s, i.e., early in the ascent; it exceeded the 50-s surface breath-hold value by 214 +/- 9 ml.min-1.m2. During descent, CO2 was absorbed from the alveoli into the blood, initially at 140 +/- 24 ml.min-1.m2; during ascent CO2 was transferred back into the lungs. These changes reflected compression and expansion of lung air. The increase in VO2 during the dives, which are not steady states, may be explained by an increasing cardiac output at depth. An augmented cardiac output had earlier been observed under identical conditions and explained by a drop in transthoracic pressure, enhancing venous return. Upon surfacing, the PAO2 was about 20 mmHg lower than after surface breath holds, reflecting the effects of changes in cardiac output.

摘要

在高压舱中,对5名受试者进行了研究,观察肺血流量变化对肺泡气体交换的影响。这些受试者在水面进行75秒屏气,以及在加压至20米深度过程中进行屏气。到达最大深度后,与对照组相比,VO2开始增加,在上升初期的50秒时达到最大值346±66(标准误)毫升(标准温度和压力干燥状态)·分钟-1·平方米(体表面积);比水面50秒屏气时的值高出214±9毫升·分钟-1·平方米。在下降过程中,二氧化碳从肺泡被吸收进入血液,最初速率为140±24毫升·分钟-1·平方米;在上升过程中,二氧化碳又被转移回肺部。这些变化反映了肺内气体的压缩和膨胀。潜水过程中VO2的增加(潜水并非稳定状态),可能是由于深度增加时心输出量增加所致。在相同条件下,早期曾观察到心输出量增加,并解释为经胸压力下降,增强了静脉回流。浮出水面时,肺泡氧分压比水面屏气后低约20 mmHg,这反映了心输出量变化的影响。

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