Grover R F, Reeves J T, Maher J T, McCullough R E, Cruz J C, Denniston J C, Cymerman A
Circ Res. 1976 May;38(5):391-6. doi: 10.1161/01.res.38.5.391.
Hypobaric hypoxia causes hypocapina and alkalosis, hemoconcentration and increased hematocrit, and a decreased cardiac stroke volume. To assess the role of the hypocapnic alkalosis in causing these other changes, five men were exposed to hypobaric hypoxia at a barometric pressure (PB) of 440 torr with an alveolar O2 tension of 55 torr for 5 days with 3.77% CO2 added to the atmosphere to prevent alkalosis. They did not lose weight, and arterial CO2 tension, pH, and cardiac stroke volume were unchanged. An unchanged hematocrit implied an unchanged plasma volume. During exercise to maximum, stroke volumes equaled sea level values but arterial hypoxemia was profound, the arterial O2 tension being 39 torr. By contrast, three men at high altitude without CO2 supplementation (PB=455 torr; alveolar PO2=56 torr) had weight loss, hypocapnia, alkalosis, and decreased stroke volume. Increased hematocrits suggested decreased plasma volumes. During exercise, arterial PO2 (48 torr) was higher than in the group receiving CO2. Maximum oxygen uptakes were decreased to a similar degree in the two groups. Catecholamine excretion doubled in the group with CO2 but in the group without CO2 catechoamine excretion was unchanged. A normal pH at high altitude apparently maintained plasma volume, which, with the increased catecholamine excretion, may have prevented a decrease in stroke volume. However, the subjects with CO2 added did not have enhanced oxygen transport, because their arterial oxygenation was impaired.
低氧性低氧血症会导致低碳酸血症和碱中毒、血液浓缩和血细胞比容增加,以及心搏量减少。为了评估低碳酸性碱中毒在引发这些其他变化中的作用,五名男性在气压(PB)为440托、肺泡氧分压为55托的条件下暴露于低氧性低氧血症环境中5天,同时在空气中添加3.77%的二氧化碳以预防碱中毒。他们体重未减轻,动脉血二氧化碳分压、pH值和心搏量均未改变。血细胞比容不变意味着血浆量不变。在进行最大运动时,心搏量等于海平面值,但动脉血氧不足严重,动脉氧分压为39托。相比之下,三名在高海拔地区未补充二氧化碳(PB = 455托;肺泡氧分压 = 56托)的男性出现体重减轻、低碳酸血症、碱中毒和心搏量减少。血细胞比容增加表明血浆量减少。在运动过程中,动脉氧分压(48托)高于接受二氧化碳补充的组。两组的最大摄氧量均下降到相似程度。补充二氧化碳组的儿茶酚胺排泄量增加了一倍,但未补充二氧化碳组的儿茶酚胺排泄量未变。高海拔地区正常的pH值显然维持了血浆量,这与儿茶酚胺排泄量增加一起,可能防止了心搏量的减少。然而,添加二氧化碳的受试者并没有增强氧运输,因为他们的动脉氧合受损。
