高碳酸血症对人体血流动力学、变力性、舒张性及电生理指标的影响。

Effects of hypercapnia on hemodynamic, inotropic, lusitropic, and electrophysiologic indices in humans.

作者信息

Kiely D G, Cargill R I, Lipworth B J

机构信息

Department of Clinical Pharmacology, Ninewells Hospital and Medical School, University of Dundee, Scotland, United Kingdom.

出版信息

Chest. 1996 May;109(5):1215-21. doi: 10.1378/chest.109.5.1215.

DOI:10.1378/chest.109.5.1215

PMID:8625670

Abstract

STUDY OBJECTIVE

The inotropic, lusitropic, and electrophysiologic effects of acute hypercapnia in humans are not known. Although the effects of hypercapnia on the systemic circulation have been well documented, there is still some debate as to whether hypercapnia causes true pulmonary vasoconstriction in vivo. We have therefore evaluated the effects of acute hypercapnia on these cardiac indices and the interaction of hypercapnia with the systemic and pulmonary vascular beds in humans.

PARTICIPANTS AND INTERVENTIONS

Eight healthy male volunteers were studied using Doppler echocardiography. After resting for at least 30 min to achieve baseline hemodynamic parameters (T(0)), they were rendered hypercapnic to achieve an end-tidal carbon dioxide (CO2) of 7 kPa for 30 min by breathing a variable mixture of CO2/air (T1). They were restudied after 30 min recovery breathing air (T2). Hemodynamic, diastolic, and systolic flow parameters, QT dispersion (maximum-minimum QT interval measured in a 12-lead ECG), and venous blood samples for plasma renin activity (PRA), angiotensin II (ANG II), and aldosterone (ALDO) were measured at each time point.

RESULTS

Hypercapnia compared with placebo significantly increased mean pulmonary artery pressure 14 +/- 1 vs 9 +/- 1 mm Hg and pulmonary vascular resistance 171 +/- 17 vs 129 +/- 17 dyne.s.cm-5, respectively. Heart rate, stroke volume, cardiac output, and mean arterial BP were increased by hypercapnia. Indexes of systolic function, namely peak aortic velocity and aortic mean and peak acceleration, were unaffected by hypercapnia. Similarly, hypercapnia had no effect on lusitropic indexes reflected by its lack of effect on isovolumic relaxation time, mitral E-wave deceleration time, and mitral E/A wave ratio. Hypercapnia was found to significantly increase both QTc interval and QT dispersion: 428 +/- 8 vs 411 +/- 3 ms and 48 +/- 2 vs 33 +/- 4 ms, respectively. There was no significant effect of hypercapnia on PRA, ANG II, or ALDO.

CONCLUSION

Thus, acute hypercapnia appears to have no adverse inotropic or lusitropic effects on cardiac function, although repolarization abnormalities, reflected by an increase in QT dispersion, and its effects on pulmonary vasoconstriction may have important sequelae in man.

摘要

研究目的

急性高碳酸血症对人体的变力性、变时性及电生理效应尚不清楚。尽管高碳酸血症对体循环的影响已有充分记录，但对于高碳酸血症在体内是否会引起真正的肺血管收缩仍存在一些争议。因此，我们评估了急性高碳酸血症对这些心脏指标的影响以及高碳酸血症与人体体循环和肺循环血管床之间的相互作用。

参与者与干预措施

使用多普勒超声心动图对8名健康男性志愿者进行研究。在静息至少30分钟以达到基线血流动力学参数（T(0)）后，通过吸入可变比例的二氧化碳/空气混合物，使其达到呼气末二氧化碳（CO2）为7 kPa并持续30分钟，从而使其处于高碳酸血症状态（T1）。在恢复呼吸空气30分钟后（T2）再次对他们进行研究。在每个时间点测量血流动力学、舒张期和收缩期血流参数、QT离散度（在12导联心电图中测量的最大 - 最小QT间期）以及用于检测血浆肾素活性（PRA）、血管紧张素II（ANG II）和醛固酮（ALDO）的静脉血样本。

结果

与安慰剂相比，高碳酸血症分别使平均肺动脉压显著升高，从9±1 mmHg升至14±1 mmHg，肺血管阻力从129±17 dyne·s·cm⁻⁵升至171±17 dyne·s·cm⁻⁵。高碳酸血症使心率、每搏输出量、心输出量和平均动脉血压升高。收缩功能指标，即主动脉峰值速度、主动脉平均加速度和峰值加速度，不受高碳酸血症影响。同样，高碳酸血症对反映舒张功能的指标没有影响，这体现在它对等容舒张时间、二尖瓣E波减速时间和二尖瓣E/A波比值均无影响。发现高碳酸血症使QTc间期和QT离散度均显著增加，分别为428±8 ms对411±3 ms以及48±2 ms对33±4 ms。高碳酸血症对PRA、ANG II或ALDO没有显著影响。