高海拔适应前及适应过程中血流增加对肺循环的影响。
Effect of Increased Blood Flow on Pulmonary Circulation Before and During High Altitude Acclimatization.
作者信息
Hilty Matthias Peter, Müller Andrea, Flück Daniela, Siebenmann Christoph, Rasmussen Peter, Keiser Stefanie, Auinger Katja, Lundby Carsten, Maggiorini Marco
机构信息
1 Medical Intensive Care Unit, University Hospital of Zurich , Switzerland .
2 Center for Integrative Human Physiology (ZIHP), Institute of Physiology, University of Zurich , Switzerland .
出版信息
High Alt Med Biol. 2016 Dec;17(4):305-314. doi: 10.1089/ham.2016.0004. Epub 2016 Oct 18.
UNLABELLED
Matthias Peter Hilty, Andrea Mueller, Daniela Flück, Christoph Siebenmann, Peter Rasmussen, Stefanie Keiser, Katja Auinger, Carsten Lundby, and Marco Maggiorini. Effect of increased blood flow on the pulmonary circulation before and during high altitude acclimatization. High Alt Med Biol. 17:305-314, 2016.-Introduction and Methods: Acute exposure to high altitude increases pulmonary artery pressure (Ppa) and pulmonary vascular resistance (PVR). The evolution of Ppa and PVR with continuous hypoxic exposure remains, however, elusive. To test the hypothesis that altitude exposure leads to a persistent elevation in Ppa and PVR throughout acclimatization in seven healthy male subjects, echocardiography was performed at sea level (SL; 488 m) weekly during a 4-week sojourn at 3454 m (HA1-HA4) and upon return (SL2). Pulmonary artery catheterization and bilateral thigh cuff release maneuver were performed at SL and HA3 to study the properties of pulmonary circulation after 3 weeks of acclimatization.
RESULTS
Pulmonary artery catheter determined that systolic Ppa (mean ± SEM) was increased from 20 ± 1 at SL to 27 ± 2 mmHg at HA3 (p < 0.01). Echocardiography assessed that systolic Ppa remained equally increased throughout acclimatization (26 ± 2, 25 ± 2, 25 ± 2, and 24 ± 2 mmHg at HA1-HA4; p = 0.93) and returned to baseline upon return (17 ± 2, 18 ± 1 mmHg at SL, SL2; p = 0.3). The same was shown for PVR. Right heart function remained unaffected. Thigh cuff release maneuvers at SL and HA3 resulted in similar increase in cardiac output (2.5 ± 0.5 and 2.2 ± 0.4 L/min; p = 0.61) without affecting mean Ppa.
CONCLUSIONS
Prolonged altitude exposure leads to a persistent increase in Ppa and PVR without affecting right heart function and is fully reversible within 1 week after return to SL. The thigh cuff release maneuver-induced increase in cardiac output suggests a preserved ability of pulmonary circulation to cope with sudden remarkable increase in pulmonary blood flow throughout acclimatization.
未标注
马蒂亚斯·彼得·希尔蒂、安德里亚·米勒、丹妮拉·弗吕克、克里斯托夫·西本曼、彼得·拉斯穆森、斯特凡妮·凯泽、卡佳·奥inger、卡斯滕·伦德比和马尔科·马焦里尼。高海拔适应前及适应过程中血流增加对肺循环的影响。《高海拔医学与生物学》。17:305 - 314,2016年。-引言与方法:急性暴露于高海拔会增加肺动脉压(Ppa)和肺血管阻力(PVR)。然而,持续低氧暴露下Ppa和PVR的变化仍不明确。为验证在7名健康男性受试者中,海拔暴露会导致整个适应过程中Ppa和PVR持续升高这一假设,在海拔3454米(HA1 - HA4)为期4周的停留期间,每周在海平面(SL;488米)进行超声心动图检查,并在返回时(SL2)再次检查。在SL和HA3进行肺动脉导管插入术和双侧大腿袖带松开操作,以研究适应3周后肺循环的特性。
结果
肺动脉导管测定显示,收缩期Ppa(平均值±标准误)从SL时的20±1 mmHg增加到HA3时的27±2 mmHg(p < 0.01)。超声心动图评估显示,在整个适应过程中收缩期Ppa持续升高(HA1 - HA4时分别为26±2、25±2、25±2和24±2 mmHg;p = 0.93),返回后恢复到基线水平(SL、SL2时分别为17±2、18±1 mmHg;p = 0.3)。PVR情况相同。右心功能未受影响。在SL和HA3进行的大腿袖带松开操作使心输出量有类似增加(分别为2.5±0.5和2.2±0.4 L/min;p = 0.61),且不影响平均Ppa。
结论
长时间海拔暴露会导致Ppa和PVR持续升高,但不影响右心功能,并且在返回SL后1周内完全可逆。大腿袖带松开操作引起的心输出量增加表明,在整个适应过程中肺循环有能力应对肺血流量突然显著增加的情况。
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