Oxygen-sensing pathways below autoregulatory threshold act to sustain myocardial oxygen delivery during reductions in perfusion pressure.

IF 7.5 1区 医学 Q1 CARDIAC & CARDIOVASCULAR SYSTEMS
Cooper M Warne, Salman I Essajee, Selina M Tucker, C Alberto Figueroa, Daniel A Beard, Gregory M Dick, Johnathan D Tune
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Abstract

The coronary circulation has an innate ability to maintain constant blood flow over a wide range of perfusion pressures. However, the mechanisms responsible for coronary autoregulation remain a fundamental and highly contested question. This study interrogated the local metabolic hypothesis of autoregulation by testing the hypothesis that hypoxemia-induced exaggeration of the metabolic error signal improves the autoregulatory response. Experiments were performed on open-chest anesthetized swine during stepwise changes in coronary perfusion pressure (CPP) from 140 to 40 mmHg under normoxic (n = 15) and hypoxemic (n = 8) conditions, in the absence and presence of dobutamine-induced increases in myocardial oxygen consumption (MVO2) (n = 5-7). Hypoxemia (PaO2 < 40 mmHg) decreased coronary venous PO2 (CvPO2) ~ 30% (P < 0.001) and increased coronary blood flow ~ 100% (P < 0.001), sufficient to maintain myocardial oxygen delivery (P = 0.14) over a wide range of CPPs. Autoregulatory responsiveness during hypoxemia-induced reductions in CvPO2 were associated with increases of autoregulatory gain (Gc; P = 0.033) but not slope (P = 0.585) over a CPP range of 120 to 60 mmHg. Preservation of autoregulatory Gc (P = 0.069) and slope (P = 0.264) was observed during dobutamine administration ± hypoxemia. Reductions in coronary resistance in response to decreases in CPP predominantly occurred below CvPO2 values of ~ 25 mmHg, irrespective of underlying vasomotor reserve. These findings support the presence of an autoregulatory threshold under which oxygen-sensing pathway(s) act to preserve sufficient myocardial oxygen delivery as CPP is reduced during increases in MVO2 and/or reductions in arterial oxygen content.

Abstract Image

低于自动调节阈值的氧传感途径可在灌注压降低时维持心肌供氧。
冠状动脉循环具有在广泛的灌注压力范围内保持恒定血流的天生能力。然而,冠状动脉自动调节的机制仍然是一个基本且极具争议的问题。本研究通过测试低氧血症诱导的代谢误差信号放大可改善自动调节反应的假设,对自动调节的局部代谢假说进行了探讨。实验在开胸麻醉猪身上进行,在常氧(n = 15)和低氧(n = 8)条件下,冠状动脉灌注压(CPP)从 140 mmHg 逐步变化到 40 mmHg,在没有多巴酚丁胺诱导心肌耗氧量(MVO2)增加(n = 5-7)和有多巴酚丁胺诱导心肌耗氧量增加(n = 5-7)的情况下进行。在 120 至 60 mmHg 的 CPP 范围内,低氧血症(PaO2 2 (CvPO2) ~ 30% (P 2) 与自动调节增益(Gc;P = 0.033)的增加有关,但与斜率(P = 0.585)无关。在多巴酚丁胺给药±低氧血症期间,可观察到自律性 Gc(P = 0.069)和斜率(P = 0.264)保持不变。随着 CPP 的降低,冠状动脉阻力的降低主要发生在 CvPO2 值约为 25 mmHg 以下,与潜在的血管运动储备无关。这些发现支持存在一个自动调节阈值,在该阈值下,当 MVO2 增加和/或动脉血氧含量降低时,氧传感通路会发挥作用,以保持足够的心肌氧输送。
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来源期刊
Basic Research in Cardiology
Basic Research in Cardiology 医学-心血管系统
CiteScore
16.30
自引率
5.30%
发文量
54
审稿时长
6-12 weeks
期刊介绍: Basic Research in Cardiology is an international journal for cardiovascular research. It provides a forum for original and review articles related to experimental cardiology that meet its stringent scientific standards. Basic Research in Cardiology regularly receives articles from the fields of - Molecular and Cellular Biology - Biochemistry - Biophysics - Pharmacology - Physiology and Pathology - Clinical Cardiology
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