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射血分数保留的心力衰竭患者运动时的动脉僵硬度

Arterial Stiffening With Exercise in Patients With Heart Failure and Preserved Ejection Fraction.

作者信息

Reddy Yogesh N V, Andersen Mads J, Obokata Masaru, Koepp Katlyn E, Kane Garvan C, Melenovsky Vojtech, Olson Thomas P, Borlaug Barry A

机构信息

Division of Cardiovascular Diseases, Department of Medicine, Mayo Clinic Rochester, Rochester, Minnesota.

Division of Cardiovascular Diseases, Department of Medicine, Mayo Clinic Rochester, Rochester, Minnesota; Department of Cardiology, Aarhus University Hospital, Aarhus, Denmark.

出版信息

J Am Coll Cardiol. 2017 Jul 11;70(2):136-148. doi: 10.1016/j.jacc.2017.05.029.

DOI:10.1016/j.jacc.2017.05.029
PMID:28683960
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5520668/
Abstract

BACKGROUND

Aortic stiffening and reduced nitric oxide (NO) availability may contribute to the pathophysiology of heart failure with preserved ejection fraction (HFpEF).

OBJECTIVES

This study compared indices of arterial stiffness at rest and during exercise in subjects with HFpEF and hypertensive control subjects to examine their relationships to cardiac hemodynamics and determine whether exertional arterial stiffening can be mitigated by inorganic nitrite.

METHODS

A total of 22 hypertensive control subjects and 98 HFpEF subjects underwent hemodynamic exercise testing with simultaneous expired gas analysis to measure oxygen consumption. Invasively measured radial artery pressure waveforms were converted to central aortic waveforms by transfer function to assess integrated measures of pulsatile aortic load, including arterial compliance, resistance, elastance, and wave reflection.

RESULTS

Arterial load and wave reflections in HFpEF were similar to those in control subjects at rest. During submaximal exercise, HFpEF subjects displayed reduced total arterial compliance and higher effective arterial elastance despite similar mean arterial pressures in control subjects. This was directly correlated with higher ventricular filling pressures and depressed cardiac output reserve (both p < 0.0001). With peak exercise, increased wave reflections, impaired compliance, and increased resistance and elastance were observed in subjects with HFpEF. A subset of HFpEF subjects (n = 52) received sodium nitrite or placebo therapy in a 1:1 double-blind, randomized fashion. Compared to placebo, nitrite decreased aortic wave reflections at rest and improved arterial compliance and elastance and central hemodynamics during exercise.

CONCLUSIONS

Abnormal pulsatile aortic loading during exercise occurs in HFpEF independent of hypertension and is correlated with classical hemodynamic derangements that develop with stress. Inorganic nitrite mitigates arterial stiffening with exercise and improves hemodynamics, indicating that arterial stiffening with exercise is at least partially reversible. Further study is required to test effects of agents that target the NO pathway in reducing arterial stiffness in HFpEF. (Study of Exercise and Heart Function in Patients With Heart Failure and Pulmonary Vascular Disease [EXEC]; NCT01418248. Acute Effects of Inorganic Nitrite on Cardiovascular Hemodynamics in Heart Failure With Preserved Ejection Fraction; NCT01932606. Inhaled Sodium Nitrite on Heart Failure With Preserved Ejection Fraction; NCT02262078).

摘要

背景

主动脉僵硬度增加和一氧化氮(NO)可用性降低可能参与射血分数保留的心力衰竭(HFpEF)的病理生理过程。

目的

本研究比较了HFpEF患者和高血压对照受试者静息及运动时的动脉僵硬度指标,以研究它们与心脏血流动力学的关系,并确定无机亚硝酸盐是否可减轻运动时的动脉僵硬度。

方法

共有22名高血压对照受试者和98名HFpEF患者接受了血流动力学运动测试,同时进行呼出气分析以测量耗氧量。通过传递函数将有创测量的桡动脉压力波形转换为中心主动脉波形,以评估搏动性主动脉负荷的综合指标,包括动脉顺应性、阻力、弹性和波反射。

结果

HFpEF患者静息时的动脉负荷和波反射与对照受试者相似。在次极量运动期间,尽管对照受试者的平均动脉压相似,但HFpEF患者的总动脉顺应性降低,有效动脉弹性增加。这与更高的心室充盈压和降低的心输出量储备直接相关(均p < 0.0001)。在峰值运动时,HFpEF患者出现波反射增加、顺应性受损以及阻力和弹性增加。一部分HFpEF患者(n = 52)以1:1双盲、随机方式接受亚硝酸钠或安慰剂治疗。与安慰剂相比,亚硝酸盐可降低静息时的主动脉波反射,并改善运动期间的动脉顺应性、弹性和中心血流动力学。

结论

HFpEF患者运动时出现异常的搏动性主动脉负荷,与高血压无关,且与应激时出现的经典血流动力学紊乱相关。无机亚硝酸盐可减轻运动时的动脉僵硬度并改善血流动力学,表明运动时的动脉僵硬度至少部分可逆。需要进一步研究以测试靶向NO途径的药物在降低HFpEF患者动脉僵硬度方面的作用。(心力衰竭和肺血管疾病患者运动与心脏功能研究[EXEC];NCT01418248。无机亚硝酸盐对射血分数保留的心力衰竭患者心血管血流动力学的急性影响;NCT01932606。吸入亚硝酸钠对射血分数保留的心力衰竭的影响;NCT02262078)

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