慢性病运动不耐受的病理生理学：心脏功能减退在线粒体疾病和心力衰竭患者中的作用

Pathophysiology of exercise intolerance in chronic diseases: the role of diminished cardiac performance in mitochondrial and heart failure patients.

作者信息

McCoy Jodi, Bates Matthew, Eggett Christopher, Siervo Mario, Cassidy Sophie, Newman Jane, Moore Sarah A, Gorman Grainne, Trenell Michael I, Velicki Lazar, Seferovic Petar M, Cleland John G F, MacGowan Guy A, Turnbull Doug M, Jakovljevic Djordje G

机构信息

Institute of Cellular Medicine, Medical School, Newcastle University, Newcastle upon Tyne, UK.

Department of Cardiothoracic, The James Cook University Hospital, Middleborough, UK.

出版信息

Open Heart. 2017 Jul 28;4(2):e000632. doi: 10.1136/openhrt-2017-000632. eCollection 2017.

DOI:10.1136/openhrt-2017-000632

PMID:28878952

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5574430/

Abstract

OBJECTIVE

Exercise intolerance is a clinical hallmark of chronic conditions. The present study determined pathophysiological mechanisms of exercise intolerance in cardiovascular, neuromuscular, and metabolic disorders.

METHODS

In a prospective cross-sectional observational study 152 patients (heart failure reduced ejection fraction, n=32; stroke, n=34; mitochondrial disease, n=28; type two diabetes, n=28; and healthy controls, n=30) performed cardiopulmonary exercise testing with metabolic and haemodynamic measurements. Peak exercise O consumption and cardiac power output were measures of exercise tolerance and cardiac performance.

RESULTS

Exercise tolerance was significantly diminished in patients compared with controls (ie, by 45% stroke, 39% mitochondria disease, and 33% diabetes and heart failure, p<0.05). Cardiac performance was only significantly reduced in heart failure (due to reduced heart rate, stroke volume, and blood pressure) and mitochondrial patients (due reduced stroke volume) compared with controls (ie, by 53% and 26%, p<0.05). Ability of skeletal muscles to extract oxygen (ie, arterial-venous O difference) was diminished in mitochondrial, stroke, and diabetes patients (by 24%, 22%, and 18%, p<0.05), but increased by 21% in heart failure (p<0.05) compared with controls. Cardiac output explained 65% and 51% of the variance in peak O consumption (p<0.01) in heart failure and mitochondrial patients, whereas arterial-venous O difference explained 69% (p<0.01) of variance in peak O consumption in diabetes, and 65% and 48% in stroke and mitochondrial patients (p<0.01).

CONCLUSIONS

Different mechanisms explain exercise intolerance in patients with heart failure, mitochondrial dysfunction, stroke and diabetes. Their better understanding may improve management of patients, their stress tolerance and quality of life.

摘要

目的

运动不耐受是慢性疾病的临床特征。本研究确定了心血管、神经肌肉和代谢紊乱中运动不耐受的病理生理机制。

方法

在一项前瞻性横断面观察研究中，152例患者（射血分数降低的心力衰竭患者，n = 32；中风患者，n = 34；线粒体疾病患者，n = 28；2型糖尿病患者，n = 28；健康对照者，n = 30）进行了心肺运动试验，并测量了代谢和血流动力学指标。运动峰值耗氧量和心输出功率是运动耐量和心脏功能的指标。

结果

与对照组相比，患者的运动耐量显著降低（即中风患者降低45%，线粒体疾病患者降低39%，糖尿病和心力衰竭患者降低33%，p<0.05）。与对照组相比，仅心力衰竭患者（由于心率、每搏输出量和血压降低）和线粒体疾病患者（由于每搏输出量降低）的心脏功能显著降低（即分别降低53%和26%，p<0.05）。线粒体疾病、中风和糖尿病患者骨骼肌摄取氧气的能力（即动静脉氧差）降低（分别降低24%、22%和18%，p<0.05），而心力衰竭患者的该能力增加21%（p<0.05）。心输出量解释了心力衰竭和线粒体疾病患者运动峰值耗氧量方差的65%和51%（p<0.01），而动静脉氧差解释了糖尿病患者运动峰值耗氧量方差的69%（p<0.01），中风和线粒体疾病患者分别为65%和48%（p<0.01）。

结论

不同机制解释了心力衰竭、线粒体功能障碍、中风和糖尿病患者的运动不耐受。对这些机制的更好理解可能会改善患者的管理、应激耐受性和生活质量。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5f6e/5574430/64d90cd83173/openhrt-2017-000632f01.jpg

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慢性病运动不耐受的病理生理学：心脏功能减退在线粒体疾病和心力衰竭患者中的作用

Pathophysiology of exercise intolerance in chronic diseases: the role of diminished cardiac performance in mitochondrial and heart failure patients.

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