Exercise Physiology and Cardiopulmonary Exercise Testing.

IF 2.3 3区 医学 Q2 CRITICAL CARE MEDICINE
Kathy E Sietsema, Harry B Rossiter
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引用次数: 0

Abstract

Aerobic, or endurance, exercise is an energy requiring process supported primarily by energy from oxidative adenosine triphosphate synthesis. The consumption of oxygen and production of carbon dioxide in muscle cells are dynamically linked to oxygen uptake (V̇O2) and carbon dioxide output (V̇CO2) at the lung by integrated functions of cardiovascular, pulmonary, hematologic, and neurohumoral systems. Maximum oxygen uptake (V̇O2max) is the standard expression of aerobic capacity and a predictor of outcomes in diverse populations. While commonly limited in young fit individuals by the capacity to deliver oxygen to exercising muscle, (V̇O2max) may become limited by impairment within any of the multiple systems supporting cellular or atmospheric gas exchange. In the range of available power outputs, endurance exercise can be partitioned into different intensity domains representing distinct metabolic profiles and tolerances for sustained activity. Estimates of both V̇O2max and the lactate threshold, which marks the upper limit of moderate-intensity exercise, can be determined from measures of gas exchange from respired breath during whole-body exercise. Cardiopulmonary exercise testing (CPET) includes measurement of V̇O2 and V̇CO2 along with heart rate and other variables reflecting cardiac and pulmonary responses to exercise. Clinical CPET is conducted for persons with known medical conditions to quantify impairment, contribute to prognostic assessments, and help discriminate among proximal causes of symptoms or limitations for an individual. CPET is also conducted in persons without known disease as part of the diagnostic evaluation of unexplained symptoms. Although CPET quantifies a limited sample of the complex functions and interactions underlying exercise performance, both its specific and global findings are uniquely valuable. Some specific findings can aid in individualized diagnosis and treatment decisions. At the same time, CPET provides a holistic summary of an individual's exercise function, including effects not only of the primary diagnosis, but also of secondary and coexisting conditions.

运动生理学和心肺运动测试。
有氧运动或耐力运动是一个需要能量的过程,主要由氧化三磷酸腺苷合成的能量支持。肌肉细胞中氧气的消耗和二氧化碳的产生通过心血管、肺、血液学和神经体液系统的综合功能与肺部的氧气摄取(V̇O2)和二氧化碳输出(ṼCO2)动态相关。最大摄氧量(V̇O2max)是有氧能力的标准表达,也是不同人群结果的预测指标。虽然在年轻健康的个体中,向运动肌肉输送氧气的能力通常会受到限制,但(V̇O2max)可能会因支持细胞或大气气体交换的多个系统中的任何一个系统的损伤而受到限制。在可用的功率输出范围内,耐力运动可以划分为不同的强度域,代表不同的代谢特征和对持续活动的耐受性。V̇O2max和乳酸阈值(标志着中等强度运动的上限)的估计值可以通过测量全身运动期间呼吸的气体交换来确定。心肺运动测试(CPET)包括测量V̇O2和V \775 CO2以及心率和其他反映心脏和肺部对运动反应的变量。临床CPET针对已知疾病的患者进行,以量化损伤,有助于预后评估,并有助于区分个体症状或局限性的近端原因。CPET也在没有已知疾病的人身上进行,作为不明原因症状诊断评估的一部分。尽管CPET量化了运动表现背后的复杂功能和相互作用的有限样本,但其具体和全局发现都具有独特的价值。一些具体的发现可以帮助个体化的诊断和治疗决策。同时,CPET提供了个人运动功能的整体总结,不仅包括初级诊断的影响,还包括次要和共存条件的影响。
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来源期刊
CiteScore
6.10
自引率
0.00%
发文量
87
审稿时长
6-12 weeks
期刊介绍: The journal focuses on new diagnostic and therapeutic procedures, laboratory studies, genetic breakthroughs, pathology, clinical features and management as related to such areas as asthma and other lung diseases, critical care management, cystic fibrosis, lung and heart transplantation, pulmonary pathogens, and pleural disease as well as many other related disorders.The journal focuses on new diagnostic and therapeutic procedures, laboratory studies, genetic breakthroughs, pathology, clinical features and management as related to such areas as asthma and other lung diseases, critical care management, cystic fibrosis, lung and heart transplantation, pulmonary pathogens, and pleural disease as well as many other related disorders.
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