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一种在递增运动期间从气体交换中检测代谢阈值的系统方法。

A Systematic Method to Detect the Metabolic Threshold from Gas Exchange during Incremental Exercise.

作者信息

Dolezal Brett A, Storer Thomas W, Neufeld Eric V, Smooke Stephanie, Tseng Chi-Hong, Cooper Christopher B

机构信息

Exercise Physiology Research Laboratory, Departments of Physiology and Medicine, David Geffen School of Medicine at UCLA, Los Angeles, CA; USA.

Division of General Internal Medicine and Health Services Research David Geffen School of Medicine at UCLA, Los Angeles, CA, USA.

出版信息

J Sports Sci Med. 2017 Aug 8;16(3):396-406. eCollection 2017 Sep.

Abstract

Incremental exercise consists of three domains of exercise intensity demarcated by two thresholds. The first of these thresholds, derived from gas exchange measurements, is defined as the metabolic threshold () above which lactate accumulates. Correctly and reliably identified, is a non-invasive, sub-maximal marker of aerobic function with practical value. This investigation compared variability in selection of among interpreters with different levels of experience as well as from auto-detection algorithms employed by a commercially available metabolic cart (MC). Ten healthy young men performed three replicates of incremental cycle exercise during which gas exchange measurements were collected breath-by-breath. Two experienced interpreters (E) and four novice interpreters (N) determined from plots of specific response variables. Interpreters noted methods used and confidence in their selections. was automatically determined by the MC. Interclass correlations indicated that E agreed with each other (mean difference, 21 mL·min) and with the MC (23 mL·min), but not with N (-664 to 364 mL·min); N did not agree among themselves. Despite good overall agreement between E and MC, differences >500 mL·min were seen in 50% of individual cases. N expressed unduly higher confidence and used different selection strategies compared with E. Experience and use of a systematic approach is essential for correctly identifying . Current guidelines for exercise testing and interpretation do not include recommendations for such an approach. Data from this study suggests that this may be a serious shortcoming. Until an alternative schema for detection is developed prospectively, strategies based on the present study will give practitioners a systematic and consistent approach to threshold detection.

摘要

递增运动包括由两个阈值划分的三个运动强度领域。其中第一个阈值源自气体交换测量,被定义为代谢阈值(),高于此阈值乳酸会积累。如果正确且可靠地识别,代谢阈值是具有实用价值的有氧功能的非侵入性、次最大标记物。本研究比较了不同经验水平的口译员以及商用代谢车(MC)所采用的自动检测算法在代谢阈值选择上的变异性。十名健康年轻男性进行了三次递增式自行车运动重复试验,在此期间逐次呼吸收集气体交换测量数据。两名经验丰富的口译员(E)和四名新手口译员(N)根据特定反应变量的图表确定代谢阈值。口译员记录了所使用的方法以及对其选择的信心。代谢阈值由MC自动确定。组内相关性表明,经验丰富的口译员之间意见一致(平均差异为21 mL·min),并且与MC一致(23 mL·min),但与新手口译员不一致(-664至364 mL·min);新手口译员之间意见也不一致。尽管经验丰富的口译员与MC总体上一致性良好,但在50%的个体案例中仍出现了大于500 mL·min的差异。与经验丰富的口译员相比,新手口译员表现出过高的信心,并使用了不同的代谢阈值选择策略。经验和采用系统方法对于正确识别代谢阈值至关重要。当前运动测试和解读指南并未包括此类方法的建议。本研究数据表明这可能是一个严重的缺陷。在前瞻性地开发出替代的代谢阈值检测方案之前,基于本研究的策略将为从业者提供一种系统且一致的阈值检测方法。

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