基础代谢率与不同强度运动后的过量氧耗相关。
Basal metabolic rate correlates with excess postexercise oxygen consumption across different intensities.
作者信息
Huang Shu-Chun, Chen Kuan-Hung, Tseng Watson Hua-Sheng, Yang Lan-Yan, Hsiao Ching-Chung, Fang Yi-Chung, Lee Chen-Hung
机构信息
Department of Physical Medicine and Rehabilitation, New Taipei Municipal Tucheng Hospital, Chang Gung Memorial Hospital, New Taipei City, 236, Taiwan.
Department of Physical Medicine & Rehabilitation, Chang Gung Memorial Hospital, Linkou, Taoyuan, Taiwan, 333.
出版信息
BMC Sports Sci Med Rehabil. 2025 Jan 6;17(1):3. doi: 10.1186/s13102-024-01045-7.
BACKGROUND
Both the basal metabolic rate (BMR) and excess postexercise oxygen consumption (EPOC) can be influenced by physical training and are associated with body composition and aerobic capacity. Although a correlation between the two is expected, this relationship has not been explored. Our hypothesis is that a higher BMR is correlated with lower EPOC.
METHODS
Fifty-four healthy participants with a mean age of 33 years were enrolled and instructed to visit the exercise laboratory five times within a 3-week period. These visits included one for the BMR measurement, one for the incremental exercise test (INC), and three for the constant work rate (CWR) test at low (35% of the maximal work rate, 15 min), moderate (60%, 10 min), and high intensities (90%, 4 min). The CWR tests were conducted at low, moderate, and high intensities in random order. After each CWR test, the EPOC and the ratio of EPOC to oxygen consumption during exercise (OC) were calculated. Venous blood samples were collected immediately to assess the blood lactate concentration (BLa).
RESULTS
The EPOC, EPOC/OC, and BLa increased with increasing intensity of the CWR tests. BMR exhibited an inverse correlation with EPOC/OC across the three CWR settings with correlation coefficients -0.449 in low (p = 0.003), -0.590 in moderate (p = 0.002), and -0.558 in high intensity (p < 0.001). In the stepwise regression analysis, the BMR emerged as the most significant predictor of EPOC/OC compared to the BLa, age, BMI, and various parameters derived from the INC and CWR CPET. Additionally, coupling EPOC/OC with CWR exercises of identical duration and relative intensity provides a viable method for interindividual comparisons.
CONCLUSIONS
The BMR is a major predictor of EPOC/OC and demonstrates a negative linear correlation across various CWR intensities. This study improves the understanding of the physiological link between BMR and EPOC and introduces an applicable approach for utilizing EPOC in future research.
背景
基础代谢率(BMR)和运动后过量氧耗(EPOC)均会受到体育锻炼的影响,且与身体成分和有氧能力相关。尽管预计二者之间存在相关性,但尚未对此关系进行探究。我们的假设是较高的基础代谢率与较低的运动后过量氧耗相关。
方法
招募了54名平均年龄为33岁的健康参与者,并指导他们在3周内前往运动实验室5次。这些访问包括一次基础代谢率测量、一次递增运动测试(INC)以及三次不同强度的持续工作率(CWR)测试,低强度(最大工作率的35%,15分钟)、中等强度(60%,10分钟)和高强度(90%,4分钟)。持续工作率测试以随机顺序在低、中、高强度下进行。每次持续工作率测试后,计算运动后过量氧耗以及运动后过量氧耗与运动期间耗氧量(OC)的比值。立即采集静脉血样以评估血乳酸浓度(BLa)。
结果
运动后过量氧耗、运动后过量氧耗/耗氧量比值和血乳酸浓度随着持续工作率测试强度的增加而升高。在三种持续工作率设置下,基础代谢率与运动后过量氧耗/耗氧量比值呈负相关,低强度下相关系数为 -0.449(p = 0.003),中等强度下为 -0.590(p = 0.002),高强度下为 -0.558(p < 0.001)。在逐步回归分析中,与血乳酸浓度、年龄、体重指数以及递增运动测试和持续工作率心肺运动试验得出的各种参数相比,基础代谢率是运动后过量氧耗/耗氧量比值最显著的预测指标。此外,将运动后过量氧耗/耗氧量比值与相同持续时间和相对强度的持续工作率运动相结合,为个体间比较提供了一种可行的方法。
结论
基础代谢率是运动后过量氧耗/耗氧量比值的主要预测指标,并且在不同的持续工作率强度下呈现负线性相关。本研究增进了对基础代谢率和运动后过量氧耗之间生理联系的理解,并为在未来研究中利用运动后过量氧耗引入了一种适用的方法。
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