Army Health and Physical Performance Research, Andover, UNITED KINGDOM.
Medical Research Council Elsie Widdowson Laboratory, Cambridge, UNITED KINGDOM.
Med Sci Sports Exerc. 2021 Apr 1;53(4):860-868. doi: 10.1249/MSS.0000000000002527.
Low energy availability (EA) may impede adaptation to exercise, suppressing reproductive function and bone turnover. Exercise energy expenditure (EEE) measurements lack definition and consistency. This study aimed to compare EA measured from moderate and vigorous physical activity from accelerometry (EEEmpva) with EA from total physical activity (EEEtpa) from doubly labeled water in women. The secondary aim was to determine the relationship of EA with physical fitness, body composition by dual-energy x-ray absorptiometry, heart rate variability (HRV), and eating behavior (Brief Eating Disorder in Athletes Questionnaire [BEDA-Q]).
This was a prospective, repeated-measures study, assessing EA measures and training adaptation during 11-month basic military training. Forty-seven women (23.9 ± 2.6 yr) completed three consecutive 10-d assessments of EEEmvpa, EEEtpa, and energy intake (EI). EA measures were compared using linear regression and Bland-Altman analyses; relationships of EA with fat mass, HRV, 1.5-mile run times, and BEDA-Q were evaluated using partial correlations.
EA from EEEmvpa demonstrated strong agreement with EA from EEEtpa across the measurement range (R2 = 0.76, r = 0.87, P < 0.001) and was higher by 10 kcal·kg-1 FFM·d-1. However, EA was low in absolute terms because of underreported EI. Higher EA was associated with improved 1.5-mile run time (r = 0.28, P < 0.001), fat mass loss (r = 0.38, P < 0.001), and lower BEDA-Q score (r = -0.37, P < 0.001) but not HRV (all P > 0.10).
Accelerometry-based EEE demonstrated validity against doubly labeled water during multistressor training, the difference representing 10 kcal·kg-1 FFM·d-1 EEE from nonexercise activity. Beneficial physical but not autonomic adaptations were associated with higher EA. EAmvpa and BEDA-Q warrant consideration for low EA assessment and screening.
低能量供应(EA)可能会阻碍运动适应,抑制生殖功能和骨代谢。运动能量消耗(EEE)的测量缺乏定义和一致性。本研究旨在比较加速度计测量的中等和剧烈体力活动的 EA(EEEmpva)与双标记水测量的总体力活动的 EA(EEEtpa)在女性中的差异。次要目的是确定 EA 与身体成分、心率变异性(HRV)和饮食行为(运动员饮食紊乱问卷[BEDA-Q])的关系。
这是一项前瞻性、重复测量研究,评估了 11 个月基础军事训练期间的 EA 测量值和训练适应情况。47 名女性(23.9±2.6 岁)完成了连续 3 次 10 天的 EEEmpva、EEEtpa 和能量摄入(EI)评估。使用线性回归和 Bland-Altman 分析比较 EA 测量值;使用偏相关评估 EA 与脂肪量、HRV、1.5 英里跑时间和 BEDA-Q 的关系。
EEEmvpa 的 EA 与 EEEtpa 的 EA 在整个测量范围内具有很强的一致性(R2=0.76,r=0.87,P<0.001),并且 EEEmvpa 的 EA 比 EEEtpa 的 EA 高 10 kcal·kg-1 FFM·d-1。然而,由于 EI 报告不足,EA 的绝对值较低。较高的 EA 与 1.5 英里跑时间的提高(r=0.28,P<0.001)、脂肪量的减少(r=0.38,P<0.001)和 BEDA-Q 评分的降低(r=0.37,P<0.001)相关,但与 HRV 无关(所有 P>0.10)。
在多应激训练中,基于加速度计的 EEE 与双标记水相比具有有效性,差异代表 10 kcal·kg-1 FFM·d-1 的非运动活动的 EEE。有益的身体适应而不是自主适应与较高的 EA 相关。EEAmpva 和 BEDA-Q 值得考虑用于 EA 评估和筛查。
