静息代谢率的昼夜节律解释了食物热效应的表观日节律。

Circadian Rhythms in Resting Metabolic Rate Account for Apparent Daily Rhythms in the Thermic Effect of Food.

机构信息

The Rowett Institute, University of Aberdeen, Aberdeen, Scotland, UK.

Section of Chronobiology, School of Biosciences and Medicine, Faculty of Health and Medical Science, University of Surrey, Guildford, Surrey, UK.

出版信息

J Clin Endocrinol Metab. 2022 Jan 18;107(2):e708-e715. doi: 10.1210/clinem/dgab654.

DOI:10.1210/clinem/dgab654

PMID:34473293

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8764350/

Abstract

CONTEXT

Daily variation in the thermic effect of food (TEF) is commonly reported and proposed as a contributing factor to weight gain with late eating. However, underlying circadian variability in resting metabolic rate (RMR) is an overlooked factor when calculating TEF associated with eating at different times of the day.

OBJECTIVE

This work aimed to determine whether methodological approaches to calculating TEF contribute to the reported phenomena of daily variation in TEF.

METHODS

Fourteen overweight to obese but otherwise healthy individuals had their resting and postprandial energy expenditure (EE) measured over 15.5 hours at a clinical research unit. TEF was calculated for breakfast, lunch, and dinner using standard methods (above a baseline and premeal RMR measure) and compared to a method incorporating a circadian RMR by which RMR was derived from a sinusoid curve model and TEF was calculated over and above the continuously changing RMR. Main outcome measures were TEF at breakfast, lunch, and dinner calculated by different methods.

RESULTS

Standard methods of calculating TEF above a premeal measured RMR showed that morning TEF (60.8 kcal ± 5.6) (mean ± SEM) was 1.6 times greater than TEF at lunch (36.3 kcal ± 8.4) and 2.4 times greater than dinner TEF (25.2 kcal ± 9.6) (P = .022). However, adjusting for modeled circadian RMR nullified any differences between breakfast (54.1 kcal ± 30.8), lunch (49.5 kcal ± 29.4), and dinner (49.1 kcal ± 25.7) (P = .680).

CONCLUSION

Differences in TEF between morning and evening can be explained by the underlying circadian resting EE, which is independent of an acute effect of eating.

摘要

背景

食物热效应（TEF）的日常变化通常被报道，并被认为是导致晚食与体重增加的一个因素。然而，在计算一天中不同时间进食相关的 TEF 时，人们忽略了静息代谢率（RMR）的潜在昼夜变化。

目的

本研究旨在确定计算 TEF 的方法学方法是否会导致报告的 TEF 日常变化现象。

方法

14 名超重或肥胖但其他健康的个体在临床研究单位进行了 15.5 小时的静息和餐后能量消耗（EE）测量。使用标准方法（在基线和餐前 RMR 测量之上）计算早餐、午餐和晚餐的 TEF，并将其与一种纳入了 RMR 昼夜节律的方法进行比较，通过该方法，RMR 源自正弦曲线模型，TEF 是在不断变化的 RMR 之上计算得出的。主要观察指标是不同方法计算的早餐、午餐和晚餐的 TEF。

结果

使用餐前测量的 RMR 计算 TEF 的标准方法表明，早晨 TEF（60.8 kcal ± 5.6）（平均值 ± 标准误）是午餐 TEF（36.3 kcal ± 8.4）的 1.6 倍，是晚餐 TEF（25.2 kcal ± 9.6）的 2.4 倍（P = 0.022）。然而，调整模型化的昼夜节律 RMR 后，早餐（54.1 kcal ± 30.8）、午餐（49.5 kcal ± 29.4）和晚餐（49.1 kcal ± 25.7）之间的任何差异都消失了（P = 0.680）。

结论

早晚 TEF 的差异可以用潜在的昼夜静息 EE 来解释，这与进食的急性影响无关。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/43f2/8764350/d29f03c70ab0/dgab654f0001.jpg

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静息代谢率的昼夜节律解释了食物热效应的表观日节律。

Circadian Rhythms in Resting Metabolic Rate Account for Apparent Daily Rhythms in the Thermic Effect of Food.

机构信息

出版信息

CONTEXT

OBJECTIVE

METHODS

RESULTS

CONCLUSION

背景

目的

方法

结果

结论

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