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利用全室间接测热法测量静息能量消耗的拟议较短时长方案。

Proposed shorter duration protocols for measuring resting energy expenditure utilizing whole-room indirect calorimetry.

作者信息

Rising Russell, Kittrell Hannah D, Albu Jeanine B

机构信息

D & S Consulting Services Inc, Research and Development, New York, NY, USA.

Icahn School of Medicine at Mount Sinai, Mount Sinai Morningside Hospital, New York, NY, USA.

出版信息

Int J Obes (Lond). 2025 Apr;49(4):731-736. doi: 10.1038/s41366-024-01667-4. Epub 2024 Nov 14.

DOI:10.1038/s41366-024-01667-4
PMID:39543380
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11999859/
Abstract

BACKGROUND

Sixty minutes is currently the shortest testing duration for 24-h resting energy expenditure (24-h REE) utilizing whole-room indirect calorimetry.

OBJECTIVE

Show that recalculated 30-min extrapolated 24-h REE from previously published 60-min metabolic data are valid.

METHODS

Propane consumption linearity was determined through an 8-h combustion test. Thereafter, metabolic data for 24-h extrapolated ventilation rates of oxygen (VO; l/d), carbon dioxide (VCO; l/d), respiratory quotient (RQ; VCO/VO), and REE (MJ/d) from ten 60-min propane combustion tests were recalculated to reflect a 30-min testing duration. A similar analysis was performed utilizing data from 60-min subject metabolic measurements within a whole-room indirect calorimeter (4597 liters) specific for measuring resting energy expenditure (REE). Statistical (p < 0.05) comparisons between recalculated and original 60-min metabolic data were determined by SPSS (version 29).

RESULTS

Propane consumption during a combustion test was found to be linear for up to 8-h. Furthermore, no differences existed between propane stoichiometry and combustion for any of the extrapolated 24-h metabolic parameters when recalculated from 60-min propane combustion data to reflect a 30-min duration. Finally, similar results were obtained for all recalculated subject metabolic data.

CONCLUSIONS

Recalculated extrapolated 24-h metabolic data derived from a 30-min testing duration appear to be valid. This suggests that whole-room indirect calorimetry could be an adjunct for various weight loss or other programs where accurate metabolic measurements are required.

摘要

背景

目前,使用全室间接测热法测量24小时静息能量消耗(24-h REE)的最短测试时长为60分钟。

目的

证明根据先前发表的60分钟代谢数据重新计算得出的30分钟外推24-h REE是有效的。

方法

通过8小时燃烧测试确定丙烷消耗的线性关系。此后,对来自十次60分钟丙烷燃烧测试的24小时外推氧通气率(VO;升/天)、二氧化碳通气率(VCO;升/天)、呼吸商(RQ;VCO/VO)和REE(兆焦/天)的代谢数据进行重新计算,以反映30分钟的测试时长。利用全室间接热量计(4597升)内60分钟受试者代谢测量数据进行了类似分析,该热量计专门用于测量静息能量消耗(REE)。通过SPSS(29版)对重新计算的和原始的60分钟代谢数据进行统计学比较(p < 0.05)。

结果

燃烧测试期间丙烷消耗在长达8小时内呈线性。此外,当从60分钟丙烷燃烧数据重新计算以反映30分钟时长时,任何外推的24小时代谢参数的丙烷化学计量与燃烧之间均无差异。最后,所有重新计算的受试者代谢数据均获得了相似结果。

结论

从30分钟测试时长得出的重新计算的外推24小时代谢数据似乎是有效的。这表明全室间接测热法可作为各种减肥或其他需要精确代谢测量的项目的辅助手段。

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