补充外源性酮盐和全身冷却并不能改善短期身体机能。

Exogenous Ketone Salt Supplementation and Whole-Body Cooling Do Not Improve Short-Term Physical Performance.

作者信息

Clark Daniel, Munten Stephanie, Herzig Karl-Heinz, Gagnon Dominique D

机构信息

Laboratory of Environmental Exercise Physiology, School of Kinesiology and Health Sciences, Laurentian University, Sudbury, ON, Canada.

Southwest College of Naturopathic Medicine and Health Sciences, Tempe, AZ, United States.

出版信息

Front Nutr. 2021 Jul 15;8:663206. doi: 10.3389/fnut.2021.663206. eCollection 2021.

DOI:10.3389/fnut.2021.663206

PMID:34336907

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8319384/

Abstract

Exogenous ketone supplementation and whole-body cooling (WBC) have shown to independently influence exercise metabolism. Whether readily available ketone salts, with and without WBC, would provide similar metabolic benefits during steady-state aerobic and time-trial performances was investigated. Nine active males (VO: 56.3 ± 2.2 mL·kg·min) completed three single-blind exercise sessions preceded by: (1) ingestion of placebo (CON), (2) ketone supplementation (0.3 g·kg β-OHB) (KET), and (3) ketone supplementation with WBC (KETCO). Participants cycled in steady-state (SS, 60% ) condition for 30-min, immediately followed by a 15-min time trial (TT). Skin and core temperature, cardio-metabolic, and respiratory measures were collected continuously, whereas venous blood samples were collected before and after supplementation, after SS and TT. Venous β-OHB was elevated, while blood glucose was lower, with supplementation vs. CON ( < 0.05). TT power output was not different between conditions ( = 0.112, CON: 190 ± 43.5 W, KET: 185 ± 40.4 W, KETCO: 211 ± 50.7 W). RER was higher during KETCO (0.97 ± 0.09) compared to both CON (0.88 ± 0.04, = 0.012) and KET (0.88 ± 0.05, = 0.014). Ketone salt supplementation and WBC prior to short-term exercise sufficiently increase blood β-OHB concentrations, but do not benefit metabolic shifts in fuel utilization or improve time trial performance.

摘要

外源性酮补充剂和全身冷却（WBC）已被证明可独立影响运动代谢。本研究调查了在有或没有WBC的情况下，易于获得的酮盐在稳态有氧运动和计时赛表现期间是否会提供类似的代谢益处。九名活跃男性（VO：56.3±2.2 mL·kg·min）完成了三次单盲运动试验，试验前分别为：（1）摄入安慰剂（CON），（2）补充酮（0.3 g·kg β-羟基丁酸）（KET），以及（3）补充酮并进行WBC（KETCO）。参与者在稳态（SS，60% ）条件下骑行30分钟，随后立即进行15分钟的计时赛（TT）。连续收集皮肤和核心温度、心脏代谢和呼吸指标，而在补充前、补充后、SS和TT后采集静脉血样。与CON相比，补充后静脉β-羟基丁酸升高，而血糖降低（<0.05）。各条件下TT功率输出无差异（=0.112，CON：190±43.5 W，KET：185±40.4 W，KETCO：211±50.7 W）。与CON（0.88±0.04，=0.012）和KET（0.88±0.05，=0.014）相比，KETCO期间的呼吸交换率（RER）更高（0.97±0.09）。短期运动前补充酮盐和WBC可充分提高血液β-羟基丁酸浓度，但对燃料利用的代谢转变无益处，也不能改善计时赛表现。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8812/8319384/9403833b864a/fnut-08-663206-g0001.jpg

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补充外源性酮盐和全身冷却并不能改善短期身体机能。

Exogenous Ketone Salt Supplementation and Whole-Body Cooling Do Not Improve Short-Term Physical Performance.

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