重复的肌肉糖原超补偿与剧烈运动后四天的恢复期。

Repeated muscle glycogen supercompensation with four days' recovery between exhaustive exercise.

机构信息

Bond Institute of Health and Sport, Faculty of Health Sciences and Medicine, Bond University, Australia; School of Allied Health Sciences, Griffith University, Australia.

Bond Institute of Health and Sport, Faculty of Health Sciences and Medicine, Bond University, Australia.

出版信息

J Sci Med Sport. 2019 Aug;22(8):907-911. doi: 10.1016/j.jsams.2019.03.009. Epub 2019 Mar 23.

DOI:10.1016/j.jsams.2019.03.009

PMID:30940441

Abstract

OBJECTIVES

To determine if a 4 d period of high carbohydrate intake can supercompensate muscle glycogen and exercise work capacity on back-to-back occasions.

DESIGN

Seven trained cyclists (6 male, VOpeak: 57 ± 4 mL kg min) completed a 9-d experimental period, consisting of three intermittent exhaustive cycling trials on days 1 (trial 1), 5 (trial 2) and 9 (trial 3). Following trial 1 cyclists were fed a high carbohydrate diet (˜10 g kg day) for eight days to assess their capacity to repeatedly supercompensate muscle glycogen with 4 d recovery.

METHODS

A resting muscle biopsy was obtained prior to each trial consisting of 2 min work intervals (90-60% peak power output) interspersed with 2 min recovery (40% peak power output) repeated until exhaustion. Each 72-h period between trial days included two days of low volume cycling and a rest day. Resting muscle glycogen and total work completed was determined for each trial day.

RESULTS

Baseline muscle glycogen on day 1 (583.6 ± 111.0 mmol kg dry mass) was supercompensated on day 5 (835.1 ± 112.8 mmol kg dry mass; p = 0.04, d = 2.25) and again on day 9 (848.3 ± 111.4 mmol kg dry mass; p = 0.01, d = 2.38). Total cycling work capacity increased from trial 1 to trial 2 (+8.7 ± 5.4 kJ kg; p = 0.01; d = 1.41); a large effect was observed in trial 3 compared to trial 1 (+6.4 ± 6.8 kJ kg; p = 0.10; d = 1.10).

CONCLUSIONS

A 4 d high carbohydrate feeding strategy is sufficient to repeatedly supercompensate muscle glycogen content following exhaustive exercise and results in enhanced work capacity.

摘要

目的

确定连续两天进行高碳水化合物摄入是否可以使肌肉糖原超补偿，并增加运动工作能力。

设计

7 名训练有素的自行车运动员（6 名男性，VOpeak：57±4 mL·kg·min）完成了 9 天的实验周期，包括在第 1 天（试验 1）、第 5 天（试验 2）和第 9 天（试验 3）进行 3 次间歇性耗竭性自行车试验。在试验 1 之后，运动员连续 8 天摄入高碳水化合物饮食（˜10 g·kg·天），以评估他们重复使肌肉糖原超补偿的能力，恢复时间为 4 天。

方法

在每次试验之前，均进行一次静息肌肉活检，包括 2 分钟的工作间隔（90-60%峰值功率输出），穿插 2 分钟恢复（40%峰值功率输出），直至力竭。在每个试验日之间的 72 小时周期内，包括两天的低容量自行车运动和一天休息。确定每个试验日的静息肌肉糖原和完成的总工作量。

结果

第 1 天（583.6±111.0 mmol·kg干质量）的基础肌肉糖原在第 5 天（835.1±112.8 mmol·kg干质量；p=0.04，d=2.25）和第 9 天（848.3±111.4 mmol·kg干质量；p=0.01，d=2.38）再次得到超补偿。从试验 1 到试验 2，自行车总工作量增加了（8.7±5.4 kJ·kg；p=0.01；d=1.41）；与试验 1 相比，在试验 3中观察到较大的效果（6.4±6.8 kJ·kg；p=0.10；d=1.10）。