运动后摄入外源性乳酸盐对静息时能量底物利用的影响。

Physical activity and nutrition Pub Date : 2024-03-01 Epub Date: 2024-03-31 DOI:10.20463/pan.2024.0001
Taeho Kim, Deunsol Hwang, Sunghwan Kyun, Inkwon Jang, Sung-Woo Kim, Hun-Young Park, Kiwon Lim, Charyong Kim, Jisu Kim
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引用次数: 0

摘要

目的:本研究探讨了摄入外源性乳酸盐对急性运动后休息 1 小时内能量代谢的影响:将 8 周大的 ICR 小鼠随机分为 4 组:方法:将八周龄的ICR小鼠随机分为四组:SED组(无处理)、EXE组(仅运动)、LAC组(运动后口服乳酸盐)和SAL组(运动后口服生理盐水)(每组n=8)。运动强度为 VO2max 80%,速度为 25 米/分钟,坡度为 15°,持续 50 分钟。急性运动后,LAC 组和 SAL 组分别口服乳酸盐和生理盐水,并在室内休息。在休息期间测量了1小时的能量代谢:结果:LAC组和SAL组小鼠在运动后分别摄入乳酸盐和生理盐水,1小时后通过尾部采血测量血液乳酸盐浓度。两组小鼠的血液乳酸浓度无明显差异。稳定条件下的能量代谢测量显示,LAC 组的呼吸交换比明显低于 SAL 组。此外,在 10-25 分钟内,LAC 组的碳水化合物氧化率明显低于 SAL 组。结论:我们发现,运动后摄入乳酸盐会改变休息 1 小时后的呼吸交换比。此外,急性乳酸盐摄入会抑制运动后恢复期的碳水化合物氧化。
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Effects of post-exercise intake of exogenous lactate on energy substrate utilization at rest.

Purpose: This study investigated the effects of exogenous lactate intake on energy metabolism during 1 h of rest after acute exercise.

Methods: Eight-week-old ICR mice were randomly divided into four groups: SED (no treatment), EXE (exercise only), LAC (post-exercise oral lactate administration), and SAL (post-exercise saline administration) (n=8 per group). The exercise intensity was at VO2max 80% at 25 m/min and 15° slope for 50 min. After acute exercise, the LAC and SAL groups ingested lactate and saline orally, respectively, and were allowed to rest in a chamber. Energy metabolism was measured for 1 h during the resting period.

Results: LAC and SAL group mice ingested lactate and saline, respectively, after exercise and the blood lactate concentration was measured 1 h later through tail blood sampling. Blood lactate concentration was not significantly different between the two groups. Energy metabolism measurements under stable conditions revealed that the respiratory exchange ratio in the LAC group was significantly lower than that in the SAL group. Additionally, carbohydrate oxidation in the LAC group was significantly lower than that in the SAL group at 10-25 min. No significant difference was observed in the fat oxidation level between the two groups.

Conclusion: We found that post-exercise lactate intake modified the respiratory exchange ratio after 1 h of rest. In addition, acute lactate ingestion inhibits carbohydrate oxidation during the post-exercise recovery period.

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