<sup>13</sup>C-glucose breath test quantifies differences in glucose metabolism between endurance and non-athletes

Journal of Physical Fitness and Sports Medicine Pub Date : 2023-09-25 DOI:10.7600/jpfsm.12.141

Takahiko J Fujimi, Yuko Mekata, Kaori Kikuchi, Kyoka Musha, Tomokazu Matsuura

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Abstract

Physical training changes the metabolic state, but such changes are difficult to quantify directly and non-invasively in humans. This study therefore used breath tests with 13C stable isotope glucose to assess glucose metabolism in endurance athletes. Our breath test measured the ratio of 13C to 12C in CO2 from expired air to derive 13C excretion per unit time. We compared 13C excretion levels between long-distance runners (runner group) and non-trained healthy males (control group), in both conditions with and without 50 g oral glucose loading (OGL). The 13C excretion was lower in the runner group than in the control group throughout the 6-hour period, regardless of OGL. Therefore, the area under the curve, which indicates total excretion, was lower in the runner group. There are many reports related to the adaptation of glucose metabolism in training (including gluconeogenesis, glucose transport to the liver and muscle, and glycogen synthesis). Our study showed that this breath test could be a simple and convenient way to monitor the overall glucose metabolic adaptation state in the athlete body.

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c -葡萄糖呼气试验量化耐力和非运动员之间葡萄糖代谢的差异

体育训练改变了代谢状态，但这种变化很难在人体中直接和无创地量化。因此，本研究使用13C稳定同位素葡萄糖呼吸试验来评估耐力运动员的葡萄糖代谢。我们的呼吸测试测量了呼气中二氧化碳中13C与12C的比例，以得出单位时间内13C的排泄量。我们比较了长距离跑步者(跑步者组)和未经训练的健康男性(对照组)在有和没有50g口服葡萄糖负荷(OGL)两种情况下的13C排泄水平。无论OGL如何，在整个6小时内，跑步组的13C排泄低于对照组。因此，显示总排泄量的曲线下面积在跑步组中较低。有许多关于训练中葡萄糖代谢适应的报道(包括糖异生、葡萄糖转运到肝脏和肌肉以及糖原合成)。我们的研究表明，这种呼吸测试可以成为一种简单方便的监测运动员体内整体葡萄糖代谢适应状态的方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Physical Fitness and Sports Medicine

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18 weeks