Reliability of the Metabolic Response During Steady-State Exercise at FATmax in Young Men with Obesity.

Isaac A Chávez-Guevara, Ratko Peric, Francisco J Amaro-Gahete, Arnulfo Ramos-Jiménez
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Abstract

Purpose: In this study we evaluated the reliability of blood lactate levels (BLa), energy expenditure and substrate utilization during prolonged exercise at the intensity that elicits maximal fat oxidation (FATmax). Furthermore, we investigated the accuracy of a single graded exercise test (GXT) for predicting energy metabolism at FATmax. Methods: Seventeen young men with obesity (26 ± 6 years; 36.4 ± 7.2 %body fat) performed a GXT on a treadmill in a fasted state (10-12 h) for the assessment of FATmax and cardiorespiratory fitness. Afterward, each subject performed two additional prolonged FATmax trials (102 ± 11 beats·min-1; 60-min) separated by 7 days. Indirect calorimetry was used for the assessment of energy expenditure and substrate utilization kinetics whereas capillary blood samples were taken for the measurement of BLa. Results: The BLa (limits of agreement (LoA): -1.2 to 0.8 mmol∙L-1; p = 1.0), fat utilization (LoA: -8.0 to 13.4 g∙h-1; p = 0.06), and carbohydrate utilization (LoA: -27.6 to 22.4 g∙h-1; p = 0.41) showed a good agreement whereas a modest systematic bias was found for energy expenditure (LoA: -16811 to 33355 kJ∙h-1; p < 0.05). All the aforementioned parameters showed a moderate to good reliability (Intraclass correlation coefficient: 0.67-0.92). The GXT overestimated fat (~46%) and carbohydrate (~26%) utilization as well as energy expenditure (36%) during steady-state exercise at FATmax. Conversely the GXT underestimated BLa (~28%). Conclusion: a single GXT cannot be used for an accurate prediction of energy metabolism during prolonged exercise in men with obesity. Thus, an additional steady-state FATmax trial (40-60 min) should be performed for a tailored and precise exercise prescription.

肥胖症青年男子在最大脂肪含量下进行稳态运动时的代谢反应的可靠性。
目的:在本研究中,我们评估了在最大脂肪氧化(FATmax)强度下进行长时间运动时,血液乳酸水平(BLa)、能量消耗和底物利用的可靠性。此外,我们还研究了单一分级运动测试(GXT)预测最大脂肪氧化时能量代谢的准确性。研究方法17 名年轻肥胖男性(26 ± 6 岁;36.4 ± 7.2 % 体脂)在空腹状态(10-12 小时)下在跑步机上进行了 GXT,以评估脂肪消耗最大值和心肺功能。之后,每个受试者又进行了两次延长的最大脂肪量试验(102 ± 11 次/分钟-1;60 分钟),每次间隔 7 天。间接热量计用于评估能量消耗和底物利用动力学,而毛细血管血液样本则用于测量 BLa。结果BLa(一致性限值(LoA):-1.2 至 0.8 mmol∙L-1; p = 1.0)、脂肪利用率(LoA:-8.0 至 13.4 g∙h-1; p = 0.06)和碳水化合物利用率(LoA:-27.6 至 22.4 g∙h-1; p = 0.41)显示出良好的一致性,而能量消耗(LoA:-16811 至 33355 kJ∙h-1; p < 0.05)显示出适度的系统性偏差。上述所有参数均显示出中等至良好的可靠性(类内相关系数:0.67-0.92)。GXT 高估了脂肪(约 46%)和碳水化合物(约 26%)的利用率,以及在 FATmax 稳态运动时的能量消耗(36%)。相反,GXT 低估了 BLa(约 28%)。结论:单一的 GXT 不能用于准确预测肥胖男性在长时间运动时的能量代谢。因此,应进行额外的稳态 FATmax 试验(40-60 分钟),以量身定制精确的运动处方。
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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