在不同的代谢挑战性刺激下,女性的代谢灵活性更高。

José Antonio Benitez-Muñoz, Isabel Guisado-Cuadrado, Miguel A Rojo-Tirado, María Alcocer-Ayuga, Nuria Romero-Parra, Ana Belén Peinado, Rocío Cupeiro
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引用次数: 0

摘要

第一个目的是探索在控制条件下,不同性别的代谢灵活性对运动强度变化的反应差异。第二个目的是评估在两种不同的代谢挑战性刺激(糖原耗竭和高温)下,不同性别的代谢灵活性对运动强度的反应。11 名男性(22±3 岁,176.2±4 厘米,68.4±4.9 千克,60.2±4.1 毫升/千克血浆/分钟)和 9 名女性(22±2 岁,166.7±4.5 厘米,61.9±2.9 千克,64.2±5.6 ml/kgFFM/min)在循环测力计上进行了最大增量运动测试(每 3 分钟 30 瓦),测试条件有三种:对照组(24 小时高碳水化合物饮食,然后进行增量测试)、糖原耗竭组(糖原耗竭方案,然后 24 小时低碳水化合物饮食,然后进行增量测试)和加热组(24 小时高碳水化合物饮食,然后 30 分钟被动加热,然后在加热条件下进行增量测试)。在每个步骤的最后一分钟,通过间接热量测定法分析乳酸、脂肪(FATox/FFM)和碳水化合物氧化(CHox/FFM)以及能量消耗(EE/FFM),并将其归一化为无脂质量。在各种条件下(对照组、糖原耗竭组和高温组),随着运动强度的增加,女性的 FATox/FFM 越大(p=0.006)。相比之下,在任何特定强度的运动条件下,男女之间的 CHox/FFM 均无显著差异(p>0.05)。因此,在不同强度的条件下,雌性的 EE/FFM 都较高(p=0.002)。最后,在不同条件下的相同强度下,男女之间的乳酸浓度没有差异(p=0.87)。总之,无论测试是在强调氧化途径(糖原耗竭)还是糖酵解途径(高温)的条件下进行,由于女性在不同强度下的 FATox/FFM 均较高,因此女性的新陈代谢灵活性更高。临床试验:NCT05703100。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Females have better metabolic flexibility in different metabolically challenging stimuli.

The first aim was to explore the difference in metabolic flexibility between sexes in response to changing exercise intensity under control conditions. The second aim was to evaluate metabolic flexibility between sexes in response to exercise intensity adding two different metabolically challenging stimuli (glycogen depletion and heat). Eleven males (22±3yrs, 176.2±4cm, 68.4±4.9kg and 60.2±4.1ml/kgFFM/min) and nine females (22±2yrs, 166.7±4.5cm, 61.9±2.9kg, 64.2±5.6 ml/kgFFM/min) performed a maximal incremental exercise test (30W every 3min) on a cycle ergometer under three conditions: control (24h high-carbohydrate diet followed by the incremental test), glycogen depletion (glycogen-depletion protocol followed by 24h low-carbohydrate diet and then the incremental test) and heat (24h high-carbohydrate diet followed by 30 min passive heating and then the incremental test in heat). In the last minute of each step, lactate was analysed, fat (FATox/FFM) and carbohydrate oxidation (CHox/FFM) and energy expenditure (EE/FFM) normalized to fat free mass was estimated by indirect calorimetry. Females presented a greater FATox/FFM as exercise intensity increases across conditions (control, glycogen depletion and heat) (p=0.006). In contrast, CHox/FFM was not significantly different between sexes at any specific intensity across conditions (p>0.05). Consequently, EE/FFM was higher in females throughout the different intensities across conditions (p=0.002). Finally, lactate concentration was not different between sexes at the same intensities across conditions (p=0.87). In conclusion, females present a greater metabolic flexibility, due to the higher FATox/FFM throughout the different intensities, regardless of whether the test is performed in a conditions emphasizing the oxidative pathway (glycogen depletion) or the glycolytic pathway (heat). Clinical trials:NCT05703100.

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