心肺适能可能会影响肥胖者运动期间的代谢灵活性。

Cardiorespiratory Fitness May Influence Metabolic Inflexibility During Exercise in Obese Persons.

机构信息

EFFECTS-262 Research Group, Department of Physiology, School of Medicine, University of Granada, Spain.

PROmoting FITness and Health through Physical Activity Research Group, Sport and Health University Research Institute, Department of Physical and Sports Education, School of Sports Science, University of Granada, Spain.

出版信息

J Clin Endocrinol Metab. 2019 Dec 1;104(12):5780-5790. doi: 10.1210/jc.2019-01225.

DOI:10.1210/jc.2019-01225

PMID:31322652

Abstract

CONTEXT

We examined whether obese individuals have a reduced maximal fat oxidation (MFO) and the intensity that elicit MFO (Fatmax) compared with normal weight and overweight persons, taking into account their level of cardiorespiratory fitness.

METHODS

The study subjects were 138 sedentary adults (87 women) aged 30.1 ± 13.6 years. Based on their body mass index, subjects were categorized as being of normal weight (n = 66), overweight (n = 48), or obese (n = 24). MFO and Fatmax were determined for all subjects by indirect calorimetry, using a walking graded exercise test. MFO was expressed in absolute terms (g/min) and relative to whole-body lean mass (mg/kgleanmass/min). Cardiorespiratory fitness was assessed via a maximal treadmill test.

RESULTS

No differences in absolute MFO and Fatmax values were seen between the obese, normal weight, and overweight subjects (all P > 0.2), although after adjusting for cardiorespiratory fitness, the obese subjects returned significantly higher values than did their normal weight and overweight counterparts (all P < 0.03). However, when expressed with respect to lean mass, the MFO of the normal weight subjects was significantly greater than that of the overweight and obese subjects, independent of age, sex, or cardiorespiratory fitness.

CONCLUSIONS

Obese individuals have higher absolute MFO values when cardiorespiratory fitness is taken into account, but when expressed with respect to lean mass, normal weight individuals show a greater capacity to oxidize fat during exercise per unit of metabolically active tissue independent of age, sex, or cardiorespiratory fitness. These findings suggest that obese individuals may suffer from metabolic inflexibility during exercise.

摘要

背景

我们研究了肥胖个体在考虑其心肺功能健康水平的情况下，与正常体重和超重个体相比，其最大脂肪氧化（MFO）和引起 MFO 的强度（Fatmax）是否降低。

方法

本研究对象为 138 名久坐成年人（87 名女性），年龄为 30.1±13.6 岁。根据他们的体重指数，受试者分为正常体重（n=66）、超重（n=48）和肥胖（n=24）。通过间接测热法，使用步行分级运动试验，对所有受试者的 MFO 和 Fatmax 进行测定。MFO 以绝对量（g/min）和相对于全身瘦体重（mg/kgleanmass/min）表示。心肺功能健康通过最大跑步机测试进行评估。

结果

肥胖、正常体重和超重受试者之间的绝对 MFO 和 Fatmax 值无差异（均 P>0.2），尽管在调整心肺功能健康后，肥胖受试者的数值仍明显高于正常体重和超重受试者（均 P<0.03）。然而，当以瘦体重表示时，正常体重受试者的 MFO 明显大于超重和肥胖受试者，且与年龄、性别或心肺功能健康无关。

结论

当考虑心肺功能健康时，肥胖个体的绝对 MFO 值较高，但当以瘦体重表示时，正常体重个体在运动期间每单位代谢活跃组织的脂肪氧化能力更强，与年龄、性别或心肺功能健康无关。这些发现表明，肥胖个体在运动期间可能存在代谢灵活性不足的问题。

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心肺适能可能会影响肥胖者运动期间的代谢灵活性。

Cardiorespiratory Fitness May Influence Metabolic Inflexibility During Exercise in Obese Persons.

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RESULTS

CONCLUSIONS

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方法

结果

结论

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