久坐时的阻力运动间歇可增强久坐成人对随后口服葡萄糖负荷的血流反应。

IF 2.6 4区医学 Q2 PHYSIOLOGY

Experimental Physiology Pub Date : 2024-08-02 DOI:10.1113/EP091535

Emily M Rogers, Nile F Banks, Emma R Trachta, Morgan S Wolf, Alexander C Berry, Anna E Stanhewicz, Lucas J Carr, Bethany Barone Gibbs, Nathaniel D M Jenkins

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引用次数: 0

摘要

久坐引起的餐后血流障碍是久坐行为与心脏代谢疾病风险之间的重要联系。这项研究的目的是考察在久坐的 3 小时内每 30 分钟进行一次阻力运动休息（REB）对久坐成人随后口服葡萄糖负荷时血管舒张反应的影响。24 名久坐不动的成年人（27 ± 7 岁，16 名女性）完成了两个条件的测试。在食用标准化早餐前立即测量空腹血糖、胰岛素、腘动脉血流（PABF）和腓肠肌灌注。早餐后，开始 3 小时的 REB 或不间断（SIT）干预期。参与者坐在工作站上，在60分钟和120分钟后测量腘动脉剪切率（PASR）。在 REB 条件下，参与者每 30 分钟进行一次 3 分钟的 REB（3 × [20 秒深蹲，20 秒高抬膝，20 秒高抬小腿]）。干预期结束后，重复基线测量。然后，参与者饮用 75 克葡萄糖饮料，在随后的 120 分钟内，每隔 30-60 分钟测量一次 PABF 和血流灌注。相对于 SIT，REB 在干预期的 60 分钟（+31.4 ± 9.2/s，P = 0.037）和 120 分钟（+37.4 ± 10.2/s，P = 0.019）增加了 PASR。胰岛素和葡萄糖增加（P

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Resistance exercise breaks during prolonged sitting augment the blood flow response to a subsequent oral glucose load in sedentary adults.

Sitting-induced impairments in postprandial blood flow are an important link between sedentary behaviour and cardiometabolic disease risk. The objective of this work was to examine the effects of resistance exercise breaks (REB) performed every 30 min during an otherwise sedentary 3-h period on the vasodilatory response to a subsequent oral glucose load in sedentary adults. Twenty-four sedentary adults (27 ± 7 years, 16 females) completed two conditions. Fasting blood glucose, insulin, popliteal artery blood flow (PABF) and gastrocnemius perfusion were measured immediately before standardized breakfast consumption. After breakfast, the 3-h REB or uninterrupted (SIT) intervention period commenced. Participants sat at a workstation, and popliteal artery shear rate (PASR) was measured 60 and 120 min into this period. In the REB condition, participants performed a 3-min REB (3 × [20 s squats, 20 s high knees, 20 s calf raises]) every 30 min. Following the intervention period, baseline measurements were repeated. Participants then consumed a 75 g glucose beverage, and PABF and perfusion were measured every 30-60 min for the following 120 min. Relative to SIT, REB increased PASR at 60 min (+31.4 ± 9.2/s, P = 0.037) and 120 min (+37.4 ± 10.2/s, P = 0.019) into the intervention period. Insulin and glucose increased (P < 0.001) in response to glucose consumption, with no differences between conditions (P ≥ 0.299). In response to the glucose load, perfusion (1.57 vs. 1.11 mL/100 mL/min, P = 0.023) and PABF (+45.3 ± 11.8 mL/min, P = 0.001) were greater after REB versus SIT. Performing 3-min REB every 30 min during an otherwise sedentary 3-h period augmented leg blood flow responses to an oral glucose load. HIGHLIGHTS: What is the central question of this study? Can 3-min resistance exercise breaks (REB) performed during an otherwise sedentary 3-h period augment the vasodilatory response to a subsequent oral glucose load in sedentary adults? What is the main finding and its importance? Performing 3-min REB, which included squats, high knees, and calf raises, every 30 min augmented lower limb blood flow responses to a subsequent oral glucose load compared to 3 h of uninterrupted sitting in sedentary adults. Sitting-induced impairment in postprandial vasodilatory function has been identified as a link between sedentary behaviour and cardiometabolic disease. Thus, the current study presents a potentially effective strategy to offset this risk.

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来源期刊

Experimental Physiology 医学-生理学

CiteScore

5.10

自引率

3.70%

发文量

262

审稿时长

1 months

期刊介绍： Experimental Physiology publishes research papers that report novel insights into homeostatic and adaptive responses in health, as well as those that further our understanding of pathophysiological mechanisms in disease. We encourage papers that embrace the journal’s orientation of translation and integration, including studies of the adaptive responses to exercise, acute and chronic environmental stressors, growth and aging, and diseases where integrative homeostatic mechanisms play a key role in the response to and evolution of the disease process. Examples of such diseases include hypertension, heart failure, hypoxic lung disease, endocrine and neurological disorders. We are also keen to publish research that has a translational aspect or clinical application. Comparative physiology work that can be applied to aid the understanding human physiology is also encouraged. Manuscripts that report the use of bioinformatic, genomic, molecular, proteomic and cellular techniques to provide novel insights into integrative physiological and pathophysiological mechanisms are welcomed.