Microvascular Reactivity Is Greater Following Blood Flow Restriction Resistance Exercise Compared with Traditional Resistance Exercise.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Michael R Perlet, Peter A Hosick, Nicholas Licameli, Evan L Matthews
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Abstract

Abstract: Perlet, MR, Hosick, PA, Licameli, N, and Matthews, EL. Microvascular reactivity is greater following blood flow restriction resistance exercise compared with traditional resistance exercise. J Strength Cond Res XX(X): 000-000, 2024-Chronic blood flow restriction (BFR) resistance exercise can improve muscular strength, hypertrophy, and microvasculature function, but the acute microvascular effects are unknown. We aimed to test the effects of acute BFR resistance exercise on postexercise microvascular reactivity in an exercising muscle and nonexercising muscle compared with traditional resistance exercise (TRE). Twenty-five adults (men = 14, women = 11, age: 22 ± 3 years, body mass: 71.69 ± 14.49 kg, height: 170 ± 10 cm) completed barbell back squat 1-repetition maximum (1RM) testing followed by 2 randomized and counterbalanced resistance exercise visits separated by ≥48 hours. The 2 visits involved either BFR (4 sets of 30-15-15-15 repetitions at 30% 1RM, with 60-second rest intervals) or TRE (4 sets of 10 repetitions at 70% 1RM, 60-second rest intervals). During each exercise visit, a pre- and postbarbell back squat vascular occlusion test was performed using near-infrared spectroscopy to measure skeletal muscle oxygen (SmO2) in the vastus lateralis (VL) and flexor carpi radialis (FCR). Two-way repeated-measures ANOVA found an interaction effect (p = 0.020) for SmO2 reactivity in the VL. Post hoc analysis found greater reactive hyperemia postexercise in the VL for the BFR condition (p < 0.001) but not the TRE condition (p ≥ 0.05). There were no time, condition, or interaction effects (all p > 0.05) for the same analysis in the FCR. This analysis suggests that BFR, but not TRE, lead to acutely improved microvasculature function. Moreover, it suggests that the effects of BFR resistance exercise are local to the exercised or occluded limb and not systemic.

与传统阻力运动相比,限制血流阻力运动后的微血管反应性更强。
摘要:Perlet,MR,Hosick,PA,Licameli,N 和 Matthews,EL。与传统阻力运动相比,血流限制阻力运动后的微血管反应性更强。J Strength Cond Res XX(X):000-000,2024--慢性血流限制(BFR)阻力运动能改善肌肉力量、肥大和微血管功能,但对急性微血管的影响尚不清楚。我们的目的是测试急性血流限制阻力运动与传统阻力运动(TRE)相比对运动肌肉和非运动肌肉运动后微血管反应性的影响。25 名成年人(男性 = 14 人,女性 = 11 人,年龄:22 ± 3 岁,体重:71.69 ± 14.49 千克,身高:170 ± 10 厘米)完成了杠铃后蹲 1 次重复最大值(1RM)测试,随后进行了 2 次随机平衡阻力锻炼,每次锻炼间隔≥48 小时。这 2 次访问涉及 BFR(4 组 30-15-15-15 重复,1RM 为 30%,休息间隔为 60 秒)或 TRE(4 组 10 次重复,1RM 为 70%,休息间隔为 60 秒)。在每次锻炼期间,使用近红外光谱仪进行杠铃深蹲前后的血管闭塞测试,以测量侧阔肌(VL)和桡侧屈肌(FCR)的骨骼肌氧(SmO2)。双向重复测量方差分析发现,VL 的 SmO2 反应性存在交互效应(p = 0.020)。事后分析发现,BFR 条件下运动后 VL 的反应性充血更强(p < 0.001),而 TRE 条件下运动后 VL 的反应性充血不强(p ≥ 0.05)。在对 FCR 进行相同分析时,没有时间、条件或交互作用效应(均 p > 0.05)。该分析表明,BFR(而非 TRE)能迅速改善微血管功能。此外,它还表明 BFR 阻力运动的影响是在运动或闭塞肢体的局部,而不是全身性的。
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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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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