使用传统研究设备或新型自动系统对血流限制运动后的急性心理生理反应进行研究。

IF 2.3 4区 医学 Q3 BIOPHYSICS
Enrique N Moreno, Elias C Figueroa, Andrew W Heath, Samuel L Buckner
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引用次数: 0

摘要

目的: 比较使用传统研究设备或新型自动系统进行血流限制(BFR)运动时的急性心理生理反应。 方法: 44 名阻力训练者使用两种不同的限制装置[SmartCuffs PRO BFR Model (SMARTCUFF)、Hokanson E20 快速充气装置 (HOKANSON)]和两种水平的 BFR[40%肢体闭塞压力 (LOP)、80% LOP],进行了四组单侧肘关节屈伸运动[30%单次重复最大值 (1RM)],直至意志衰竭。在运动前和运动后对血压(BP)、肌肉厚度(MT)和等长力量(ISO)进行评估。在运动前和每组运动后评估感知反应[感知用力评分(RPE)、不适感]。在进行 40% LOP 运动后,不同设备之间的血压、血压计和 ISO 均无统计学差异。然而,只有在进行第一组运动后,SMARTCUFF 的 RPE 才高于 HOKANSON(p < 0.05)。此外,与 SMARTCUFF 相比,只有在第二组运动后,HOKANSON 的不适感更大(p < 0.001)。在进行 80% LOP 运动后,不同设备之间的血压、MT 和 ISO 没有统计学差异。然而,只有在第 4 组运动后,HOKANSON 的 RPE 才高于 SMARTCUFF(p < 0.05)。此外,与 SMARTCUFF 相比,HOKANSON 在完成所有运动组后的不适感更大(p < 0.001):本研究就新型自动阻力测试系统(SMARTCUFF)的功效提供了有价值的见解,与传统研究设备(HOKANSON)相比,该系统对阻力测试运动可产生类似的急性生理反应,在某些情况下还可产生良好的心理反应。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An examination of acute physiological and perceptual responses following blood flow restriction exercise using a traditional research device or novel, automated system.

Objective. To compare the acute physiological and perceptual responses to blood flow restriction (BFR) exercise using a traditional research device or novel, automated system.Methods. Forty-four resistance trained individuals performed four sets of unilateral elbow flexion exercise (30% one-repetition maximum) to volitional failure using two distinct restrictive devices [SmartCuffs PRO BFR Model (SMARTCUFF), Hokanson E20 Rapid Inflation device (HOKANSON)] and with two levels of BFR [40% limb occlusion pressure (LOP), 80% LOP]. Blood pressure (BP), muscle thickness (MT), and isometric strength (ISO) were assessed prior to and following exercise. Perceptual responses [ratings of perceived exertion (RPE), discomfort] were assessed prior to exercise and following each exercise set.Main results. Data are displayed as means (SD). Immediately following exercise with 40% LOP, there were no statistical differences between devices for BP, MT, and ISO. However, only following Set 1 of exercise, RPE was greater with SMARTCUFF compared to HOKANSON (p< 0.05). In addition, only following Set 2 of exercise, discomfort was greater with HOKANSON compared to SMARTCUFF (p< 0.001). Immediately following exercise with 80% LOP, there were no statistical differences between devices for BP, MT, and ISO. However, only following Set 4 of exercise, RPE was greater with HOKANSON compared to SMARTCUFF (p< 0.05). In addition, following all exercise sets, discomfort was greater with HOKANSON compared to SMARTCUFF (p< 0.001). For repetitions completed with 40% LOP there were no statistical differences between SMARTCUFF and HOKANSON across any exercise sets. For repetitions completed with 80% LOP there were no statistical differences between SMARTCUFF and HOKANSON across Set 1 of exercise (p= 0.34), however, for Sets 2-4 of exercise, significantly greater number of repetitions were completed during SMARTCUFF than HOKANSON.Significance. The present study provides valuable insight into the efficacy of a novel, automated BFR system (SMARTCUFF) eliciting comparable acute physiological responses to BFR exercise and in some cases favorable perceptual responses when compared to a traditional research device (HOKANSON).

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来源期刊
Physiological measurement
Physiological measurement 生物-工程:生物医学
CiteScore
5.50
自引率
9.40%
发文量
124
审稿时长
3 months
期刊介绍: Physiological Measurement publishes papers about the quantitative assessment and visualization of physiological function in clinical research and practice, with an emphasis on the development of new methods of measurement and their validation. Papers are published on topics including: applied physiology in illness and health electrical bioimpedance, optical and acoustic measurement techniques advanced methods of time series and other data analysis biomedical and clinical engineering in-patient and ambulatory monitoring point-of-care technologies novel clinical measurements of cardiovascular, neurological, and musculoskeletal systems. measurements in molecular, cellular and organ physiology and electrophysiology physiological modeling and simulation novel biomedical sensors, instruments, devices and systems measurement standards and guidelines.
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