Prescribing Blood Flow Restricted Exercise: Limb Composition Influences the Pressure Required to Create Arterial Occlusion.

IF 1.3 4区医学 Q3 REHABILITATION

Journal of Sport Rehabilitation Pub Date : 2024-08-22 Print Date: 2024-11-01 DOI:10.1123/jsr.2023-0423

Thomas P Walden, Andrew M Jonson, Alasdair R Dempsey, Timothy J Fairchild, Olivier Girard

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引用次数: 0

Abstract

Context: As blood flow restriction gains popularity across different populations (eg, young and older adults) and settings (eg, clinical and sports rehabilitation), the accuracy of blood flow restricted percentage becomes crucial. We aimed to compare manually measured arterial occlusion pressure (AOP) among young adults to understand whether lower limb composition affects the pressure required to achieve AOP. The results will shed light on the adequacy of published calculations used to estimate AOP in practical and research settings.

Design: An observational cross-sectional study design was implemented to examine the relationship between lower limb composition, lower limb circumference, and measured AOP.

Methods: Twenty-two participants (12 males, 26 [4] y, 1.74 [0.07] m, 73.2 [12.5] kg) underwent a whole-body Dual-energy X-ray Absorptiometry scan before AOP (in millimeters of mercury) and lower limb circumference (in centimeters) were determined. In a supine position, a 10-cm wide cuff was manually inflated on the dominant leg to the point where a pulse could no longer be detected by a Doppler ultrasound of the posterior tibial artery to determine AOP. Lower limb composition (fat, muscle, and bone mass [in grams]) was obtained from the Dual-energy X-ray Absorptiometry scan.

Results: Lower limb muscle mass had a moderate negative relationship with AOP (r2 = .433, β = -0.004) and a moderate positive relationship with lower limb circumference (r2 = .497, β = 0.001). Lower limb circumference had the weakest relationship with AOP (r2 = .316, β = 0.050) of all measures.

Conclusions: The reported relationships between lower limb muscle mass, lower limb circumference, and AOP suggest that as muscle mass increases, lower limb circumference also increases, yet AOP decreases. This implies that limb circumference should not be used as the primary measure for calculating AOP within the sampled population. We recommend individually measuring AOP when implementing blood flow restriction in all exercise modalities.

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限制血流量的运动处方：肢体构成影响造成动脉闭塞所需的压力。

背景：随着血流受限在不同人群（如年轻人和老年人）和环境（如临床和运动康复）中的普及，血流受限百分比的准确性变得至关重要。我们旨在比较青壮年中人工测量的动脉闭塞压（AOP），以了解下肢组成是否会影响达到 AOP 所需的压力。研究结果将揭示在实际和研究环境中用于估算 AOP 的已公布计算方法的适当性：设计：采用观察性横断面研究设计，考察下肢组成、下肢周长和测量的 AOP 之间的关系：22名参与者（12名男性，26[4]岁，1.74[0.07]米，73.2[12.5]千克）在测定AOP（以毫米汞柱为单位）和下肢周长（以厘米为单位）之前接受了全身双能X射线吸收扫描。在仰卧位时，用手动方式给主腿上的 10 厘米宽袖带充气，直到胫后动脉多普勒超声波检测不到脉搏为止，以确定 AOP。下肢成分（脂肪、肌肉和骨量[克]）由双能 X 射线吸收仪扫描获得：结果：下肢肌肉质量与 AOP 呈中度负相关（r2 = .433，β = -0.004），与下肢周长呈中度正相关（r2 = .497，β = 0.001）。在所有测量指标中，下肢围度与 AOP 的关系最弱（r2 = .316，β = 0.050）：结论：所报告的下肢肌肉质量、下肢围度和 AOP 之间的关系表明，随着肌肉质量的增加，下肢围度也会增加，但 AOP 却会减少。这意味着在抽样人群中，不应将肢围作为计算 AOP 的主要测量指标。我们建议，在所有运动方式中实施血流限制时，应单独测量 AOP。

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

Journal of Sport Rehabilitation 医学-康复医学

CiteScore

3.20

自引率

5.90%

发文量

143

审稿时长

>12 weeks

期刊介绍： The Journal of Sport Rehabilitation (JSR) is your source for the latest peer-reviewed research in the field of sport rehabilitation. All members of the sports-medicine team will benefit from the wealth of important information in each issue. JSR is completely devoted to the rehabilitation of sport and exercise injuries, regardless of the age, gender, sport ability, level of fitness, or health status of the participant. JSR publishes peer-reviewed original research, systematic reviews/meta-analyses, critically appraised topics (CATs), case studies/series, and technical reports that directly affect the management and rehabilitation of injuries incurred during sport-related activities, irrespective of the individual’s age, gender, sport ability, level of fitness, or health status. The journal is intended to provide an international, multidisciplinary forum to serve the needs of all members of the sports medicine team, including athletic trainers/therapists, sport physical therapists/physiotherapists, sports medicine physicians, and other health care and medical professionals.