可穿戴式抗阻训练对步行、跑步、冲刺跑和跳跃过程中代谢、运动学和动力学变量的影响：系统评价。

The Effects of Wearable Resistance Training on Metabolic, Kinematic and Kinetic Variables During Walking, Running, Sprint Running and Jumping: A Systematic Review.

机构信息

Sports Performance Research Institute New Zealand (SPRINZ) at AUT Millennium, Auckland University of Technology, Auckland, New Zealand.

School of Exercise, Biomedical and Health Sciences, Edith Cowan University, Perth, Australia.

出版信息

Sports Med. 2017 May;47(5):887-906. doi: 10.1007/s40279-016-0622-x.

DOI:10.1007/s40279-016-0622-x

PMID:27638041

Abstract

BACKGROUND

Wearable resistance training (WRT) provides a means of activity- or movement-specific overloading, supposedly resulting in better transference to dynamic sporting performance.

OBJECTIVE

The purpose of this review was to quantify the acute and longitudinal metabolic, kinematic and/or kinetic changes that occur with WRT during walking, running, sprint running or jumping movements.

DATA SOURCES

PubMed, SPORTDiscus, Web of Science and MEDLINE (EBSCO) were searched using the Boolean phrases (limb OR vest OR trunk) AND (walk* OR run* OR sprint* OR jump* OR bound*) AND (metabolic OR kinetic OR kinematic) AND (load*).

STUDY SELECTION

A systematic approach was used to evaluate 1185 articles. Articles with injury-free subjects of any age, sex or activity level were included.

RESULTS

Thirty-two studies met the inclusion criteria and were retained for analysis. Acute trunk loading reduced velocity during treadmill sprint running, but only significantly when loads of 11 % body mass (BM) or greater were used, while over-the-ground sprint running times were significantly reduced with all loads (8-20 %BM). Longitudinal trunk loading significantly increased jump performance with all loads (7-30 %BM), but did not significantly improve sprint running performance. Acute limb loading significantly increased maximum oxygen consumption and energy cost with all loads (0.3-8.5 %BM) in walking and running, while significantly reducing velocity during sprint running.

LIMITATIONS

The variation in load magnitude, load orientation, subjects, testing methods and study duration no doubt impact the changes in the variables examined and hence make definitive conclusions problematic.

CONCLUSIONS

WRT provides a novel training method with potential to improve sporting performance; however, research in this area is still clearly in its infancy, with future research required into the optimum load placement, orientation and magnitude required for adaptation.

摘要

背景

可穿戴式抗阻训练（WRT）提供了一种针对活动或运动的超负荷训练方法，据称可更好地转化为动态运动表现。

目的

本综述的目的是量化在行走、跑步、冲刺跑或跳跃运动中，WRT 引起的急性和纵向代谢、运动学和/或动力学变化。

数据来源

通过布尔短语（肢体或背心或躯干）和（走或跑或冲刺或跳或跳）和（代谢或动力或运动学）和（负载*），在 PubMed、SPORTDiscus、Web of Science 和 MEDLINE（EBSCO）上进行了搜索。

研究选择

采用系统方法评估了 1185 篇文章。纳入了无损伤、任何年龄、性别或活动水平的受试者的文章。

结果

32 项研究符合纳入标准并被保留用于分析。急性躯干负荷会降低跑步机冲刺跑的速度，但只有当负荷达到 11%体重（BM）或更大时才会显著降低，而在地面上进行的冲刺跑时间则会因所有负荷（8-20%BM）而显著降低。纵向躯干负荷会显著提高所有负荷（7-30%BM）下的跳跃表现，但不会显著提高冲刺跑表现。急性肢体负荷会显著增加行走和跑步时所有负荷（0.3-8.5%BM）的最大摄氧量和能量消耗，而在冲刺跑时会显著降低速度。

局限性

负荷大小、负荷方向、受试者、测试方法和研究持续时间的变化无疑会影响所检查变量的变化，因此难以得出明确的结论。

结论

WRT 提供了一种新颖的训练方法，具有提高运动表现的潜力；然而，该领域的研究仍处于起步阶段，需要进一步研究适应所需的最佳负荷位置、方向和大小。

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可穿戴式抗阻训练对步行、跑步、冲刺跑和跳跃过程中代谢、运动学和动力学变量的影响：系统评价。

The Effects of Wearable Resistance Training on Metabolic, Kinematic and Kinetic Variables During Walking, Running, Sprint Running and Jumping: A Systematic Review.

机构信息

出版信息

BACKGROUND

OBJECTIVE

DATA SOURCES

STUDY SELECTION

RESULTS

LIMITATIONS

CONCLUSIONS

背景

目的

数据来源

研究选择

结果

局限性

结论

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