Force-velocity profile changes with forearm wearable resistance during standing start sprinting

IF 2.4 3区医学 Q2 SPORT SCIENCES

European Journal of Sport Science Pub Date : 2020-08-01 DOI:10.1080/17461391.2019.1686070

P. Macadam, Megna Mishra, Erin H. Feser, Aaron M. Uthoff, J. Cronin, J. Zois, R. Nagahara, Farhan Tinwala

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引用次数: 3

Abstract

Abstract Horizontal force-velocity (F-V) profiling is a strategy to assess athletes’ individual performance capabilities during sprinting. This study investigated the acute changes in F-V profiles during sprinting of fourteen collegiate male sprinters with a mean 100-m sprint time of 11.40 ± 0.39 s, from a split-stance starting position. The subjects sprinted 30-m with, and without, wearable resistance (WR) equivalent to 2% body mass, attached to their forearms. Sprinting time at 5, 10, 20, and 30-m was assessed using laser technology. External horizontal F-V relationships were calculated via velocity-time signals. Maximal theoretical velocity (V 0), theoretical relative and absolute horizontal force (F 0), and horizontal power (P max) were determined from the F-V relationship. Paired t-tests were used to determine statistical differences (p ≤ 0.05) in variables across conditions with Cohen’s d as effect sizes (ES) calculated to assess practical changes. Sprint times at 10-m and beyond were significantly increased (1.9–3.3%, p 0.01–0.03, ES 0.46–0.60) with WR compared to unloaded sprinting. The only significant change in F-V with the WR condition was found in relative P max system (−6.1%, p 0.01, ES 0.66). A small decrease was reported in V 0 (−1.0%, p 0.11, ES 0.27), with small to medium ES decreases reported in F 0 (−4.8% to −6.1%, p 0.07–0.21, ES 0.25-0.51) and P max (−4.3% to −4.6%, p 0.06–0.08, ES 0.32–0.45). The greater changes to F 0 and P max suggest that forearm WR may be a possible training tool for athletes who wish to focus on force and power adaptation during sprint acceleration from a standing start.

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力-速度剖面随站立起跑时前臂耐磨性的变化

水平力-速度(F-V)分析是一种评估短跑运动员个人表现能力的策略。本研究以14名大学生男子短跑运动员为研究对象，在平均100米冲刺时间为11.40±0.39秒的条件下，研究了F-V谱的急性变化。受试者在冲刺30米时，前臂上有或没有相当于体重2%的可穿戴阻力(WR)。使用激光技术评估5、10、20和30米的冲刺时间。通过速度-时间信号计算外部水平F-V关系。最大理论速度(v0)、理论相对和绝对水平力(f0)和水平功率(pmax)由F-V关系确定。使用配对t检验来确定不同条件下变量的统计差异(p≤0.05)，并计算Cohen 's d作为效应量(ES)来评估实际变化。在10米及10米以上的冲刺时间，与无负荷冲刺相比，WR显著增加(1.9 ~ 3.3%，p 0.01 ~ 0.03, ES 0.46 ~ 0.60)。相对P max系统中F-V随WR条件的唯一显著变化(- 6.1%，P 0.01, ES 0.66)。v0有小幅下降(- 1.0%，p 0.11, ES 0.27)， f0有小幅至中度ES下降(- 4.8%至- 6.1%，p 0.07-0.21, ES 0.25-0.51)和p max(- 4.3%至- 4.6%，p 0.06-0.08, ES 0.32-0.45)。f0和pmax的较大变化表明，前臂WR可能是运动员在站立起跑冲刺加速过程中专注于力量和力量适应的一个可能的训练工具。

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

European Journal of Sport Science 医学-运动科学

CiteScore

6.60

自引率

3.10%

发文量

153

审稿时长

6-12 weeks

期刊介绍： The European Journal of Sport Science (EJSS) is the official Medline- and Thomson Reuters-listed journal of the European College of Sport Science. The editorial policy of the Journal pursues the multi-disciplinary aims of the College: to promote the highest standards of scientific study and scholarship in respect of the following fields: (a) Applied Sport Sciences; (b) Biomechanics and Motor Control; c) Physiology and Nutrition; (d) Psychology, Social Sciences and Humanities and (e) Sports and Exercise Medicine and Health.