在 3 分钟全力奔跑测试中,站立时间和冲击负荷率是临界速度的重要预测因素。

Q1 Health Professions
Trevor Short, Christopher Stickley, Bret Freemyer, Andrew Takata, Paulette M Yamada
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引用次数: 0

摘要

在 3 分钟全力以赴地面跑步测试(3MAOT)中增加可穿戴技术,可以为指导训练和教练策略提供更多启示。本研究旨在探索临界速度(CS)和生物力学参数(步频、步幅、垂直摆动、站立时间、形态力量、腿部弹簧刚度和冲击负荷率)之间的关系,以及整个 3MAOT 过程中生物力学参数的变化。63 名(男,37 人;女,26 人)大学年龄(23.4±3.9 岁)的休闲活动受试者在佩戴 Stryd 脚架的情况下完成了 3MAOT 运动。使用皮尔逊系数评估了 CS 与生物力学参数之间的相关性。逐步多元线性回归用于检验生物力学参数能否预测 CS。站立时间和冲击负荷率分别解释了 CS 变异的 69% 和 63%(R2=0.69,p2=0.63,p2=0.90,p2=0.90,p2=0.69)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Stance Time and Impact Loading Rates are Significant Predictors of Critical Speed During a 3-Minute All-Out Running Test.

The addition of wearable technology during a 3-minute all-out overground running test (3MAOT) could provide additional insights to guide training and coaching strategies. The purpose of this study was to explore the relationships between critical speed (CS) and biomechanical parameters (cadence, stride length, vertical oscillation, stance time, form power, leg spring stiffness, and impact loading rate), and changes in biomechanical parameters throughout the 3MAOT. Sixty-three (male, n=37, female, n=26) recreationally active college-aged (23.4±3.9 years) subjects completed a 3MAOT while wearing a Stryd foot-pod. The correlations between CS and biomechanical parameters were evaluated using Pearson coefficients. Stepwise multiple linear regressions were used to test if biomechanical parameters could predict CS. Stance time and impact loading rate explained 69% and 63% of the variance in CS, respectively (R2=0.69, p<0.05; R2=0.63, p<0.05). Step-wise multiple linear regression analysis indicated that vertical oscillation, stance time, form power, leg spring stiffness, and impact loading rate explained 90% of the variance in CS (R2=0.90, p<0.05). Throughout the 3MAOT, changes in cadence (-29%), stride length (57%), vertical oscillation (-8%), stance time (82%), form power (-5%), leg spring stiffness (-24%), and impact loading rate (-48%) were observed. Interventions such as auditory cueing or training designed to improve CS should focus on maintaining large impact loading rates and short stance times, and efforts should be made to enhance an athlete's ability to maintain cadence, leg spring stiffness, vertical oscillation, and form power throughout the 3MAOT.

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来源期刊
International journal of exercise science
International journal of exercise science Health Professions-Occupational Therapy
CiteScore
2.20
自引率
0.00%
发文量
47
审稿时长
26 weeks
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