在非机动跑步机上进行抗阻冲刺时的峰值功率的适宜负荷。

Appropriate loads for peak-power during resisted sprinting on a non-motorized treadmill.

机构信息

Neuromechanics Laboratory, Department of Health, Sport, and Exercise Sciences, University of Kansas, Lawrence, KS, USA.

出版信息

J Hum Kinet. 2013 Oct 8;38:161-7. doi: 10.2478/hukin-2013-0056. eCollection 2013.

DOI:10.2478/hukin-2013-0056

PMID:24233103

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3827764/

Abstract

The purpose of this study was to determine the load which allows the highest peak power for resisted sprinting on a non-motorized treadmill and to determine if other variables are related to individual differences. Thirty college students were tested for vertical jump, vertical jump peak and mean power, 10 m sprint, 20 m sprint, leg press 1 RM, leg press 1 RM relative to body weight, leg press 1 RM relative to lean body mass, leg press 1 RM power, and leg press power at 80% of 1 RM. Participants performed eight resisted sprints on a non-motorized treadmill, with increasing relative loads expressed as percent of body weight. Sprint peak power was measured for each load. Pearson correlations were used to determine if relationships between the sprint peak power load and the other variables were significant. The sprint peak power load had a mode of 35% with 73% of all participants having a relative sprint peak power load between 25-35%. Significant correlations occurred between sprint peak power load and body weight, lean body mass, vertical jump peak and mean power, leg press 1 RM, leg press 1 RM relative to lean body mass, leg press 1 RM power, and leg press power at 80% of 1 RM (r = 0.44, 0.43, 0.39, 0.37, 0.47, 0.39, 0.46, and 0.47, respectively). Larger, stronger, more powerful athletes produced peak power at a higher relative load during resisted sprinting on a non-motorized treadmill.

摘要

本研究旨在确定在非动力跑步机上进行抗阻冲刺时能够产生最大功率的负荷，并确定其他变量是否与个体差异有关。30 名大学生接受了垂直跳跃、垂直跳跃峰值和平均功率、10 米冲刺、20 米冲刺、腿推 1RM、腿推 1RM 与体重的比值、腿推 1RM 与去脂体重的比值、腿推 1RM 功率以及腿推 80%1RM 的功率测试。参与者在非动力跑步机上进行了八次抗阻冲刺，相对负荷逐渐增加，用体重的百分比表示。测量每个负荷的冲刺峰值功率。采用皮尔逊相关分析确定冲刺峰值功率负荷与其他变量之间的关系是否显著。冲刺峰值功率负荷的模式为 35%，73%的参与者的相对冲刺峰值功率负荷在 25-35%之间。冲刺峰值功率负荷与体重、去脂体重、垂直跳跃峰值和平均功率、腿推 1RM、腿推 1RM 与去脂体重的比值、腿推 1RM 功率以及腿推 80%1RM 的功率之间存在显著相关性（r = 0.44、0.43、0.39、0.37、0.47、0.39、0.46 和 0.47）。更大、更强、更有力的运动员在非动力跑步机上进行抗阻冲刺时，能够在更高的相对负荷下产生最大功率。

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