全国大学生体育协会 I 组男子大学生篮球运动员季前赛期间的神经肌肉表现和外部训练负荷强度。

IF 2.5 2区 医学 Q2 SPORT SCIENCES Journal of Strength and Conditioning Research Pub Date : 2025-01-01 Epub Date: 2024-10-24 DOI:10.1519/JSC.0000000000004947
Michael A Curtis, Natalie Kupperman, Justin Westbrook, Arthur L Weltman, Joseph Hart, Jay Hertel
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引用次数: 0

摘要

摘要:Curtis,M,Kupperman,N,Westbrook,J,Weltman,AL,Hart,J 和 Hertel,J.全国大学体育协会第一组男子大学生篮球运动员季前赛期间的神经肌肉表现和外部训练负荷强度。J Strength Cond Res XX(X):000-000,2024-该研究的目的是确定在高强度或低强度条件下,通过微传感器技术测量练习前后的反向运动跳跃(CMJ)是否能检测到神经肌肉性能的急性变化。本研究采用观察性重复测量设计,收集了 10 名男子大学生篮球运动员的数据。在为期 4 周的季前赛中,收集了练习前后的反向运动跳跃数据。在训练负荷强度较高和较低的条件下,对选定的 CMJ 动力学进行比较,以检测质心位移和运动学方面的神经肌肉性能变化。运动学测量分为输出、基础和策略相关变量。我们研究的 "输出 "变量定义为位移(跳跃高度[JH]),"支撑 "变量定义为与力有关的变量(平均偏心力、平均同心力、零速度时的力),"策略 "变量定义为与时间有关的变量(反运动深度[CMD]、偏心持续时间[EccDur]、同心持续时间[ConcDur])。在 CMJ 变量(即偏心平均力(EccForce)、零速度时的力(Force@0)、CMD 深度、EccDur 和 ConcDur)中存在明显的条件 × 时间交互作用。在高强度条件下,运动员的偏心平均力(EccForce)和零速力(Force@0)有显著但较小的下降,CMD、EccDur 和 ConDur 分别有较小的上升。但是,JH 没有明显下降。高强度的练习并没有影响 "输出 "的神经肌肉性能,这表明尽管 "基础 "和 "策略相关 "变量发生了变化,大学篮球运动员仍能保持JH。这有助于理解高强度训练暴露所带来的疲劳可能会如何改变大学生篮球运动员的起跳策略和因外部负荷强度而产生的发力能力。
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Neuromuscular Performance and the Intensity of External Training Load During the Preseason in National Collegiate Athletic Association Division I Men's Collegiate Basketball Players.

Abstract: Curtis, M, Kupperman, N, Westbrook, J, Weltman, AL, Hart, J, and Hertel, J. Neuromuscular performance and the intensity of external training load during the preseason in National Collegiate Athletic Association Division I men's collegiate basketball players. J Strength Cond Res 39(1): 54-61, 2025-The aim of the study was to determine whether acute changes in neuromuscular performance can be detected through countermovement jumps (CMJs) conducted pre- and postpractice sessions in conditions of high or low intensity measured by microsensors technology. Using an observational repeated measures design, data were collected from 10 male collegiate basketball players. Countermovement jump data were collected before and after practice exposures over 4 weeks of preseason. Select CMJ kinetics were compared in conditions of high and low training load intensity to detect neuromuscular performance changes in displacement of the center of mass and kinetics. Kinetic measures were categorized as output, underpinning, and strategy-related variables. We investigated "output" defined as displacement (jump height [JH]), "underpinning" defined as force-related (mean eccentric force, mean concentric force, force at zero velocity), and "strategy" defined as time-related (countermovement depth [CMD], eccentric duration (EccDur), concentric duration [ConcDur]) variables. There were significant condition × time interactions in CMJ variables namely eccentric mean force (EccForce), force at zero velocity (Force@0), CMDepth, EccDur, and ConcDur. In conditions of high intensity, players had significant, but small decreases in EccForce and Force@0, with small increases in CMD, EccDur, and ConDur, respectively. However, there were no significant decreases in JH. High-intensity practice exposures did not impact neuromuscular performance specific to "output," suggesting that collegiate basketball athletes can maintain JH despite alterations in "underpinning" and "strategy-related" variables. This could have relevance in understanding how fatigue associated with higher-intensity training exposures may potentially alter jump strategy and force production capacities due to external load intensity in collegiate basketball athletes.

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来源期刊
CiteScore
6.70
自引率
9.40%
发文量
384
审稿时长
3 months
期刊介绍: The editorial mission of The Journal of Strength and Conditioning Research (JSCR) is to advance the knowledge about strength and conditioning through research. A unique aspect of this journal is that it includes recommendations for the practical use of research findings. While the journal name identifies strength and conditioning as separate entities, strength is considered a part of conditioning. This journal wishes to promote the publication of peer-reviewed manuscripts which add to our understanding of conditioning and sport through applied exercise science.
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