School of Sport, Exercise and Rehabilitation, Faculty of Health, University of Technology Sydney (UTS), Sydney, NSW, Australia ; and.
Oklahoma City Thunder Professional Basketball Club, Human and Player Performance, Oklahoma City, Oklahoma.
J Strength Cond Res. 2023 Feb 1;37(2):394-402. doi: 10.1519/JSC.0000000000004182. Epub 2021 Dec 2.
Mercer, RAJ, Russell, JL, McGuigan, LC, Coutts, AJ, Strack, DS, and McLean, BD. Finding the signal in the noise-interday reliability and seasonal sensitivity of 84 countermovement jump variables in professional basketball players. J Strength Cond Res 37(2): 394-402, 2023-This study examined the measurement characteristics of countermovement jump (CMJ) variables in basketball athletes using different variable selection criteria. Test-retest reliability (noise) and seasonal variability (signal) CMJ data were collected from 13 professional basketball athletes playing for the same club throughout 1 competitive season. Interday reliability (coefficient of variation [CV] and intraclass correlation coefficients) were calculated over 3 preseason tests conducted on 3 consecutive days. To evaluate sensitivity, signal-to-noise ratio (SNR) was calculated by dividing seasonal variability (CV) from 8 in-season CMJ tests (collected from November to February) by preseason reliability (CV). Players performed 3 CMJs each testing day, and 3 data analysis techniques were applied: a single variable from the trial with either the best jump height (BestJH; calculated by flight time) or the best flight time to contraction time (BestFT:CT) and mean output across 3 jumps (Mean3). Mean3 was the most reliable data analysis technique, with 79 and 82 of 84 variables displaying lower interday CVs compared with BestJH and BestFT:CT, respectively. Overall, many CMJ measures display seasonal changes that are greater than the inherent noise, with 77 variables producing SNR of >1.00 for Mean3 compared with 65 and 58 variables for BestJH and BestFT:CT, respectively. To improve reliability and sensitivity, it is recommended that practitioners use the average of multiple CMJ trials and regularly reassess measurement characteristics specific to their cohort and environment.
梅瑟,RAJ,拉塞尔,JL,麦圭根,LC,考茨,AJ,斯特拉克,DS,和麦克莱恩,BD。在职业篮球运动员中,84 次反跳变量的日内可靠性和季节性敏感性的噪声-寻找信号。J 强 度 研 究 37(2):394-402,2023-本研究使用不同的变量选择标准,研究了篮球运动员反跳(CMJ)变量的测量特征。在整个 1 个赛季中,从 13 名效力于同一家俱乐部的职业篮球运动员中收集了 CMJ 的测试-再测试可靠性(噪声)和季节性可变性(信号)数据。日内可靠性(变异系数[CV]和组内相关系数)是在连续 3 天进行的 3 次 preseason 测试中计算的。为了评估敏感性,通过将 8 次赛季中 CMJ 测试(从 11 月到 2 月收集)的季节性变异性(CV)除以 preseason 可靠性(CV),计算出信噪比(SNR)。运动员在每个测试日进行 3 次 CMJ,应用了 3 种数据分析技术:最佳跳跃高度(BestJH;通过飞行时间计算)或最佳飞行时间与收缩时间(BestFT:CT)的单次试验中的单个变量,以及 3 次跳跃的平均值(Mean3)。Mean3 是最可靠的数据分析技术,84 个变量中的 79 个和 82 个变量的日内 CV 低于 BestJH 和 BestFT:CT,分别。总体而言,许多 CMJ 测量指标显示出季节性变化,其变化大于固有噪声,Mean3 产生了>1.00 的 SNR,而 BestJH 和 BestFT:CT 分别产生了 77 个和 65 个变量。为了提高可靠性和敏感性,建议从业者使用多次 CMJ 试验的平均值,并定期重新评估特定于其队列和环境的测量特征。
