Evaluation of the Vmaxpro sensor for assessing movement velocity and load-velocity variables: accuracy and implications for practical use.

IF 4.2 2区医学 Q1 SPORT SCIENCES

Biology of Sport Pub Date : 2024-01-01 Epub Date: 2023-05-25 DOI:10.5114/biolsport.2024.125596

Boris Dragutinovic, Mats W Jacobs, Joshua F Feuerbacher, Jan-Peter Goldmann, Sulin Cheng, Moritz Schumann

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引用次数: 0

Abstract

We investigated the ecological validity of an inertial measurement unit (IMU) (Vmaxpro) to assess the movement velocity (MV) during a 1-repetition maximum (1RM) test and for the prediction of load-velocity (L-V) variables, as well as the ecological intra- day and inter-day reliability during free-weight bench press (BP) and squat (SQ). Furthermore, we provide recommendations for the practical use of the sensor. Twenty-three strength-trained men completed an incremental 1RM test, whereas seventeen men further participated in another 3 sessions consisting of 3 repetitions with 4 different loads (30, 50, 70 and 90% of 1RM) to assess validity and intra- and inter-day reliability, respectively. The MV was assessed using the Vmaxpro and a 3D motion capture system (MoCap). L-V variables and the 1RM were calculated based on submaximal velocities. The Vmaxpro showed high validity during the 1RM test for BP (r = 0.935) and SQ (r = 0.900), but with decreasing validity at lower MVs. The L-V variables and the 1RM demonstrated high validity for BP (r = 0.808-0.942) and SQ (r = 0.615-0.741) with a systematic overestimation. Coefficients of variance for intra- and inter-day reliability ranged from 2.4% to 9.7% and from 3.2% to 8.6% for BP and SQ, respectively. The Vmaxpro appears valid at high and moderately valid at low MVs. Depending on the required degree of accuracy, the sensor may be sufficient for the prediction of L-V variables and the 1RM. Our data indicate the sensor to be suitable for monitoring changes in MVs within and between training sessions.

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用于评估运动速度和负荷-速度变量的 Vmaxpro 传感器评估：准确性和对实际应用的影响。

我们研究了惯性测量单元（IMU）（Vmaxpro）在评估单次重复最大负重（1RM）测试中的运动速度（MV）和预测负重-速度（L-V）变量时的生态有效性，以及在自由重量卧推和深蹲时的日内和日间生态可靠性。此外，我们还为传感器的实际使用提供了建议。23 名接受过力量训练的男性完成了 1RM 增量测试，另有 17 名男性参加了另外 3 次训练，包括 4 种不同负荷（1RM 的 30%、50%、70% 和 90%）的 3 次重复，以分别评估有效性以及日内和日间可靠性。MV 使用 Vmaxpro 和三维运动捕捉系统 (MoCap) 进行评估。L-V 变量和 1RM 是根据亚最大速度计算得出的。在 1RM 测试期间，Vmaxpro 对 BP（r = 0.935）和 SQ（r = 0.900）显示出较高的有效性，但在 MV 较低时有效性下降。L-V 变量和 1RM 对 BP（r = 0.808-0.942）和 SQ（r = 0.615-0.741）的有效性较高，但有系统性的高估。BP和SQ的日内和日间可靠性方差系数分别为2.4%至9.7%和3.2%至8.6%。Vmaxpro 在高 MV 值时有效，在低 MV 值时中度有效。根据所需的准确度，该传感器可能足以预测 L-V 变量和 1RM 值。我们的数据表明，该传感器适用于监测训练课内和训练课之间的最大肌力变化。

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

Biology of Sport 生物-运动科学

CiteScore

8.20

自引率

12.50%

发文量

113

审稿时长

>12 weeks

期刊介绍： Biology of Sport is the official journal of the Institute of Sport in Warsaw, Poland, published since 1984. Biology of Sport is an international scientific peer-reviewed journal, published quarterly in both paper and electronic format. The journal publishes articles concerning basic and applied sciences in sport: sports and exercise physiology, sports immunology and medicine, sports genetics, training and testing, pharmacology, as well as in other biological aspects related to sport. Priority is given to inter-disciplinary papers.