Validity and Reliability of the Kinvent Handheld Dynamometer in the Athletic Shoulder Test.

IF 1.3 4区医学 Q3 REHABILITATION Journal of Sport Rehabilitation Pub Date : 2023-09-01 DOI:10.1123/jsr.2022-0444

Margie Olds, Sally McLaine, Nico Magni

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引用次数: 3

Abstract

Context: Long-lever shoulder strength tests may aid clinical decision-making regarding return to sport after a shoulder injury. The Athletic Shoulder Test (AST) was developed to measure force production in 3 positions of shoulder abduction (90°, 135°, and 180°) using force plates. However, handheld dynamometers (HHDs) are more portable, affordable, and may provide valid and reliable results which would increase the clinical utility of long-lever tests. HHDs vary in shape, design, and their capacity to report parameters such as rate of force production and require further investigation. The aim of this study was to examine the intrarater reliability of the Kinvent HHD and assess its validity against Kinvent force plates in the AST. Peak force (in kilograms), torque (in Newton meters), and normalized torque (in Newton meters per kilogram) were reported.

Design: Validity and reliability study.

Methods: Twenty-seven participants with no history of upper limb injury performed the test in a randomized order using the Kinvent HHD and force plates. Each condition was assessed 3 times, and peak force was recorded. Arm length was measured to calculate peak torque. Normalized peak torque was calculated by dividing torque by bodyweight (in kilograms).

Results: The Kinvent HHD is reliable when measuring force (intraclass correlation coefficient [ICC] ≥ .80), torque (ICC ≥ .84), and normalized torque (ICC ≥ .64) during the AST. The Kinvent HHD is also valid when compared with the Kinvent force plates for force (ICC ≥ .79; r ≥ .82), torque (ICC ≥ .82; r ≥ .76), and normalized torque (ICC ≥ .71; r ≥ .61). There were no statistically significant differences across the 3 trials on analyses of variance (P > .05).

Conclusions: The Kinvent HHD is a reliable tool when used to measure force, torque, and normalized torque in the AST. Furthermore, given the lack of significant difference between trials, clinicians can use one test to accurately report relative peak force/torque/normalized torque rather than average 3 separate trials. Finally, the Kinvent HHD is valid when compared with Kinvent force plates.

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Kinvent手持式测力仪在运动员肩部测试中的效度与信度。

背景:长杆肩强度测试可以帮助临床决策关于肩伤后恢复运动。运动肩关节测试(AST)是用来测量肩关节外展3个位置(90°、135°和180°)的力产生。然而，手持式测功机(hdd)更加便携，价格实惠，并且可以提供有效和可靠的结果，这将增加长杠杆测试的临床应用。hdd的形状、设计和报告诸如产力速率等参数的能力各不相同，需要进一步研究。本研究的目的是检验Kinvent HHD的内部可靠性，并评估其对AST中Kinvent力板的有效性。报告了峰值力(公斤)、扭矩(牛顿米)和归一化扭矩(牛顿米/公斤)。设计:效度和信度研究。方法:27名无上肢损伤史的参与者按随机顺序使用Kinvent HHD和力板进行测试。每种情况评估3次，记录峰值力。测量臂长以计算峰值扭矩。归一化峰值扭矩是通过扭矩除以体重(千克)来计算的。结果:Kinvent HHD测量AST过程中的力(类内相关系数[ICC]≥0.80)、扭矩(ICC≥0.84)和归一化扭矩(ICC≥0.64)是可靠的，Kinvent HHD与Kinvent力板比较力(ICC≥0.79;r≥0.82)，扭矩(ICC≥0.82;r≥0.76)，归一化扭矩(ICC≥0.71;R≥0.61)。3个试验的方差分析差异无统计学意义(P > 0.05)。结论:Kinvent HHD是一种可靠的工具，用于测量AST的力、扭矩和归一化扭矩。此外，鉴于试验之间缺乏显著差异，临床医生可以使用一个测试来准确报告相对峰值力/扭矩/归一化扭矩，而不是平均3个单独的试验。最后，将Kinvent力板与Kinvent力板进行比较，证明了Kinvent力板的有效性。

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来源期刊

Journal of Sport Rehabilitation 医学-康复医学

CiteScore

3.20

自引率

5.90%

发文量

143

审稿时长

>12 weeks

期刊介绍： The Journal of Sport Rehabilitation (JSR) is your source for the latest peer-reviewed research in the field of sport rehabilitation. All members of the sports-medicine team will benefit from the wealth of important information in each issue. JSR is completely devoted to the rehabilitation of sport and exercise injuries, regardless of the age, gender, sport ability, level of fitness, or health status of the participant. JSR publishes peer-reviewed original research, systematic reviews/meta-analyses, critically appraised topics (CATs), case studies/series, and technical reports that directly affect the management and rehabilitation of injuries incurred during sport-related activities, irrespective of the individual’s age, gender, sport ability, level of fitness, or health status. The journal is intended to provide an international, multidisciplinary forum to serve the needs of all members of the sports medicine team, including athletic trainers/therapists, sport physical therapists/physiotherapists, sports medicine physicians, and other health care and medical professionals.