Thomas Jacob M, Kollock Roger O
Oxley College of Health Science, University of Tulsa, Tulsa, OK, USA.
Int J Exerc Sci. 2022 Oct 1;15(1):1306-1316. doi: 10.70252/TSEW4342. eCollection 2022.
3-D inertial measurement units (IMUs) have advantages over other types of motion capture systems, as IMUs cannot be obstructed by equipment and gear. Therefore, the purpose of this study was to assess the reliability of IMUs in measuring joint angles at the hip, knee, and ankle during two types of single-leg landings: 1) drop-landing (DL) and 2) leap-landing (LL). Nineteen subjects, both males ( = 9, 21.88 ± 1.64 yrs, 178.36 ± 9.68 cm, 185.68 ± 16.63 kg) and females ( = 11, 22.45 ± 4.32 yrs, 171.57 ± 6.55 cm, 70.95 ± 14.99 kg) participated in this study. Participants performed three trials of both tasks. The DL required the participant to drop onto their dominant leg from a 30 cm box onto force plate. The LL task required participants to leap over a 20 cm hurdle onto the force plate. ICC values and SEM calculations were used to assess the IMU's reliability. Overall, IMUs displayed fair-to-excellent reliability for both tasks (ICC = 0.442-0.962), aside from ankle inversion (ICC = 0.290) & ankle abduction (ICC = 0.216) at initial ground contact and ankle abduction (ICC = 0.234) at maximum vertical ground reaction force, both during the LL task. IMUs can be a reliable measurement tool for lower extremity motion during dynamic landing, so long as factors related to reliability at the ankle are considered.
三维惯性测量单元(IMUs)比其他类型的运动捕捉系统具有优势,因为IMUs不会被设备和装备遮挡。因此,本研究的目的是评估IMUs在两种单腿着陆类型过程中测量髋、膝和踝关节角度的可靠性:1)下落着陆(DL)和2)跳跃着陆(LL)。19名受试者参与了本研究,其中男性9名(年龄21.88±1.64岁,身高178.36±9.68厘米,体重185.68±16.63千克),女性11名(年龄22.45±4.32岁,身高171.57±6.55厘米,体重70.95±14.99千克)。参与者对两项任务均进行了三次试验。DL要求参与者从30厘米高的箱子上落到其优势腿上的测力板上。LL任务要求参与者越过20厘米高的跨栏落到测力板上。使用组内相关系数(ICC)值和标准误(SEM)计算来评估IMU的可靠性。总体而言,除了在LL任务期间,初始地面接触时踝关节内翻(ICC = 0.290)和踝关节外展(ICC = 0.216)以及最大垂直地面反作用力时踝关节外展(ICC = 0.23)外,IMUs在两项任务中均表现出从一般到优秀的可靠性(ICC = 0.442 - 0.962)。只要考虑到与踝关节可靠性相关的因素,IMUs可以成为动态着陆期间下肢运动的可靠测量工具。