Validation of spatiotemporal and kinematic measures in functional exercises using a minimal modeling inertial sensor methodology

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Abstract

This study proposes a minimal modeling magnetic, angular rate and gravity (MARG) methodology for assessing spatiotemporal and kinematic measures of functional fitness exercises. Thirteen healthy persons performed repetitions of the squat, box squat, sandbag pickup, shuffle-walk, and bear crawl. Sagittal plane hip, knee, and ankle range of motion (ROM) and stride length, stride time, and stance time measures were compared for the MARG method and an optical motion capture (OMC) system. The root mean square error (RMSE), mean absolute percentage error (MAPE), and Bland–Altman plots and limits of agreement were used to assess agreement between methods. Hip and knee ROM showed good to excellent agreement with the OMC system during the squat, box squat, and sandbag pickup (RMSE: 4.4–9.8◦), while ankle ROM agreement ranged from good to unacceptable (RMSE: 2.7–7.2◦). Unacceptable hip and knee ROM agreement was observed for the shuffle-walk and bear crawl (RMSE: 3.3–8.6◦). The stride length, stride time, and stance time showed good to excellent agreement between methods (MAPE: (3.2 ± 2.8)%–(8.2 ± 7.9)%). Although the proposed MARG-based method is a valid means of assessing spatiotemporal and kinematic measures during various exercises, further development is required to assess the joint kinematics of small ROM, high velocity movements.

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Hindle, B. R., Keogh, J. W. L., & Lorimer, A. V. (2020). Validation of spatiotemporal and kinematic measures in functional exercises using a minimal modeling inertial sensor methodology. Sensors (Switzerland), 20(16), 1–21. https://doi.org/10.3390/s20164586

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