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  • 1.
    Daugaard, Marika
    et al.
    Jönköping University, School of Health Science. Jönköping University, School of Health Science, HHJ, Dep. of Rehabilitation.
    Brandborg Nielsen, Dennis
    Jönköping University, School of Health Science. Jönköping University, School of Health Science, HHJ, Dep. of Rehabilitation.
    Comparison of angular measurements by 2D and 3D gait analysisStudent thesis
    Abstract [en]

    Abstract

    Objective: To validate the use of a 2-dimensional video based system (Hu-m-an digitizing

    software, HMA Technology Inc. Ontario, Canada), for measuring sagital plane knee and ankle

    angles during gait analysis.

    Design: Criterion-based, concurrent validation.

    Participants: 18 persons without any gait disorders.

    Method: The participants were subjected to simultaneous capture of their motion data with a digital

    video camera filming in the sagital plane only, and a 3-dimensional optoelectronic motion capture

    system (Qualisys Medical AB, Gothenburg, Sweden). The data was analyzed both using Hu-m-an

    digitizing software (HMA Technology Inc. Ontario, Canada) and Visual 3D (C-motion Inc.,

    Kingston, Canada) respectively.

    Outcome: Relative angles for the knee and ankle.

    Results: Significant difference was found between the systems for measuring ankle angles

    (p<0,05). No significant difference was found for measuring knee angles at stance, but significant

    differences was present during swing and at IC (p<0,05).

    Even though significant differences were found, the correlation, between the two systems, was high

    for the knee, and moderate to high for the ankle.

    Conclusion: Hu-m-an digitizing software (HMA Technology Inc. Ontario, Canada) has been

    demonstrated to be a promising tool for measuring 2-dimensional sagital plane knee and ankle

    angles, but cannot be validated from this study alone.

    Keywords: Gait measurement, validation, 2-dimensional analysis, 3-dimensional analysis,

    digitizing, kinematics, joint angles.

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