This study aims to realize a kinematic simulation of handcycling propulsion in order to investigate some ergonomic aspects specific to this mode of propulsion. We hypothesize that adjustments concerning crank position could minimize the joint range of upper extremity motions and/or avoid reaching the joint limit, which are considered as risk factors for repetitive strain injuries (RSI). One paraplegic and one able-bodied participants performed a handcycling test at a 70 rpm crank rate. A 3D analysis of upper extremity motion was made using a Vicon system (Vicon 370). From the data obtained, an inverse kinematic model at seven degrees of freedom was realized. Inputs to the model include the length of the user's arm segments, the position of the user's shoulder and the size of crank used. Joint kinematics are outputs from the model. The movement was simulated by moving the crank axis, or modifying the distance between the two cranks (+- 10 cm). From our results, the initial position (synchronous mode and a backrest angle close to 90 ), like the 'downward' and the 'backward' positions, seems to generate a lower joint range of motion than other position adjustments. We were able to formulate a hypothesis as to an optimal crank adjustment to reduce risk factors for RSI. This study must be considered as a first step and needs further investigations with a larger population by seeking movement invariant in order to generalize our results.


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    Title :

    The effects of crank adjustments on handbike propulsion: A kinematic model approach


    Additional title:

    Die Auswirkungen der Kurbelanpassungen auf den Handbikeantrieb: Eine kinematische Modelllösung


    Contributors:

    Published in:

    Publication date :

    2008


    Size :

    7 Seiten




    Type of media :

    Article (Journal)


    Type of material :

    Print


    Language :

    English




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