On the influence of the shoulder kinematic chain on joint kinematics and musculotendon lengths during wheelchair propulsion estimated from multibody kinematics optimization
Article dans une revue avec comité de lecture
Date
2019Journal
Journal of Biomechanical EngineeringRésumé
Multibody kinematic optimization is frequently used to assess shoulder kinematics during manual wheelchair (MWC) propulsion but multiple kinematics chains are available. It is hypothesized that these different kinematic chains affect marker tracking, shoulder kinematics and resulting musculotendon (MT) lengths. In this study, shoulder kinematics and MT lengths obtained from four shoulder kinematic chains (open-loop thorax-clavicle-scapula-humerus (M1), closed-loop with contact ellipsoid (M2), scapula rhythm from regression equations (M3), and a single ball-and- socket joint between the thorax and the humerus (M4) were compared. Right-side shoulder kinematics from seven subjects were obtained with 34 reflective markers and a scapula locator using an optoelectronic motion capture system while propelling on a MWC simulator. Data was processed based on the four models. Results showed the impact of shoulder kinematic chains on all studied variables. Marker reconstruction errors were found similar between M1 and M2 and lower than for M3 and M4. Few degrees of freedom (DoF) were noticeably different between M1 and M2, but all shoulder DoFs were significantly affected between M1 and M4. As a consequence of differences in joint kinematics, MT lengths were affected by the kinematic chain definition. The contact ellipsoid (M2) was found as a good trade-off between marker tracking and penetration avoidance of the scapula. The regression-based model (M3) was less efficient due to limited humerus elevation during MWC propulsion, as well as the ball-and-socket model (M4) which appeared not suitable for upper limbs activities, including MWC propulsion.
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Article dans une revue avec comité de lectureHYBOIS, Samuel; PUCHAUD, Pierre; BOURGAIN, Maxime; LOMBART, Antoine; BASCOU, Joseph; LAVASTE, François; FODÉ, Pascale; SAURET, Christophe; PILLET, Helene (Elsevier, 2019)Several kinematic chains of the upper limbs have been designed in musculoskeletal models to investi- gate various upper extremity activities, including manual wheelchair propulsion. The aim of our study was to compare the ...
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Communication avec acteHYBOIS, Samuel; LOMBART, Antoine; PUCHAUD, Pierre; BASCOU, Joseph; LAVASTE, François; SAURET, Constantin; PILLET, Helene (Informa UK Limited, 2017)The aim of this work was to evaluate the influence of the ellipsoid parameters (centre location and radii) on kinematics reconstructed using multibody kinematics optimisation during MWC propulsion.
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Article dans une revue avec comité de lectureHYBOIS, Samuel; SIEGEL, Alice; BASCOU, Joseph; EYDIEUX, Nicolas; VASLIN, Philippe; FODÉ, Pascale; SAURET, Christophe; PILLET, Helene (Informa Healthcare/Taylor and Francis, 2017)Purpose: Wheelchair locomotion is constraining for the upper limbs and involves a set of motor tasks that need to be learnt by a novice user. To understand this integration process, we investigated the evolution of shoulder ...
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Article dans une revue avec comité de lectureEYDIEUX, Nicolas; HYBOIS, Samuel; SIEGEL, Alice; BASCOU, Joseph; VASELIN, Philippe; FODÉ, Pascale; SAURET, Christophe; PILLET, Helene (Informa Healthcare/Taylor and Francis, 2020)Purpose: During manual wheelchair (MWC) skill acquisition, users adapt their propulsion technique through changes in biomechanical parameters. This evolution is assumed to be driven towards a more efficient behavior. ...