Three-dimensional kinematics of the equine interphalangeal joints: articular impact of asymmetric bearing


Title: Three-dimensional kinematics of the equine interphalangeal joints: articular impact of asymmetric bearing

Author: Henry CHATEAUa*, Christophe DEGUEURCEa, Hassen JERBIa, Nathalie CREVIER-DENOIXa, Philippe POURCELOTa, Fabrice AUDIGIÉa, Viviane PASQUI-BOUTARDb, Jean-Marie DENOIXa

Key Words: horse / biomechanics / joint coordinate system / interphalangeal joint / imbalance

Abstract: The objective of this study was to assess the effects of asymmetric placement of the foot on the three-dimensional motions of the interphalangeal joints. Four isolated forelimbs were used. Trihedrons, made of three axes fitted with reflective markers, were screwed into each phalanx. They allowed to establish a local frame associated with each bone and thus to define the spatial orientation of the phalanges. The limbs were then placed under a power press, and subjected to compression with gradually increasing force (from 500 to 6 000 N). The procedure was performed in neutral position and with the lateral or medial part of the foot raised by a 12o wedge. Flexion, collateromotion (passive abduction/adduction) and axial rotation of the nterphalangeal joints were measured using a cardan angle decomposition according to the principle of the “Joint Coordinate System” described by Grood and Suntay. Raising the lateral or medial part of the hoof induced collateromotion (about 5.6o ± 0.8) and axial rotation (about 6.5o ± 0.5) of the distal interphalangeal joint. The proximal interphalangeal joint underwent axial rotation (about 4.7o ± 0.5 at 6 000 N) and slight collateromotion. Both interphalangeal joints underwent collateromotion in the direction of the raised part of the foot (i.e., narrowing of the articular space on the side of the wedge), whereas axial rotation occurred in the direction opposite to the raised part of the foot. These results confirm the functional importance of interphalangeal joint movements outside the sagittal plane. In particular they demonstrate the involvement of the proximal interphalangeal joint in the digital balance. These data are helpful for the identification of biomechanical factors that may predispose to interphalangeal joint injury. Also the data may be of use for the rational decision making with respect to exercise management and corrective shoeing of the lame horse.

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