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Original Article

The effect of prosthetic torsional stiffness on the golf swing kinematics of a left and a right‐sided trans‐tibial amputee

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Pages 121-131 | Published online: 12 Jul 2009
 

Abstract

The golf swing is a biomechanically complex movement requiring three‐dimensional movements at the ankle joint complex (AJC), the hips and shoulders. Trans‐tibial amputees lose the natural AJC movements as many prostheses do not allow three dimensional foot movements. Torsion devices have been developed and incorporated into prostheses to facilitate internal and external transverse plane rotations. These devices can help amputees to compensate for the loss of movement and to reduce shearing stresses at the stump‐socket interface. The primary aim of the present study was to investigate the effects of three torsion devices on body rotations during the golf swing. Two trans‐tibial amputees (one right‐sided and one left‐sided) were analysed using three‐dimensional video analysis at address (ADR), the top of the backswing (TBS) and at the end of the follow‐through (EFT). The participants played shots with a 3‐wood under three different prosthetic conditions (two with a torsion device set to different stiffness values, and one with no torsion device). The results showed that the torsion device served to improve the hip and shoulder rotations of the left‐side amputee without increasing perceived stress at the stump. The torsion device had minimal effect on the hip and shoulder rotations of the right‐side amputee, although perceived stress was reduced. The difference in results between the right‐sided and left‐sided amputees was due to the different requirements of each foot during the golf swing. The main problem faced by the right‐side amputee was a loss of the sagittal plane movement of ankle joint plantarflexion at EFT, rather than the transverse plane movement.

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