Screw fixation of the syndesmosis alters joint contact characteristics in an axially loaded cadaveric model
- PMID: 30321946
- DOI: 10.1016/j.fas.2018.05.003
Screw fixation of the syndesmosis alters joint contact characteristics in an axially loaded cadaveric model
Abstract
Background: The purpose of this study was to quantify the effects of rigid syndesmotic fixation on functional talar position and cartilage contact mechanics.
Methods: Twelve below-knee cadaveric specimens with an intact distal syndesmosis were mechanically loaded in four flexion positions (20° plantar flexion, 10° plantar flexion, neutral, 10° dorsiflexion) with zero, one, or two 3.5-mm syndesmotic screws. Rigid clusters of reflective markers were used to track bony movement and ankle-specific pressure sensors were used to measure talar dome and medial/lateral gutter contact mechanics.
Results: Screw fixation caused negligible anterior and inferior shifts of the talus within the mortise. Relative to no fixation, mean peak contact pressure decreased by 6%-32% on the talar dome and increased 2.4- to 6.6-fold in the medial and lateral gutters, respectively, depending on ankle position and number of screws.
Conclusions: Two-way ANOVA indicated syndesmotic screw fixation significantly increased contact pressure in the medial/lateral gutters and decreased talar dome contact pressure while minimally altering talar position.
Keywords: Ankle syndesmosis; Biomechanics; Contact pressure; Gutter; Motion capture; Syndesmotic screw; Tekscan(®).
Copyright © 2018 European Foot and Ankle Society. Published by Elsevier Ltd. All rights reserved.
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