Biomechanical analysis of cadaveric wrists before and after MOTEC wrist arthroplasty using a hexapod robot

Gregory I. Bain, Simon F. Bellringer, Michael P. Russo, Dhara Amin, John J. Costi

Research output: Contribution to journalArticlepeer-review

Abstract

This study compares wrist motion, biomechanical behaviour and radiographic parameters before and after total wrist arthroplasty using a fourth-generation spherical articulation prosthesis. A total of 10 cadaveric specimens were assessed using a hexapod Stewart platform robot. After arthroplasty, there were significant increases in both stiffness and phase angle of wrist motion across all planes of motion assessed. In three specimens, a sudden increase in moment was observed on load/displacement curves. Radiographically, carpal height increased by 14%, and the centre of rotation was displaced 11.1 mm proximally, 4.6 mm dorsally and 3.9 mm radially. This stretched the musculotendinous units, tightening the joint, while increasing the moment arm of the wrist flexors and decreasing the moment arm of the extensors, potentially important in the development of postoperative flexion contractures. Possible alterations in technique and/or implant design are considered to assist surgeons in achieving optimal clinical and survivorship outcomes.

Original languageEnglish
Number of pages8
JournalJournal of Hand Surgery: European Volume
DOIs
Publication statusE-pub ahead of print - 16 Sept 2024

Keywords

  • arthroplasty
  • biomechanics
  • hexapod
  • Stewart platform
  • Wrist

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