The biomechanical effects of allograft wedges used for large corrections during medial opening wedge high tibial osteotomy
The biomechanical effects of allograft wedges used for large corrections during medial opening wedge high tibial osteotomy
The inclusion of an allograft wedge during medial opening wedge high tibial osteotomy has been shown to lead to satisfactory time-to-union in larger corrections (>10°). Such large corrections are associated with greater incidences of intraoperative hinge fracture and reduced construct stability. The purpose of this study was to investigate the biomechanical stability that an allograft wedge brings to an osteotomy. Ten medium-size fourth generation artificial sawbone tibiae underwent 12 mm biplanar medial opening wedge high tibial osteotomy with a standard Tomofix plate. Five tibiae had an allograft wedge inserted into the osteotomy gap prior to plate fixation (allograft group). The gap in the remaining tibiae was left unfilled (control group). Each group underwent static compression testing and cyclical fatigue testing until failure of the osteotomy. Peak force, valgus malrotation, number of cycles, displacement and stiffness around the tibial head were analysed. Intraoperative hinge fractures occurred in all specimens. Under static compression, the allograft group withstood higher peak forces (6.01 kN) compared with the control group (5.12 kN). Valgus malrotation was lower, and stiffness was higher, in the allograft group. During cyclical fatigue testing, results within the allograft group were more consistent than within the control group. This may indicate more predictable results in large osteotomies with an allograft. Tibial osteotomies with allograft wedges appear beneficial for larger corrections, and in cases of intraoperative hinge fracture, due to the added construct stability they provide, and the consistency of results compared with tibial osteotomies without a graft.
Biomechanical Phenomena, Compressive Strength, Materials Testing, Mechanical Phenomena, Osteotomy/instrumentation, Stress, Mechanical, Tibia/surgery
e0216660
Belsey, James
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Diffo Kaze, Arnaud
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Jobson, Simon
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Faulkner, James
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Maas, Stefan
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Khakha, Raghbir
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Pape, Dietrich
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Wilson, Adrian J
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10 May 2019
Belsey, James
e80f02d4-839c-4aef-ad92-f6ab1f861e76
Diffo Kaze, Arnaud
e191584c-01cf-4ec7-a8fa-fceb75d8f61d
Jobson, Simon
708be525-2bdb-43a0-a6ee-1dd666347611
Faulkner, James
b2bd38c9-667c-42e8-ad1e-6df58d1e3f7a
Maas, Stefan
b93659ef-329c-4a96-99ad-48a174f6bd03
Khakha, Raghbir
0b97b45c-55d8-4aad-992f-2374fc99813e
Pape, Dietrich
32c445e6-7a13-4ecb-834a-d0670517330a
Wilson, Adrian J
5fc40659-9413-40f0-965f-aba2b4f9844d
Belsey, James, Diffo Kaze, Arnaud, Jobson, Simon, Faulkner, James, Maas, Stefan, Khakha, Raghbir, Pape, Dietrich and Wilson, Adrian J
(2019)
The biomechanical effects of allograft wedges used for large corrections during medial opening wedge high tibial osteotomy.
PLoS ONE, 14 (5), .
(doi:10.1371/journal.pone.0216660).
Abstract
The inclusion of an allograft wedge during medial opening wedge high tibial osteotomy has been shown to lead to satisfactory time-to-union in larger corrections (>10°). Such large corrections are associated with greater incidences of intraoperative hinge fracture and reduced construct stability. The purpose of this study was to investigate the biomechanical stability that an allograft wedge brings to an osteotomy. Ten medium-size fourth generation artificial sawbone tibiae underwent 12 mm biplanar medial opening wedge high tibial osteotomy with a standard Tomofix plate. Five tibiae had an allograft wedge inserted into the osteotomy gap prior to plate fixation (allograft group). The gap in the remaining tibiae was left unfilled (control group). Each group underwent static compression testing and cyclical fatigue testing until failure of the osteotomy. Peak force, valgus malrotation, number of cycles, displacement and stiffness around the tibial head were analysed. Intraoperative hinge fractures occurred in all specimens. Under static compression, the allograft group withstood higher peak forces (6.01 kN) compared with the control group (5.12 kN). Valgus malrotation was lower, and stiffness was higher, in the allograft group. During cyclical fatigue testing, results within the allograft group were more consistent than within the control group. This may indicate more predictable results in large osteotomies with an allograft. Tibial osteotomies with allograft wedges appear beneficial for larger corrections, and in cases of intraoperative hinge fracture, due to the added construct stability they provide, and the consistency of results compared with tibial osteotomies without a graft.
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Published date: 10 May 2019
Keywords:
Biomechanical Phenomena, Compressive Strength, Materials Testing, Mechanical Phenomena, Osteotomy/instrumentation, Stress, Mechanical, Tibia/surgery
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Local EPrints ID: 497921
URI: http://eprints.soton.ac.uk/id/eprint/497921
ISSN: 1932-6203
PURE UUID: a77a32ab-b473-40e2-b9fb-3aad043cfbb1
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Date deposited: 04 Feb 2025 17:52
Last modified: 05 Feb 2025 03:21
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Author:
James Belsey
Author:
Arnaud Diffo Kaze
Author:
Simon Jobson
Author:
James Faulkner
Author:
Stefan Maas
Author:
Raghbir Khakha
Author:
Dietrich Pape
Author:
Adrian J Wilson
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