Graft materials provide greater static strength to medial opening wedge high tibial osteotomy than when no graft is included
Graft materials provide greater static strength to medial opening wedge high tibial osteotomy than when no graft is included
BACKGROUND: The purpose of this study was to compare the stability of medial opening-wedge high tibial osteotomy (MOWHTO) with and without different graft materials. Good clinical and radiological outcomes have been demonstrated when either using or not using graft materials during MOWHTO. Variations in the biomechanical properties of different graft types, regarding the stability they provide a MOWHTO, have not been previously investigated.
METHODS: A 10 mm biplanar MOWHTO was performed on 15 artificial sawbone tibiae, which were fixed using the Activmotion 2 plate. Five bones had OSferion60 wedges (synthetic group), five had allograft bone wedges (allograft group), and five had no wedges (control group) inserted into the osteotomy gap. Static compression was applied axially to each specimen until failure of the osteotomy. Ultimate load, horizontal and vertical displacements were measured and used to calculate construct stiffness and valgus malrotation of the tibial head.
RESULTS: The synthetic group failed at 6.3 kN, followed by the allograft group (6 kN), and the control group (4.5 kN). The most valgus malrotation of the tibial head was observed in the allograft group (2.6°). The synthetic group showed the highest stiffness at the medial side of the tibial head (9.54 kN·mm- 1), but the lowest stiffness at the lateral side (1.59 kN·mm-1). The allograft group showed high stiffness on the medial side of the tibial head (7.54 kN·mm- 1) as well as the highest stiffness on the lateral side (2.18 kN·mm- 1).
CONCLUSIONS: The use of graft materials in MOWHTO results in superior material properties compared to the use of no graft. The static strength of MOWHTO is highest when synthetic grafts are inserted into the osteotomy gap. Allograft wedges provide higher mechanical strength to a MOWHTO than when no graft used. In comparison to the synthetic grafts, allograft wedges result in the stiffness of the osteotomy being more similar at the medial and lateral cortices.
13
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
Wilson, Adrian J
5fc40659-9413-40f0-965f-aba2b4f9844d
Pape, Dietrich
32c445e6-7a13-4ecb-834a-d0670517330a
28 March 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
Wilson, Adrian J
5fc40659-9413-40f0-965f-aba2b4f9844d
Pape, Dietrich
32c445e6-7a13-4ecb-834a-d0670517330a
Belsey, James, Diffo Kaze, Arnaud, Jobson, Simon, Faulkner, James, Maas, Stefan, Khakha, Raghbir, Wilson, Adrian J and Pape, Dietrich
(2019)
Graft materials provide greater static strength to medial opening wedge high tibial osteotomy than when no graft is included.
Journal of experimental orthopaedics, 6 (1), .
(doi:10.1186/s40634-019-0184-6).
Abstract
BACKGROUND: The purpose of this study was to compare the stability of medial opening-wedge high tibial osteotomy (MOWHTO) with and without different graft materials. Good clinical and radiological outcomes have been demonstrated when either using or not using graft materials during MOWHTO. Variations in the biomechanical properties of different graft types, regarding the stability they provide a MOWHTO, have not been previously investigated.
METHODS: A 10 mm biplanar MOWHTO was performed on 15 artificial sawbone tibiae, which were fixed using the Activmotion 2 plate. Five bones had OSferion60 wedges (synthetic group), five had allograft bone wedges (allograft group), and five had no wedges (control group) inserted into the osteotomy gap. Static compression was applied axially to each specimen until failure of the osteotomy. Ultimate load, horizontal and vertical displacements were measured and used to calculate construct stiffness and valgus malrotation of the tibial head.
RESULTS: The synthetic group failed at 6.3 kN, followed by the allograft group (6 kN), and the control group (4.5 kN). The most valgus malrotation of the tibial head was observed in the allograft group (2.6°). The synthetic group showed the highest stiffness at the medial side of the tibial head (9.54 kN·mm- 1), but the lowest stiffness at the lateral side (1.59 kN·mm-1). The allograft group showed high stiffness on the medial side of the tibial head (7.54 kN·mm- 1) as well as the highest stiffness on the lateral side (2.18 kN·mm- 1).
CONCLUSIONS: The use of graft materials in MOWHTO results in superior material properties compared to the use of no graft. The static strength of MOWHTO is highest when synthetic grafts are inserted into the osteotomy gap. Allograft wedges provide higher mechanical strength to a MOWHTO than when no graft used. In comparison to the synthetic grafts, allograft wedges result in the stiffness of the osteotomy being more similar at the medial and lateral cortices.
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Published date: 28 March 2019
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Local EPrints ID: 497919
URI: http://eprints.soton.ac.uk/id/eprint/497919
ISSN: 2197-1153
PURE UUID: c44e5343-86b8-43ea-b1f2-6106c42c2489
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Date deposited: 04 Feb 2025 17:51
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:
Adrian J Wilson
Author:
Dietrich Pape
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