On the influence of mechanical conditions in osteochondral defect healing
On the influence of mechanical conditions in osteochondral defect healing
Despite the introduction of new surgical techniques, the treatment of cartilage defects remains challenging. Delay or complete failure of cartilage healing is associated with problems in biological regeneration. The influence of mechanical conditions on this process, however, remains unevaluated. Osteochondral defects were generated on the left femoral condyle in 18 Yucatan minipigs. After 4, 6 and 12 weeks the defect filling, trabecular orientation and bone density were compared to the intact contralateral side. The mechanical straining during this period was then analyzed using an adaptive finite element technique. Histologically, the osteochondral defects showed bone resorption at the base and bone formation from the circumference. At 12 weeks, the macroscopically healed specimens showed fibrous cartilage formation, a minimally organized trabecular structure and increased trabecular volume fraction compared to the controls (p<0.002). The amount of cancellous, cartilagineous, and fibrous tissue and the defect size as measured in histomorphometric analysis for the three time points (4, 6 and 12 weeks) was comparable in magnitude to that predicted by finite element analysis. The simulated osteochondral healing process was not fully capable of re-establishing a hyaline-like cartilage layer. The correlation between simulation and histology allows identification of mechanical factors that appear to have a larger impact on the healing of osteochondral defects than previously considered.
cartilage mechanics, tissue differentiation, histology, finite element analysis
843-851
Duda, G.N.
32d09622-34ad-49dd-8314-3f61c99a764e
Maldonado, Z.M.
144d1e2b-10b9-4f77-b6d9-19cb72d51041
Klein, P.
211057b8-b8ac-496f-bae4-48fd959f80df
Heller, M.O.W.
3da19d2a-f34d-4ff1-8a34-9b5a7e695829
Burns, J.
ec8dca88-9dec-4780-a0d2-80ea1d16c7c3
Bail, H.
b6146957-a156-4061-a91b-198588c9a024
April 2005
Duda, G.N.
32d09622-34ad-49dd-8314-3f61c99a764e
Maldonado, Z.M.
144d1e2b-10b9-4f77-b6d9-19cb72d51041
Klein, P.
211057b8-b8ac-496f-bae4-48fd959f80df
Heller, M.O.W.
3da19d2a-f34d-4ff1-8a34-9b5a7e695829
Burns, J.
ec8dca88-9dec-4780-a0d2-80ea1d16c7c3
Bail, H.
b6146957-a156-4061-a91b-198588c9a024
Duda, G.N., Maldonado, Z.M., Klein, P., Heller, M.O.W., Burns, J. and Bail, H.
(2005)
On the influence of mechanical conditions in osteochondral defect healing.
Journal of Biomechanics, 38 (4), .
(doi:10.1016/j.jbiomech.2004.04.034).
Abstract
Despite the introduction of new surgical techniques, the treatment of cartilage defects remains challenging. Delay or complete failure of cartilage healing is associated with problems in biological regeneration. The influence of mechanical conditions on this process, however, remains unevaluated. Osteochondral defects were generated on the left femoral condyle in 18 Yucatan minipigs. After 4, 6 and 12 weeks the defect filling, trabecular orientation and bone density were compared to the intact contralateral side. The mechanical straining during this period was then analyzed using an adaptive finite element technique. Histologically, the osteochondral defects showed bone resorption at the base and bone formation from the circumference. At 12 weeks, the macroscopically healed specimens showed fibrous cartilage formation, a minimally organized trabecular structure and increased trabecular volume fraction compared to the controls (p<0.002). The amount of cancellous, cartilagineous, and fibrous tissue and the defect size as measured in histomorphometric analysis for the three time points (4, 6 and 12 weeks) was comparable in magnitude to that predicted by finite element analysis. The simulated osteochondral healing process was not fully capable of re-establishing a hyaline-like cartilage layer. The correlation between simulation and histology allows identification of mechanical factors that appear to have a larger impact on the healing of osteochondral defects than previously considered.
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e-pub ahead of print date: 19 August 2004
Published date: April 2005
Keywords:
cartilage mechanics, tissue differentiation, histology, finite element analysis
Organisations:
Bioengineering Group
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Local EPrints ID: 348502
URI: http://eprints.soton.ac.uk/id/eprint/348502
ISSN: 0021-9290
PURE UUID: 97e9ace7-4ba0-4d4b-973f-1e80df6c9871
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Date deposited: 26 Feb 2013 11:08
Last modified: 15 Mar 2024 03:43
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Author:
G.N. Duda
Author:
Z.M. Maldonado
Author:
P. Klein
Author:
J. Burns
Author:
H. Bail
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