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In Vivo Cellular Infiltration and Remodeling in a Decellularized Ovine Osteochondral Allograft.

Authors :
Novak T
Fites Gilliland K
Xu X
Worke L
Ciesielski A
Breur G
Neu CP
Source :
Tissue engineering. Part A [Tissue Eng Part A] 2016 Nov; Vol. 22 (21-22), pp. 1274-1285. Date of Electronic Publication: 2016 Oct 24.
Publication Year :
2016

Abstract

Interest in decellularized tissues has steadily gained as potential solutions for degenerative diseases and traumatic events, replacing sites of missing tissue, and providing the relevant biochemistry and microstructure for tissue ingrowth and regeneration. Osteoarthritis, a progressive and debilitating disease, is often initiated with the formation of a focal defect in the otherwise smooth surface of articular cartilage. Decellularized cartilage tissue, which maintains the structural complexity of the native extracellular matrix, has the potential to provide a clinically relevant solution to focal defects or large tissue damage, possibly even circumventing or complementing current techniques such as microfracture and mosaicplasty. However, it is currently unclear whether implantation of decellularized cartilage in vivo may provide a mechanically and biochemically relevant platform to promote cell remodeling and repair. We examined whole decellularized osteochondral allografts implanted in the ovine trochlear groove to investigate cellular remodeling and repair tissue quality compared to empty defects and contralateral controls (healthy cartilage). At 3 months postsurgery, cells were observed in both the decellularized tissue and empty defects, although both at significantly lower levels than healthy cartilage. Qualitative and quantitative histological analysis demonstrated maintenance of cartilage features of the decellularized implant similar to healthy cartilage groups. Noninvasive analysis by quantitative magnetic resonance imaging showed no difference in T <subscript>1ρ</subscript> and T <subscript>2</subscript> * between all groups. Investigation of the mechanical properties of repair tissue showed significantly lower elasticity in decellularized implants and empty defects compared to healthy cartilage, but similar tribological quantities. Overall, this study suggests that decellularized cartilage implants are subject to cellular remodeling in an in vivo environment and may provide a potential tissue engineering solution to cartilage defect interventions.<br />Competing Interests: Statement No competing financial interests exist.

Details

Language :
English
ISSN :
1937-335X
Volume :
22
Issue :
21-22
Database :
MEDLINE
Journal :
Tissue engineering. Part A
Publication Type :
Academic Journal
Accession number :
27673714
Full Text :
https://doi.org/10.1089/ten.TEA.2016.0149