2011
DOI: 10.1089/ten.tea.2010.0272
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Maturation State-Dependent Alterations in Meniscus Integration: Implications for Scaffold Design and Tissue Engineering

Abstract: The knee meniscus is a crucial component of the knee that functions to stabilize the joint, distribute load, and maintain congruency. Meniscus tears and degeneration are common, and natural healing is limited. Notably, few children present with meniscus injuries and other related fibrocartilaginous tissues heal regeneratively in immature animals and in the fetus. In this work, we evaluated fetal, juvenile, and adult bovine meniscus properties and repair capacity in vitro. Although no changes in cell behavior (… Show more

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Cited by 55 publications
(100 citation statements)
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“…However, fibrous tissues, especially in the adult, have a low endogenous cellular content, and these cells may be constrained from migrating to the wound interface by the dense extracellular matrix in which they reside. 18 To address this issue, the biomaterial scaffold might be either preseeded with cells immediately before implantation, or matured in vitro until reaching functional equivalence with the native tissue. In this study, preseeding of meniscus cells onto the scaffold before placement in the defect markedly improved integration strength for the low-porosity aligned scaffolds (which showed poor integration when implanted in an acellular format).…”
Section: Discussionmentioning
confidence: 99%
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“…However, fibrous tissues, especially in the adult, have a low endogenous cellular content, and these cells may be constrained from migrating to the wound interface by the dense extracellular matrix in which they reside. 18 To address this issue, the biomaterial scaffold might be either preseeded with cells immediately before implantation, or matured in vitro until reaching functional equivalence with the native tissue. In this study, preseeding of meniscus cells onto the scaffold before placement in the defect markedly improved integration strength for the low-porosity aligned scaffolds (which showed poor integration when implanted in an acellular format).…”
Section: Discussionmentioning
confidence: 99%
“…Finally, we used meniscus tissue derived from young (0-3 month) bovine donors; this tissue is hypercellular and has a distinct matrix composition compared to the adult tissue. 18 As meniscus tears occur primarily in the adult human population, additional studies will be required to determine if age-related differences directly impact scaffold maturation and integration capacity.…”
Section: Discussionmentioning
confidence: 99%
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