Crosslinked type II collagen matrices: preparation, characterization, and potential for cartilage engineering.
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Publication year
2002Source
Biomaterials, 23, 15, (2002), pp. 3183-92ISSN
Publication type
Article / Letter to editor
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Organization
Biochemistry (UMC)
Rheumatology
Orthopaedics
Journal title
Biomaterials
Volume
vol. 23
Issue
iss. 15
Page start
p. 3183
Page end
p. 92
Subject
Chronic arthritis: Pathogenesis and treatment; Role of fatty acid-binding proteins, proteoglycans and ion transport in differentiation and pathology; Mechano-biology of musculoskeletal tissues; Chronische arthritis: Pathogenese en behandeling; De rol van vetzuurbindende eiwitten, proteoglycanen en iontransport bij differentiatie en pathologie; Mechano-biologie van bindweefsels i.r.t. orthopaedische reconstructiesAbstract
The limited intrinsic repair capacity of articular cartilage has stimulated continuing efforts to develop tissue engineered analogues. Matrices composed of type II collagen and chondroitin sulfate (CS), the major constituents of hyaline cartilage, may create an appropriate environment for the generation of cartilage-like tissue. In this study, we prepared, characterized, and evaluated type 11 collagen matrices with and without CS. Type II collagen matrices were prepared using purified, pepsin-treated, type II collagen. Techniques applied to prepare type I collagen matrices were found unsuitable for type II collagen. Crosslinking of collagen and covalent attachment of CS was performed using 1-ethyl-3-(3-dimethyl aminopropyl)carbodiimide. Porous matrices were prepared by freezing and lyophilization, and their physico-chemical characteristics (degree of crosslinking, denaturing temperature, collagenase-resistance, amount of CS incorporated) established. Matrices were evaluated for their capacity to sustain chondrocyte proliferation and differentiation in vitro. After 7 d of culture, chondrocytes were mainly located at the periphery of the matrices. In contrast to type I collagen, type II collagen supported the distribution of cells throughout the matrix. After 14 d of culture, matrices were surfaced with a cartilagenous-like layer, and occasionally clusters of chondrocytes were present inside the matrix. Chondrocytes proliferated and differentiated as indicated by biochemical analyses, ultrastructural observations, and reverse transcriptase PCR for collagen types I, II and X. No major differences were observed with respect to the presence or absence of CS in the matrices.
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- Electronic publications [134102]
- Faculty of Medical Sciences [93308]
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