Literature DB >> 23642532

The effects of crosslinking of scaffolds engineered from cartilage ECM on the chondrogenic differentiation of MSCs.

Christopher R Rowland1, Donald P Lennon, Arnold I Caplan, Farshid Guilak.   

Abstract

Scaffolds fabricated from cartilage extracellular matrix provide a chondroinductive environment that stimulates cartilaginous matrix synthesis in a variety of cell types. A limitation of these cartilage-derived matrix (CDM) scaffolds is that they contract during in vitro culture, which unpredictably alters their shape. The current study examined the hypothesis that collagen crosslinking techniques could inhibit cell-mediated contraction of CDM scaffolds. We analyzed the effects of dehydrothermal (DHT) treatment, ultraviolet light irradiation (UV), and the chemical crosslinker carbodiimide (CAR) on scaffold contraction and chondrogenic differentiation of adult human bone marrow-derived stem cells (MSCs). Both physical and chemical crosslinking treatments retained the original scaffold dimensions. DHT and UV treatments produced significantly higher glycosaminoglycan and collagen contents than CAR crosslinked and non-crosslinked constructs. Crosslinking treatments influenced the composition of newly synthesized matrix, and DHT treatment best matched the composition of native cartilage. DHT, UV, and non-crosslinked CDM films supported cell attachment, while CAR crosslinking inhibited cell adhesion. These results affirm that collagen crosslinking treatments can prevent cell-mediated contraction of CDM scaffolds. Interestingly, crosslinking treatments influence chondrogenic differentiation. These effects seem to be mediated by modifications to cell-matrix interactions between MSCs and the CDM; however, further work is necessary to elucidate the specific mechanisms involved in this process.
Copyright © 2013 Elsevier Ltd. All rights reserved.

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Year:  2013        PMID: 23642532      PMCID: PMC3660461          DOI: 10.1016/j.biomaterials.2013.04.027

Source DB:  PubMed          Journal:  Biomaterials        ISSN: 0142-9612            Impact factor:   12.479


  63 in total

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3.  Development of tailor-made collagen-glycosaminoglycan matrices: EDC/NHS crosslinking, and ultrastructural aspects.

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Authors:  Andrew S Rowlands; Peter A George; Justin J Cooper-White
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Journal:  J Biomech       Date:  2009-10-02       Impact factor: 2.712

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9.  The effects of cross-linking of collagen-glycosaminoglycan scaffolds on compressive stiffness, chondrocyte-mediated contraction, proliferation and biosynthesis.

Authors:  C R Lee; A J Grodzinsky; M Spector
Journal:  Biomaterials       Date:  2001-12       Impact factor: 12.479

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  41 in total

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Review 4.  Tissue Engineering for the Temporomandibular Joint.

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5.  Elastic Anisotropy Governs the Range of Cell-Induced Displacements.

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6.  Fabrication and characterization of thiol-triacrylate polymer via Michael addition reaction for biomedical applications.

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7.  Structural and biochemical modification of a collagen scaffold to selectively enhance MSC tenogenic, chondrogenic, and osteogenic differentiation.

Authors:  Steven R Caliari; Brendan A C Harley
Journal:  Adv Healthc Mater       Date:  2014-02-25       Impact factor: 9.933

8.  Functional properties of bone marrow-derived MSC-based engineered cartilage are unstable with very long-term in vitro culture.

Authors:  Megan J Farrell; Matthew B Fisher; Alice H Huang; John I Shin; Kimberly M Farrell; Robert L Mauck
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9.  Chondroinductive Hydrogel Pastes Composed of Naturally Derived Devitalized Cartilage.

Authors:  Emily C Beck; Marilyn Barragan; Madeleine H Tadros; Emi A Kiyotake; Francisca M Acosta; Sarah L Kieweg; Michael S Detamore
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10.  Approaching the compressive modulus of articular cartilage with a decellularized cartilage-based hydrogel.

Authors:  Emily C Beck; Marilyn Barragan; Madeleine H Tadros; Stevin H Gehrke; Michael S Detamore
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