Journal article
Three dimensional collagen scaffold promotes intrinsic vascularisation for tissue engineering applications
EC Chan, SM Kuo, AM Kong, WA Morrison, GJ Dusting, GM Mitchell, SY Lim, GS Liu
Plos One | Published : 2016
Abstract
Here, we describe a porous 3-dimensional collagen scaffold material that supports capillary formation in vitro, and promotes vascularization when implanted in vivo. Collagen scaffolds were synthesized from type I bovine collagen and have a uniform pore size of 80 ìm. In vitro, scaffolds seeded with primary human microvascular endothelial cells suspended in human fibrin gel formed CD31 positive capillary-like structures with clear lumens. In vivo, after subcutaneous implantation in mice, cell-free collagen scaffolds were vascularized by host neovessels, whilst a gradual degradation of the scaffold material occurred over 8 weeks. Collagen scaffolds, impregnated with human fibrinogen gel, were ..
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Awarded by National Health and Medical Research Council
Funding Acknowledgements
This work was supported by grants from the National Health and Medical Research Council of Australia (#1061912-GJD, GSL; and #1003113-GJD), the Research Endowment Fund- St Vincent's Hospital Melbourne (SYL, GMM) and the Jack Brockhoff Foundation (GMM). The Centre for Eye Research Australia and the O'Brien Institute Department of St Vincent's Institute of Medical Research receive Operational Infrastructure Support from the Victorian Government.