Textile cell-free scaffolds for in situ tissue engineering applications

Journal of Materials Science. Materials in Medicine
Dilbar AibibuChokri Cherif

Abstract

In this article, the benefits offered by micro-fibrous scaffold architectures fabricated by textile manufacturing techniques are discussed: How can established and novel fiber-processing techniques be exploited in order to generate templates matching the demands of the target cell niche? The problems related to the development of biomaterial fibers (especially from nature-derived materials) ready for textile manufacturing are addressed. Attention is also paid on how biological cues may be incorporated into micro-fibrous scaffold architectures by hybrid manufacturing approaches (e.g. nanofiber or hydrogel functionalization). After a critical review of exemplary recent research works on cell-free fiber based scaffolds for in situ TE, including clinical studies, we conclude that in order to make use of the whole range of favors which may be provided by engineered fibrous scaffold systems, there are four main issues which need to be addressed: (1) Logical combination of manufacturing techniques and materials. (2) Biomaterial fiber development. (3) Adaption of textile manufacturing techniques to the demands of scaffolds for regenerative medicine. (4) Incorporation of biological cues (e.g. stem cell homing factors).

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Citations

Nov 14, 2018·Biomedical Materials·Robert TonndorfChokri Cherif
May 28, 2019·Journal of Biomedical Materials Research. Part B, Applied Biomaterials·Nilza RibeiroAna L Oliveira
Feb 2, 2018·Biotechnology & Genetic Engineering Reviews·Behnaz BakhshandehZarrintaj Ziraksaz
Jul 4, 2018·Materials·Megane Beldjilali-LabroCécile Legallais
Apr 1, 2017·Advanced Biosystems·Rui-Xin WuFa-Ming Chen
May 21, 2021·Frontiers in Cell and Developmental Biology·Marguerite MeeremansCatharina De Schauwer

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