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Bone tissue engineering scaffolding: computer-aided scaffolding techniques

Tissue engineering is essentially a technique for imitating nature. Natural tissues consist of three components: cells, signalling systems (e.g. growth factors) and extracellular matrix (ECM). The ECM forms a scaffold for its cells. Hence, the engineered tissue construct is an artificial scaffold po...

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Autores principales: Thavornyutikarn, Boonlom, Chantarapanich, Nattapon, Sitthiseripratip, Kriskrai, Thouas, George A., Chen, Qizhi
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Springer Berlin Heidelberg 2014
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4709372/
https://www.ncbi.nlm.nih.gov/pubmed/26798575
http://dx.doi.org/10.1007/s40204-014-0026-7
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author Thavornyutikarn, Boonlom
Chantarapanich, Nattapon
Sitthiseripratip, Kriskrai
Thouas, George A.
Chen, Qizhi
author_facet Thavornyutikarn, Boonlom
Chantarapanich, Nattapon
Sitthiseripratip, Kriskrai
Thouas, George A.
Chen, Qizhi
author_sort Thavornyutikarn, Boonlom
collection PubMed
description Tissue engineering is essentially a technique for imitating nature. Natural tissues consist of three components: cells, signalling systems (e.g. growth factors) and extracellular matrix (ECM). The ECM forms a scaffold for its cells. Hence, the engineered tissue construct is an artificial scaffold populated with living cells and signalling molecules. A huge effort has been invested in bone tissue engineering, in which a highly porous scaffold plays a critical role in guiding bone and vascular tissue growth and regeneration in three dimensions. In the last two decades, numerous scaffolding techniques have been developed to fabricate highly interconnective, porous scaffolds for bone tissue engineering applications. This review provides an update on the progress of foaming technology of biomaterials, with a special attention being focused on computer-aided manufacturing (Andrade et al. 2002) techniques. This article starts with a brief introduction of tissue engineering (Bone tissue engineering and scaffolds) and scaffolding materials (Biomaterials used in bone tissue engineering). After a brief reviews on conventional scaffolding techniques (Conventional scaffolding techniques), a number of CAM techniques are reviewed in great detail. For each technique, the structure and mechanical integrity of fabricated scaffolds are discussed in detail. Finally, the advantaged and disadvantage of these techniques are compared (Comparison of scaffolding techniques) and summarised (Summary).
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spelling pubmed-47093722016-01-19 Bone tissue engineering scaffolding: computer-aided scaffolding techniques Thavornyutikarn, Boonlom Chantarapanich, Nattapon Sitthiseripratip, Kriskrai Thouas, George A. Chen, Qizhi Prog Biomater Review Paper Tissue engineering is essentially a technique for imitating nature. Natural tissues consist of three components: cells, signalling systems (e.g. growth factors) and extracellular matrix (ECM). The ECM forms a scaffold for its cells. Hence, the engineered tissue construct is an artificial scaffold populated with living cells and signalling molecules. A huge effort has been invested in bone tissue engineering, in which a highly porous scaffold plays a critical role in guiding bone and vascular tissue growth and regeneration in three dimensions. In the last two decades, numerous scaffolding techniques have been developed to fabricate highly interconnective, porous scaffolds for bone tissue engineering applications. This review provides an update on the progress of foaming technology of biomaterials, with a special attention being focused on computer-aided manufacturing (Andrade et al. 2002) techniques. This article starts with a brief introduction of tissue engineering (Bone tissue engineering and scaffolds) and scaffolding materials (Biomaterials used in bone tissue engineering). After a brief reviews on conventional scaffolding techniques (Conventional scaffolding techniques), a number of CAM techniques are reviewed in great detail. For each technique, the structure and mechanical integrity of fabricated scaffolds are discussed in detail. Finally, the advantaged and disadvantage of these techniques are compared (Comparison of scaffolding techniques) and summarised (Summary). Springer Berlin Heidelberg 2014-07-17 /pmc/articles/PMC4709372/ /pubmed/26798575 http://dx.doi.org/10.1007/s40204-014-0026-7 Text en © The Author(s) 2014 https://creativecommons.org/licenses/by/4.0/This article is published under license to BioMed Central Ltd. Open AccessThis article is distributed under the terms of the Creative Commons Attribution License which permits any use, distribution, and reproduction in any medium, provided the original author(s) and the source are credited.
spellingShingle Review Paper
Thavornyutikarn, Boonlom
Chantarapanich, Nattapon
Sitthiseripratip, Kriskrai
Thouas, George A.
Chen, Qizhi
Bone tissue engineering scaffolding: computer-aided scaffolding techniques
title Bone tissue engineering scaffolding: computer-aided scaffolding techniques
title_full Bone tissue engineering scaffolding: computer-aided scaffolding techniques
title_fullStr Bone tissue engineering scaffolding: computer-aided scaffolding techniques
title_full_unstemmed Bone tissue engineering scaffolding: computer-aided scaffolding techniques
title_short Bone tissue engineering scaffolding: computer-aided scaffolding techniques
title_sort bone tissue engineering scaffolding: computer-aided scaffolding techniques
topic Review Paper
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4709372/
https://www.ncbi.nlm.nih.gov/pubmed/26798575
http://dx.doi.org/10.1007/s40204-014-0026-7
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