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	Provedor de dados BJMBR (8) ArchiMer (4) Anais da ABC (AABC) (2) BABT (2) International Journal of Morphology (2) Biocell (1) Biol. Res. (1) Mais... Autor Colliec-jouault, Sylvia (3) Chang,H.M. (2) Godeau, Gaston (2) Gueniche, Farida (2) Jing,X.H. (2) Ratiskol, Jacqueline (2) Senni, Karim (2) Sinquin, Corinne (2) Wang,Z.H. (2) Wu,B.J. (2) Xu,M. (2) Zhang,X.H. (2) Backer,C.L. (1) Baheiraei,Nafiseh (1) Beck-cormier, S. (1) Bersano,P.R.O. (1) Bianco,P. (1) Braghirolli,D.I. (1) Cardoso,Guinea Brasil Camargo (1) Changotade, Sylvie (1) Mais... Palavra-chave Tissue engineering (20) Biomaterial (2) Biomaterials (2) Chondrocytes (2) Extracellular matrix (2) Nanotechnology (2) Polysaccharides (2) Stem cells (2) Ablation (1) Articular cartilage (1) Atrioventricular node (1) Auricular reconstruction (1) Biocompatibility (1) Biological activity (1) Biopolymers (1) Biopolymères (1) Bioprinting (1) Blood compatibility (1) Blue biotechnology (1) Bone formation (1) Mais... Tipo do documento Info:eu-repo/semantics/article (12) Text (4) Journal article (3) Info:eu-repo/semantics/other (1) Ano 2019 (2) 2017 (2) 2016 (2) 2015 (2) 2014 (3) 2013 (1) 2012 (3) 2011 (2) 2010 (1) 2009 (1) 2003 (1) Mais... País Brazil (12) France (4) Chile (3) Argentina (1) Idioma Inglês (19) Francês (1)		Registro completo Provedor de dados:  International Journal of Morphology País:  Chile Título:  Biocompatibility of Human Auricular Chondrocytes Cultured onto a Chitosan/Polyvynil Alcohol/Epichlorohydrin-Based Hydrogel for Tissue Engineering Application Autores:  Melgarejo-Ramírez,Yaaziel Sánchez-Sánchez,Roberto García-Carvajal,Zaira García-López,Julieta Gutiérrez-Gómez,Claudia Luna-Barcenas,Gabriel Ibarra,Clemente Velasquillo,Cristina Data:  2014-12-01 Ano:  2014 Palavras-chave:  Elastic cartilage Auricular reconstruction Chitosan hydrogel Tissue engineering Biocompatibility Resumo:  Tissue engineering (TE) has become an alternative for auricular reconstruction based on the combination of cells, molecular signals and biomaterials. Scaffolds are biomaterials that provide structural support for cell attachment and subsequent tissue development. Ideally, a scaffold should have characteristics such as biocompatibility and bioactivity to adequate support cell functions. Our purpose was to evaluate biocompatibility of microtic auricular chondrocytes seeded onto a chitosan-polyvinyl alcohol-epichlorohydrin (CS-PVA-ECH) hydrogel to propose this material as a scaffold for tissue engineering application. After being cultured onto CS-PVA-ECH hydrogels, auricular chondrocytes viability was up to 81%. SEM analysis showed cell attachment and extracellular matrix formation that was confirmed by IF detection of type II collagen and elastin, the main constituents of elastic cartilage. Expression of elastic cartilage molecular markers during in vitro expansion and during culture onto hydrogels allowed confirming auricular chondrocyte phenotype. In vivo assay of tissue formation revealed generation of neotissues with similar physical characteristics and protein composition to those found in elastic cartilage. According to our results, biocompatibility of the CS-PVA-ECH hydrogel makes it a suitable scaffold for tissue engineering application aimed to elastic cartilage regeneration. Tipo:  Journal article Idioma:  Inglês Identificador:  http://www.scielo.cl/scielo.php?script=sci_arttext&pid=S0717-95022014000400036 Editor:  Sociedad Chilena de Anatomía Formato:  text/html Fonte:  International Journal of Morphology v.32 n.4 2014 Fechar

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