Biocompatibility and Cellular Behavior of TiNbTa Alloy with Adapted Rigidity for the Replacement of Bone Tissue

Giner, Mercé; Chicardi, Ernesto; Costa, Alzenira de Fátima; Santana, Laura; Vázquez-Gámez, María Ángeles; García-Garrido, Cristina; Colmenero, Miguel Ángel; Olmo Montes, Francisco Jesús; Torres, Yadir; Montoya García, María José

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Title :	Biocompatibility and Cellular Behavior of TiNbTa Alloy with Adapted Rigidity for the Replacement of Bone Tissue
Author :	Giner, Mercé Chicardi, Ernesto Costa, Alzenira de Fátima Santana, Laura Vázquez-Gámez, María Ángeles García-Garrido, Cristina Colmenero, Miguel Ángel Olmo Montes, Francisco Jesús Torres, Yadir Montoya García, María José
Date issued:	2021
Source:	Metals, 2021, vol 11
Document Type:	Artículo publicación periódica
Thematic descriptors:	Aleación Hueso
Language ISO:	eng
Abstract:	In this work, the mechanical and bio-functional behavior of a TiNbTa alloy is evaluated as a potential prosthetic biomaterial used for cortical bone replacement. The results are compared with the reference Ti c.p. used as biomaterials for bone-replacement implants. The estimated mechanical behavior for TiNbTa foams was also compared with the experimental Ti c.p. foams fabricated by the authors in previous studies. A TiNbTa alloy with a 20–30% porosity could be a candidate for the replacement of cortical bone, while levels of 80% would allow the manufacture of implants for the replacement of trabecular bone tissue. Regarding biocompatibility, in vitro TiNbTa, cellular responses (osteoblast adhesion and proliferation) were compared with cell growth in Ti c.p. samples. Cell adhesion (presence of filopodia) and propagation were promoted. The TiNbTa samples had a bioactive response similar to that of Ti c.p. However, TiNbTa samples show a better balance of bio-functional behavior (promoting osseointegration) and biomechanical behavior (solving the stress-shielding phenomenon and guaranteeing mechanical resistance).
Publisher :	MDPI
ISSN:	MIAR 2075-4701
Rights:	© Instituto Andaluz del Patrimonio Histórico
Rights URL:	https://creativecommons.org/licenses/by-sa/4.0/deed.es
Date accessioned:	2021-05-03T11:36:30Z
Date available:	2021-05-03T11:36:30Z
Format:	application/pdf
URI:	https://hdl.handle.net/11532/336592
DOI:	https://doi.org/10.3390/met11010130
Appears in Collections:	Artículos en publicaciones seriadas

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Autor: Giner, Mercé Autor: Chicardi, Ernesto Autor: Costa, Alzenira de Fátima Autor: Santana, Laura Autor: Vázquez-Gámez, María Ángeles Autor: García-Garrido, Cristina Autor: Colmenero, Miguel Ángel Autor: Olmo Montes, Francisco Jesús Autor: Torres, Yadir Autor: Montoya García, María José Fecha de acceso: 2021-05-03T11:36:30Z Fecha de subida: 2021-05-03T11:36:30Z Fecha: 2021 dc_identifier_issn: 2075-4701 URI: https://hdl.handle.net/11532/336592 Resumen: In this work, the mechanical and bio-functional behavior of a TiNbTa alloy is evaluated as a potential prosthetic biomaterial used for cortical bone replacement. The results are compared with the reference Ti c.p. used as biomaterials for bone-replacement implants. The estimated mechanical behavior for TiNbTa foams was also compared with the experimental Ti c.p. foams fabricated by the authors in previous studies. A TiNbTa alloy with a 20–30% porosity could be a candidate for the replacement of cortical bone, while levels of 80% would allow the manufacture of implants for the replacement of trabecular bone tissue. Regarding biocompatibility, in vitro TiNbTa, cellular responses (osteoblast adhesion and proliferation) were compared with cell growth in Ti c.p. samples. Cell adhesion (presence of filopodia) and propagation were promoted. The TiNbTa samples had a bioactive response similar to that of Ti c.p. However, TiNbTa samples show a better balance of bio-functional behavior (promoting osseointegration) and biomechanical behavior (solving the stress-shielding phenomenon and guaranteeing mechanical resistance). Formato: application/pdf Idioma: eng Editorial: MDPI Derechos: © Instituto Andaluz del Patrimonio Histórico Derechos URL: https://creativecommons.org/licenses/by-sa/4.0/deed.es Fuente: Metals, 2021, vol 11 Descriptores temáticos: Aleación Descriptores temáticos: Hueso Título: Biocompatibility and Cellular Behavior of TiNbTa Alloy with Adapted Rigidity for the Replacement of Bone Tissue Tipo de documento: info:eu-repo/semantics/article Disponibilidad externa: Consulta, reproducción, uso público Disponibilidad interna: Consulta, reproducción, uso público DOI: https://doi.org/10.3390/met11010130

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