4D printing of extracellular matrix: pilot project for the development of complex tissues
| Autor(a) principal: | |
|---|---|
| Data de Publicação: | 2022 |
| Outros Autores: | , , , , , , , , , , , , , |
| Tipo de documento: | Artigo |
| Idioma: | por |
| Título da fonte: | Anais da Faculdade de Medicina de Olinda (Online) |
| Texto Completo: | https://afmo.emnuvens.com.br/afmo/article/view/196 |
Resumo: | Introduction: The shortage of organs and tissues for transplantation to meet the existing demand is one of the great challenges in the medical field. A feasible solution to this problem is the three-dimensional (3D) printing of organs and tissues. The present study presents preliminary results of the first 4D extracellular matrix (ECM) models using a biomaterial. Methods: Experimental, multicenter study carried out at the Simulation and Digital Fabrication Laboratory (SIMUFAB) of the Federal Institute of Pernambuco (IFPE). A 2% sodium alginate solution was used to manufacture the MEC on a Zmorph 3D printer, type FDM. Results: The MEC geometric figure was a square with an area of 1cm2 and developed by the Voxelizer software, initially designed in CAD (computer aided design). Next, the biomaterial in gel form was printed with an extrusion speed of 1mm/s and a printing speed of 3mm/s. We succeed in the printing with the biopolymer selected for the manufacture of MEC. There was a uniform deposit of the material during printing, which allowed obtaining the geometric shape designed in CAD. Discussion: This article shows preliminary results of the printing process of a 4D MEC. The achievement of the MEC impression qualifies alginate as one of the main biopolymers to be used in the future phases of this study. Conclusion: The variation of the nozzle area and the extrusion speed have a great influence on the analysis of the final parameters to use the 3D printer. |
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4D printing of extracellular matrix: pilot project for the development of complex tissuesImpressão 4D de matriz extracelular: projeto piloto para o desenvolvimento de tecidos complexosBioimpressãoMatriz ExtracelularMedicina RegenerativaBioengenhariaTecidos SuporteBioprintingExtracellular MatrixRegenerative MedicineBioengineeringScaffoldsIntroduction: The shortage of organs and tissues for transplantation to meet the existing demand is one of the great challenges in the medical field. A feasible solution to this problem is the three-dimensional (3D) printing of organs and tissues. The present study presents preliminary results of the first 4D extracellular matrix (ECM) models using a biomaterial. Methods: Experimental, multicenter study carried out at the Simulation and Digital Fabrication Laboratory (SIMUFAB) of the Federal Institute of Pernambuco (IFPE). A 2% sodium alginate solution was used to manufacture the MEC on a Zmorph 3D printer, type FDM. Results: The MEC geometric figure was a square with an area of 1cm2 and developed by the Voxelizer software, initially designed in CAD (computer aided design). Next, the biomaterial in gel form was printed with an extrusion speed of 1mm/s and a printing speed of 3mm/s. We succeed in the printing with the biopolymer selected for the manufacture of MEC. There was a uniform deposit of the material during printing, which allowed obtaining the geometric shape designed in CAD. Discussion: This article shows preliminary results of the printing process of a 4D MEC. The achievement of the MEC impression qualifies alginate as one of the main biopolymers to be used in the future phases of this study. Conclusion: The variation of the nozzle area and the extrusion speed have a great influence on the analysis of the final parameters to use the 3D printer.Introdução: A indisponibilidade de órgãos e tecidos para transplante com o objetivo de atender a demanda existente é um dos grandes desafios na área médica. Uma solução viável para essa problemática é a impressão tridimensional (3D) de órgãos e tecidos. O presente estudo apresenta resultados preliminares dos primeiros modelos da matriz extracelular (MEC) 4D utilizando um biomaterial. Métodos: Estudo experimental, multicêntrico, realizado no laboratório de Simulação e Fabricação Digital (SIMUFAB) do Instituto Federal de Pernambuco (IFPE). Uma solução de alginato de sódio a 2% foi utilizada para a fabricação da MEC em uma impressora 3D Zmorph do tipo FDM. Resultados: A figura geométrica da MEC foi um quadrado com 1cm2 de área desenvolvida pelo software Voxelizer, projetado inicialmente no CAD (computer aided design). A seguir, o biomaterial em forma de gel foi impresso com uma velocidade de extrusão de 1mm/s e uma velocidade de impressão de 3mm/s. Obtivemos êxito na impressão com o biopolímero selecionado para a fabricação da MEC. Verificou-se um depósito uniforme do material durante a impressão, permitindo obter a forma geométrica projetada no CAD. Discussão: O presente artigo mostra resultados preliminares do processo de impressão de uma MEC 4D. O êxito da impressão da MEC qualifica alginato como um dos principais biopolímeros a ser utilizado nas futuras fases desse estudo. Conclusão: A variação da área da ponteira e a velocidade de extrusão têm grande influência na análise dos parâmetros finais para utilizar a impressora 3D.Faculdade de Medicina de Olinda2022-12-22info:eu-repo/semantics/articleinfo:eu-repo/semantics/publishedVersionapplication/pdfhttps://afmo.emnuvens.com.br/afmo/article/view/19610.56102/afmo.2022.196ANNALS OF OLINDA MEDICAL SCHOOL; Vol. 1 No. 7 (2022); 7-13Anais da Faculdade de Medicina de Olinda; v. 1 n. 7 (2022); 7-132674-84872595-1734reponame:Anais da Faculdade de Medicina de Olinda (Online)instname:Faculdade de Medicina de Olinda (FMO)instacron:FMOporhttps://afmo.emnuvens.com.br/afmo/article/view/196/107Copyright (c) 2022 Leonardo Lima Monteiro, Heloisa Moreira Feijó, Mariana Lima de Morais Inocêncio, Laiz Correia Arruda, Vitor Benedito Ferreira Freire, Edilson Eugênio da Silva, Frederico Duarte de Menezes, Jacek Stanislaw Michewicz, José Ângelo Peixoto da Costa, Luciana Lima Monteiro, Clessio Leão Silva Lima, João Victor Barreto Ipiranga, Amaury de Siqueira Medeiros Filho, Jorge Eduardo Oliveira Filho, Amanda Vasconcelos de Albuquerquehttps://creativecommons.org/licenses/by/4.0info:eu-repo/semantics/openAccess Moreira Feijó, Heloisa Lima de Morais Inocêncio, Mariana Correia Arruda, Laiz Benedito Ferreira Freire, Vitor Eugênio da Silva, EdilsonDuarte de Menezes, Frederico Stanislaw Michewicz, Jacek Peixoto da Costa, José Ângelo Lima Monteiro, Luciana Leão Silva Lima, Clessio Barreto Ipiranga, João Victor de Siqueira Medeiros Filho, Amaury Eduardo Oliveira Filho, Jorge Vasconcelos de Albuquerque, Amanda Lima Monteiro, Leonardo2022-12-22T19:56:55Zoai:ojs.afmo.emnuvens.com.br:article/196Revistahttps://afmo.emnuvens.com.br/afmoPUBhttps://afmo.emnuvens.com.br/afmo/oaianaisfmo@fmo.edu.br2674-84872595-1734opendoar:2022-12-22T19:56:55Anais da Faculdade de Medicina de Olinda (Online) - Faculdade de Medicina de Olinda (FMO)false |
| dc.title.none.fl_str_mv |
4D printing of extracellular matrix: pilot project for the development of complex tissues Impressão 4D de matriz extracelular: projeto piloto para o desenvolvimento de tecidos complexos |
| title |
4D printing of extracellular matrix: pilot project for the development of complex tissues |
| spellingShingle |
4D printing of extracellular matrix: pilot project for the development of complex tissues Moreira Feijó, Heloisa Bioimpressão Matriz Extracelular Medicina Regenerativa Bioengenharia Tecidos Suporte Bioprinting Extracellular Matrix Regenerative Medicine Bioengineering Scaffolds |
| title_short |
4D printing of extracellular matrix: pilot project for the development of complex tissues |
| title_full |
4D printing of extracellular matrix: pilot project for the development of complex tissues |
| title_fullStr |
4D printing of extracellular matrix: pilot project for the development of complex tissues |
| title_full_unstemmed |
4D printing of extracellular matrix: pilot project for the development of complex tissues |
| title_sort |
4D printing of extracellular matrix: pilot project for the development of complex tissues |
| author |
Moreira Feijó, Heloisa |
| author_facet |
Moreira Feijó, Heloisa Lima de Morais Inocêncio, Mariana Correia Arruda, Laiz Benedito Ferreira Freire, Vitor Eugênio da Silva, Edilson Duarte de Menezes, Frederico Stanislaw Michewicz, Jacek Peixoto da Costa, José Ângelo Lima Monteiro, Luciana Leão Silva Lima, Clessio Barreto Ipiranga, João Victor de Siqueira Medeiros Filho, Amaury Eduardo Oliveira Filho, Jorge Vasconcelos de Albuquerque, Amanda Lima Monteiro, Leonardo |
| author_role |
author |
| author2 |
Lima de Morais Inocêncio, Mariana Correia Arruda, Laiz Benedito Ferreira Freire, Vitor Eugênio da Silva, Edilson Duarte de Menezes, Frederico Stanislaw Michewicz, Jacek Peixoto da Costa, José Ângelo Lima Monteiro, Luciana Leão Silva Lima, Clessio Barreto Ipiranga, João Victor de Siqueira Medeiros Filho, Amaury Eduardo Oliveira Filho, Jorge Vasconcelos de Albuquerque, Amanda Lima Monteiro, Leonardo |
| author2_role |
author author author author author author author author author author author author author author |
| dc.contributor.author.fl_str_mv |
Moreira Feijó, Heloisa Lima de Morais Inocêncio, Mariana Correia Arruda, Laiz Benedito Ferreira Freire, Vitor Eugênio da Silva, Edilson Duarte de Menezes, Frederico Stanislaw Michewicz, Jacek Peixoto da Costa, José Ângelo Lima Monteiro, Luciana Leão Silva Lima, Clessio Barreto Ipiranga, João Victor de Siqueira Medeiros Filho, Amaury Eduardo Oliveira Filho, Jorge Vasconcelos de Albuquerque, Amanda Lima Monteiro, Leonardo |
| dc.subject.por.fl_str_mv |
Bioimpressão Matriz Extracelular Medicina Regenerativa Bioengenharia Tecidos Suporte Bioprinting Extracellular Matrix Regenerative Medicine Bioengineering Scaffolds |
| topic |
Bioimpressão Matriz Extracelular Medicina Regenerativa Bioengenharia Tecidos Suporte Bioprinting Extracellular Matrix Regenerative Medicine Bioengineering Scaffolds |
| description |
Introduction: The shortage of organs and tissues for transplantation to meet the existing demand is one of the great challenges in the medical field. A feasible solution to this problem is the three-dimensional (3D) printing of organs and tissues. The present study presents preliminary results of the first 4D extracellular matrix (ECM) models using a biomaterial. Methods: Experimental, multicenter study carried out at the Simulation and Digital Fabrication Laboratory (SIMUFAB) of the Federal Institute of Pernambuco (IFPE). A 2% sodium alginate solution was used to manufacture the MEC on a Zmorph 3D printer, type FDM. Results: The MEC geometric figure was a square with an area of 1cm2 and developed by the Voxelizer software, initially designed in CAD (computer aided design). Next, the biomaterial in gel form was printed with an extrusion speed of 1mm/s and a printing speed of 3mm/s. We succeed in the printing with the biopolymer selected for the manufacture of MEC. There was a uniform deposit of the material during printing, which allowed obtaining the geometric shape designed in CAD. Discussion: This article shows preliminary results of the printing process of a 4D MEC. The achievement of the MEC impression qualifies alginate as one of the main biopolymers to be used in the future phases of this study. Conclusion: The variation of the nozzle area and the extrusion speed have a great influence on the analysis of the final parameters to use the 3D printer. |
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2022 |
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2022-12-22 |
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info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion |
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publishedVersion |
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https://afmo.emnuvens.com.br/afmo/article/view/196 10.56102/afmo.2022.196 |
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https://afmo.emnuvens.com.br/afmo/article/view/196 |
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10.56102/afmo.2022.196 |
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por |
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por |
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https://afmo.emnuvens.com.br/afmo/article/view/196/107 |
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https://creativecommons.org/licenses/by/4.0 info:eu-repo/semantics/openAccess |
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https://creativecommons.org/licenses/by/4.0 |
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openAccess |
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application/pdf |
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Faculdade de Medicina de Olinda |
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Faculdade de Medicina de Olinda |
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ANNALS OF OLINDA MEDICAL SCHOOL; Vol. 1 No. 7 (2022); 7-13 Anais da Faculdade de Medicina de Olinda; v. 1 n. 7 (2022); 7-13 2674-8487 2595-1734 reponame:Anais da Faculdade de Medicina de Olinda (Online) instname:Faculdade de Medicina de Olinda (FMO) instacron:FMO |
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