Perspectives on Scaffold Designs with Roles in Liver Cell Asymmetry and Medical and Industrial Applications by Using a New Type of Specialized 3D Bioprinter

Cellular asymmetry is an important element of efficiency in the compartmentalization of intracellular chemical reactions that ensure efficient tissue function. Improving the current 3D printing methods by using cellular asymmetry is essential in producing complex tissues and organs such as the liver...

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Autores principales: Harbuz, Iuliana, Banciu, Daniel Dumitru, David, Rodica, Cercel, Cristina, Cotîrță, Octavian, Ciurea, Bogdan Marius, Radu, Sorin Mihai, Dinescu, Stela, Jinga, Sorin Ion, Banciu, Adela
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2023
Materias:
Perspective
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10573170/
https://www.ncbi.nlm.nih.gov/pubmed/37834167
http://dx.doi.org/10.3390/ijms241914722
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author Harbuz, Iuliana
Banciu, Daniel Dumitru
David, Rodica
Cercel, Cristina
Cotîrță, Octavian
Ciurea, Bogdan Marius
Radu, Sorin Mihai
Dinescu, Stela
Jinga, Sorin Ion
Banciu, Adela
author_facet Harbuz, Iuliana
Banciu, Daniel Dumitru
David, Rodica
Cercel, Cristina
Cotîrță, Octavian
Ciurea, Bogdan Marius
Radu, Sorin Mihai
Dinescu, Stela
Jinga, Sorin Ion
Banciu, Adela
author_sort Harbuz, Iuliana
collection PubMed
description Cellular asymmetry is an important element of efficiency in the compartmentalization of intracellular chemical reactions that ensure efficient tissue function. Improving the current 3D printing methods by using cellular asymmetry is essential in producing complex tissues and organs such as the liver. The use of cell spots containing at least two cells and basement membrane-like bio support materials allows cells to be tethered at two points on the basement membrane and with another cell in order to maintain cell asymmetry. Our model is a new type of 3D bioprinter that uses oriented multicellular complexes with cellular asymmetry. This novel approach is necessary to replace the sequential and slow processes of organogenesis with rapid methods of growth and 3D organ printing. The use of the extracellular matrix in the process of bioprinting with cells allows one to preserve the cellular asymmetry in the 3D printing process and thus preserve the compartmentalization of biological processes and metabolic efficiency.
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spelling pubmed-105731702023-10-14 Perspectives on Scaffold Designs with Roles in Liver Cell Asymmetry and Medical and Industrial Applications by Using a New Type of Specialized 3D Bioprinter Harbuz, Iuliana Banciu, Daniel Dumitru David, Rodica Cercel, Cristina Cotîrță, Octavian Ciurea, Bogdan Marius Radu, Sorin Mihai Dinescu, Stela Jinga, Sorin Ion Banciu, Adela Int J Mol Sci Perspective Cellular asymmetry is an important element of efficiency in the compartmentalization of intracellular chemical reactions that ensure efficient tissue function. Improving the current 3D printing methods by using cellular asymmetry is essential in producing complex tissues and organs such as the liver. The use of cell spots containing at least two cells and basement membrane-like bio support materials allows cells to be tethered at two points on the basement membrane and with another cell in order to maintain cell asymmetry. Our model is a new type of 3D bioprinter that uses oriented multicellular complexes with cellular asymmetry. This novel approach is necessary to replace the sequential and slow processes of organogenesis with rapid methods of growth and 3D organ printing. The use of the extracellular matrix in the process of bioprinting with cells allows one to preserve the cellular asymmetry in the 3D printing process and thus preserve the compartmentalization of biological processes and metabolic efficiency. MDPI 2023-09-29 /pmc/articles/PMC10573170/ /pubmed/37834167 http://dx.doi.org/10.3390/ijms241914722 Text en © 2023 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Perspective
Harbuz, Iuliana
Banciu, Daniel Dumitru
David, Rodica
Cercel, Cristina
Cotîrță, Octavian
Ciurea, Bogdan Marius
Radu, Sorin Mihai
Dinescu, Stela
Jinga, Sorin Ion
Banciu, Adela
Perspectives on Scaffold Designs with Roles in Liver Cell Asymmetry and Medical and Industrial Applications by Using a New Type of Specialized 3D Bioprinter
title Perspectives on Scaffold Designs with Roles in Liver Cell Asymmetry and Medical and Industrial Applications by Using a New Type of Specialized 3D Bioprinter
title_full Perspectives on Scaffold Designs with Roles in Liver Cell Asymmetry and Medical and Industrial Applications by Using a New Type of Specialized 3D Bioprinter
title_fullStr Perspectives on Scaffold Designs with Roles in Liver Cell Asymmetry and Medical and Industrial Applications by Using a New Type of Specialized 3D Bioprinter
title_full_unstemmed Perspectives on Scaffold Designs with Roles in Liver Cell Asymmetry and Medical and Industrial Applications by Using a New Type of Specialized 3D Bioprinter
title_short Perspectives on Scaffold Designs with Roles in Liver Cell Asymmetry and Medical and Industrial Applications by Using a New Type of Specialized 3D Bioprinter
title_sort perspectives on scaffold designs with roles in liver cell asymmetry and medical and industrial applications by using a new type of specialized 3d bioprinter
topic Perspective
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10573170/
https://www.ncbi.nlm.nih.gov/pubmed/37834167
http://dx.doi.org/10.3390/ijms241914722
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