Organ regeneration: integration application of cell encapsulation and 3D bioprinting
3D bioprinting has shown great promise in the field of tissue engineering, which offers a vital and significant platform for organ regeneration. Therefore, an increasing focus on 3D bioprinting, coupled with a growing knowledge of cell–cell interaction and cell encapsulation, has driven researchers...
Main Authors: | , , , |
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Format: | Article |
Language: | English |
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Taylor & Francis Group
2017-10-01
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Series: | Virtual and Physical Prototyping |
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Online Access: | http://dx.doi.org/10.1080/17452759.2017.1338065 |
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author | Huanbao Liu Huixing Zhou Haiming Lan Tianyu Liu |
author_facet | Huanbao Liu Huixing Zhou Haiming Lan Tianyu Liu |
author_sort | Huanbao Liu |
collection | DOAJ |
description | 3D bioprinting has shown great promise in the field of tissue engineering, which offers a vital and significant platform for organ regeneration. Therefore, an increasing focus on 3D bioprinting, coupled with a growing knowledge of cell–cell interaction and cell encapsulation, has driven researchers to discover the preferable biomaterials that enable the greatest possible to reconstruct artificial organs with the different cells and hydrogel. One important challenge is to adapt materials selected to improve the cell survival rate. In this paper, we firstly summarise the fundamentals and the latest application of biomaterials that have significant characteristics such as porous, biodegradability, biological compatibility, and adaptability, and further describe formation mechanisms of droplet under the different cell encapsulation technologies, and finally highlight integration application of cell encapsulation and 3D bioprinting. |
first_indexed | 2024-03-11T23:03:45Z |
format | Article |
id | doaj.art-90de2725512a4266b60ed6d3307d9a68 |
institution | Directory Open Access Journal |
issn | 1745-2759 1745-2767 |
language | English |
last_indexed | 2024-03-11T23:03:45Z |
publishDate | 2017-10-01 |
publisher | Taylor & Francis Group |
record_format | Article |
series | Virtual and Physical Prototyping |
spelling | doaj.art-90de2725512a4266b60ed6d3307d9a682023-09-21T13:56:59ZengTaylor & Francis GroupVirtual and Physical Prototyping1745-27591745-27672017-10-0112427928910.1080/17452759.2017.13380651338065Organ regeneration: integration application of cell encapsulation and 3D bioprintingHuanbao Liu0Huixing Zhou1Haiming Lan2Tianyu Liu3College of Engineering, China Agricultural UniversityCollege of Engineering, China Agricultural UniversityCollege of Engineering, China Agricultural UniversityCollege of Engineering, China Agricultural University3D bioprinting has shown great promise in the field of tissue engineering, which offers a vital and significant platform for organ regeneration. Therefore, an increasing focus on 3D bioprinting, coupled with a growing knowledge of cell–cell interaction and cell encapsulation, has driven researchers to discover the preferable biomaterials that enable the greatest possible to reconstruct artificial organs with the different cells and hydrogel. One important challenge is to adapt materials selected to improve the cell survival rate. In this paper, we firstly summarise the fundamentals and the latest application of biomaterials that have significant characteristics such as porous, biodegradability, biological compatibility, and adaptability, and further describe formation mechanisms of droplet under the different cell encapsulation technologies, and finally highlight integration application of cell encapsulation and 3D bioprinting.http://dx.doi.org/10.1080/17452759.2017.13380653d bioprintingbiomaterialshydrogelcell encapsulationdroplets |
spellingShingle | Huanbao Liu Huixing Zhou Haiming Lan Tianyu Liu Organ regeneration: integration application of cell encapsulation and 3D bioprinting Virtual and Physical Prototyping 3d bioprinting biomaterials hydrogel cell encapsulation droplets |
title | Organ regeneration: integration application of cell encapsulation and 3D bioprinting |
title_full | Organ regeneration: integration application of cell encapsulation and 3D bioprinting |
title_fullStr | Organ regeneration: integration application of cell encapsulation and 3D bioprinting |
title_full_unstemmed | Organ regeneration: integration application of cell encapsulation and 3D bioprinting |
title_short | Organ regeneration: integration application of cell encapsulation and 3D bioprinting |
title_sort | organ regeneration integration application of cell encapsulation and 3d bioprinting |
topic | 3d bioprinting biomaterials hydrogel cell encapsulation droplets |
url | http://dx.doi.org/10.1080/17452759.2017.1338065 |
work_keys_str_mv | AT huanbaoliu organregenerationintegrationapplicationofcellencapsulationand3dbioprinting AT huixingzhou organregenerationintegrationapplicationofcellencapsulationand3dbioprinting AT haiminglan organregenerationintegrationapplicationofcellencapsulationand3dbioprinting AT tianyuliu organregenerationintegrationapplicationofcellencapsulationand3dbioprinting |