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dc.contributor.author
Zhang, Jianhua
dc.contributor.author
Wehrle, Esther
dc.contributor.author
Rubert, Marina
dc.contributor.author
Müller, Ralph
dc.date.accessioned
2021-04-20T05:36:44Z
dc.date.available
2021-04-17T03:00:29Z
dc.date.available
2021-04-20T05:36:44Z
dc.date.issued
2021-04
dc.identifier.issn
1422-0067
dc.identifier.other
10.3390/ijms22083971
en_US
dc.identifier.uri
http://hdl.handle.net/20.500.11850/479151
dc.identifier.doi
10.3929/ethz-b-000479151
dc.description.abstract
The field of tissue engineering has progressed tremendously over the past few decades in its ability to fabricate functional tissue substitutes for regenerative medicine and pharmaceutical research. Conventional scaffold‐based approaches are limited in their capacity to produce constructs with the functionality and complexity of native tissue. Three‐dimensional (3D) bioprinting offers exciting prospects for scaffolds fabrication, as it allows precise placement of cells, biochemical factors, and biomaterials in a layer‐by‐layer process. Compared with traditional scaffold fabrication approaches, 3D bioprinting is better to mimic the complex microstructures of biological tissues and accurately control the distribution of cells. Here, we describe recent technological advances in bio‐fabrication focusing on 3D bioprinting processes for tissue engineering from data processing to bioprinting, mainly inkjet, laser, and extrusion‐based technique. We then review the associated bioink formulation for 3D bioprinting of human tissues, including biomaterials, cells, and growth factors selection. The key bioink properties for successful bioprinting of human tissue were summarized. After bioprinting, the cells are generally devoid of any exposure to fluid mechanical cues, such as fluid shear stress, tension, and compression, which are crucial for tissue development and function in health and disease. The bioreactor can serve as a simulator to aid in the development of engineering human tissues from in vitro maturation of 3D cell‐laden scaffolds. We then describe some of the most common bioreactors found in the engineering of several functional tissues, such as bone, cartilage, and cardiovascular applications. In the end, we conclude with a brief insight into present limitations and future developments on the application of 3D bioprinting and bioreactor systems for engineering human tissue.
en_US
dc.format
application/pdf
en_US
dc.language.iso
en
en_US
dc.publisher
MDPI
en_US
dc.rights.uri
http://creativecommons.org/licenses/by/4.0/
dc.subject
tissue engineering
en_US
dc.subject
3D bioprinting
en_US
dc.subject
bioink
en_US
dc.subject
bioreactor
en_US
dc.title
3d bioprinting of human tissues: Biofabrication, bioinks and bioreactors
en_US
dc.type
Review Article
dc.rights.license
Creative Commons Attribution 4.0 International
dc.date.published
2021-04-12
ethz.journal.title
International Journal of Molecular Sciences
ethz.journal.volume
22
en_US
ethz.journal.issue
S 8
en_US
ethz.journal.abbreviated
Int. j. mol. sci.
ethz.pages.start
3971
en_US
ethz.size
21 p.
en_US
ethz.version.deposit
publishedVersion
en_US
ethz.identifier.wos
ethz.identifier.scopus
ethz.publication.place
Basel
en_US
ethz.publication.status
published
en_US
ethz.leitzahl
ETH Zürich::00002 - ETH Zürich::00012 - Lehre und Forschung::00007 - Departemente::02070 - Dep. Gesundheitswiss. und Technologie / Dep. of Health Sciences and Technology::02518 - Institut für Biomechanik / Institute for Biomechanics::03565 - Müller, Ralph / Müller, Ralph
en_US
ethz.leitzahl.certified
ETH Zürich::00002 - ETH Zürich::00012 - Lehre und Forschung::00007 - Departemente::02070 - Dep. Gesundheitswiss. und Technologie / Dep. of Health Sciences and Technology::02518 - Institut für Biomechanik / Institute for Biomechanics::03565 - Müller, Ralph / Müller, Ralph
en_US
ethz.date.deposited
2021-04-17T03:00:34Z
ethz.source
SCOPUS
ethz.eth
yes
en_US
ethz.availability
Open access
en_US
ethz.rosetta.installDate
2021-04-20T05:36:56Z
ethz.rosetta.lastUpdated
2022-03-29T06:39:23Z
ethz.rosetta.versionExported
true
ethz.COinS
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