3D bioprinting: Lipid‐bilayer‐supported 3D printing of human cerebral cortex cells reveals developmental interactions (Adv. Mater. 31/2020)

3D bioprinting: Lipid‐bilayer‐supported 3D printing of human cerebral cortex cells reveals developmental interactions (Adv. Mater. 31/2020)

Current understanding of brain development, derived from suboptimal in vitro and animal models, is rudimentary. In article number 2002183, Francis G. Szele, Hagan Bayley, and co‐workers introduce a means to print human neural cells in a soft, biocompatible extracellular matrix. The approach provides...

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Main Authors: Zhou, L, Wolfes, AC, Li, Y, Chan, DCW, Ko, H, Szele, FG, Bayley, H
格式: Journal article
语言:English
出版: Wiley 2020
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author Zhou, L
Wolfes, AC
Li, Y
Chan, DCW
Ko, H
Szele, FG
Bayley, H
author_facet Zhou, L
Wolfes, AC
Li, Y
Chan, DCW
Ko, H
Szele, FG
Bayley, H
author_sort Zhou, L
collection OXFORD
description Current understanding of brain development, derived from suboptimal in vitro and animal models, is rudimentary. In article number 2002183, Francis G. Szele, Hagan Bayley, and co‐workers introduce a means to print human neural cells in a soft, biocompatible extracellular matrix. The approach provides precise, customizable construction of natural and unnatural patterns of cells, and yields important insights into the development of the human cerebral cortex.
first_indexed 2024-03-06T18:22:18Z
format Journal article
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institution University of Oxford
language English
last_indexed 2024-03-06T18:22:18Z
publishDate 2020
publisher Wiley
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spelling oxford-uuid:06b6c984-66a2-4f3e-a1fe-f4f1411a037d2022-03-26T09:03:57Z3D bioprinting: Lipid‐bilayer‐supported 3D printing of human cerebral cortex cells reveals developmental interactions (Adv. Mater. 31/2020)Journal articlehttp://purl.org/coar/resource_type/c_dcae04bcuuid:06b6c984-66a2-4f3e-a1fe-f4f1411a037dEnglishSymplectic ElementsWiley2020Zhou, LWolfes, ACLi, YChan, DCWKo, HSzele, FGBayley, HCurrent understanding of brain development, derived from suboptimal in vitro and animal models, is rudimentary. In article number 2002183, Francis G. Szele, Hagan Bayley, and co‐workers introduce a means to print human neural cells in a soft, biocompatible extracellular matrix. The approach provides precise, customizable construction of natural and unnatural patterns of cells, and yields important insights into the development of the human cerebral cortex.
spellingShingle Zhou, L
Wolfes, AC
Li, Y
Chan, DCW
Ko, H
Szele, FG
Bayley, H
3D bioprinting: Lipid‐bilayer‐supported 3D printing of human cerebral cortex cells reveals developmental interactions (Adv. Mater. 31/2020)
title 3D bioprinting: Lipid‐bilayer‐supported 3D printing of human cerebral cortex cells reveals developmental interactions (Adv. Mater. 31/2020)
title_full 3D bioprinting: Lipid‐bilayer‐supported 3D printing of human cerebral cortex cells reveals developmental interactions (Adv. Mater. 31/2020)
title_fullStr 3D bioprinting: Lipid‐bilayer‐supported 3D printing of human cerebral cortex cells reveals developmental interactions (Adv. Mater. 31/2020)
title_full_unstemmed 3D bioprinting: Lipid‐bilayer‐supported 3D printing of human cerebral cortex cells reveals developmental interactions (Adv. Mater. 31/2020)
title_short 3D bioprinting: Lipid‐bilayer‐supported 3D printing of human cerebral cortex cells reveals developmental interactions (Adv. Mater. 31/2020)
title_sort 3d bioprinting lipid bilayer supported 3d printing of human cerebral cortex cells reveals developmental interactions adv mater 31 2020
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