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Modelling the development of biological structures displaying longitudinal geometries in vitro:culturing pluripotent stem cells on plasma-treated,growth factor-coupled polycaprolactone fibres

Badwi B.Boumelhem Stuart T.Fraser Syamak Farajikhah Rachel A.Shparberg Michael B.Morris Marcela M.M.Bilek Anyu Zhang Behnam Akhavan Simon Fleming Maryanne Large

Engineered Regeneration2024，Vol.5Issue(1)：P.124-138,15.

Engineered Regeneration2024，Vol.5Issue(1)：P.124-138,15.DOI:10.1016/j.engreg.2023.12.003

Modelling the development of biological structures displaying longitudinal geometries in vitro:culturing pluripotent stem cells on plasma-treated,growth factor-coupled polycaprolactone fibres

Badwi B.Boumelhem ¹Stuart T.Fraser ²Syamak Farajikhah ³Rachel A.Shparberg ⁴Michael B.Morris ⁵Marcela M.M.Bilek ⁶Anyu Zhang ⁷Behnam Akhavan ⁸Simon Fleming ⁹Maryanne Large⁹

作者信息

1. School of Physics,Faculty of Science,University of Sydney,Australia Sydney Nano Institute,University of Sydney,Australia School of Medical Sciences,Faculty of Medicine and Health,University of Sydney,Australia School of Biomedical Engineering,Faculty of Engineering,University of Sydney,Australia
2. Sydney Nano Institute,University of Sydney,Australia School of Medical Sciences,Faculty of Medicine and Health,University of Sydney,Australia School of Biomedical Engineering,Faculty of Engineering,University of Sydney,Australia
3. School of Physics,Faculty of Science,University of Sydney,Australia Sydney Nano Institute,University of Sydney,Australia School of Chemical and Biomolecular Engineering,University of Sydney,Australia School of Biomedical Engineering,Faculty of Engineering,University of Sydney,Australia
4. School of Physics,Faculty of Science,University of Sydney,Australia School of Medical Sciences,Faculty of Medicine and Health,University of Sydney,Australia
5. School of Medical Sciences,Faculty of Medicine and Health,University of Sydney,Australia
6. Sydney Nano Institute,University of Sydney,Australia School of Biomedical Engineering,Faculty of Engineering,University of Sydney,Australia
7. School of Biomedical Engineering,Faculty of Engineering,University of Sydney,Australia
8. School of Biomedical Engineering,Faculty of Engineering,University of Sydney,Australia School of Engineering,University of Newcastle,Callaghan,NSW 2308,Australia Hunter Medical Research Institute(HMRI),Precision Medicine Program,New Lambton Heights NSW 2305,Australia
9. School of Physics,Faculty of Science,University of Sydney,Australia Sydney Nano Institute,University of Sydney,Australia
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摘要

关键词

Pluripotent stem cells/Lineage commitment/Growth factors/Biomaterial engineering/Plasma-immersion ion implantation/Covalent biomolecule attachment/Polycaprolactone

分类

医药卫生

引用本文复制引用

Badwi B.Boumelhem,Stuart T.Fraser,Syamak Farajikhah,Rachel A.Shparberg,Michael B.Morris,Marcela M.M.Bilek,Anyu Zhang,Behnam Akhavan,Simon Fleming,Maryanne Large..Modelling the development of biological structures displaying longitudinal geometries in vitro:culturing pluripotent stem cells on plasma-treated,growth factor-coupled polycaprolactone fibres[J].Engineered Regeneration,2024,5(1):P.124-138,15.

基金项目

supported by the Australian Research Council Laureate and Discovery fundings[FL190100216,DP190103507 and DE210100662] （）

the University of Sydney School of Physics“Grand Challenge”program. （）

Engineered Regeneration

ISSN：2666-1381

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