Gui Zhen Teoh
University College London
5 Papers
9 Citations
Gui Zhen Teoh is an academic researcher from University College London. The author has contributed to research in topics: Tissue engineering & Medicine. The author has an hindex of 5, co-authored 5 publications. Previous affiliations of Gui Zhen Teoh include Royal Free London NHS Foundation Trust & London Centre for Nanotechnology.
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Papers
A comparison of tracheal scaffold strategies for pediatric transplantation in a rabbit model.
Elizabeth F. Maughan,Elizabeth F. Maughan,Colin R. Butler,Colin R. Butler,Claire Crowley,Gui Zhen Teoh,Margot Den Hondt,Nicholas Hamilton,Nicholas Hamilton,Robert E. Hynds,Peggy Lange,Tahera Ansari,Luca Urbani,Sam M. Janes,Paolo De Coppi,Martin A. Birchall,Martin J. Elliott +16 more
TL;DR: There would be no difference in morbidity and mortality between three competing scaffold strategies in rabbits according to which may be superior in vivo.
Development of resorbable nanocomposite tracheal and bronchial scaffolds for paediatric applications
TL;DR: Advances in stem cell technology, tissue engineering and material sciences have inspired the development of a resorbable, nanocomposite tracheal and bronchial scaffold.
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•Journal Article
Role of nanotechnology in development of artificial organs.
TL;DR: This review aims to delineate the advantages of incorporating nanotechnology, as an individual entity or as a part of a construct for the development of tissue engineering scaffolds and/or artificial organs, and unravel the mechanisms of tissue cell-biomaterial interactions at the nanoscale, allowing for better progress in the development and optimization of unique nanoscales surface features for a wide range of applications.
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3D bioprinting for tissue engineering: Stem cells in hydrogels
Nazia Mehrban,Gui Zhen Teoh,Martin A. Birchall +2 more
- 01 Jan 2016
TL;DR: 3D bioprinting offers precision control as well as the ability to incorporate biological cues and cells directly into the material as it is being fabricated, which is crucial in building more complex systems that morphologically and functionally mimic in vivo tissue.
Tissue Engineered Airways: A Prospects Article.
TL;DR: This article aims to highlight advances in airway tissue engineering and provide an overview of areas to explore and utilize in accomplishing the aim of developing an ideal tracheal prosthesis.