基本信息
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职业迁徙
个人简介
She is the recipient of the 2017 Rosetrees Trust Interdisciplinary Award, Acta Materialia 2016 (outstanding reviewer), an European Research Council Starting Grant (2010), an Advanced EPSRC Fellowship (2005), the 2004 De Montford Award at "SET for Britain”, the Young Scientist Prize 2003 at the 5th Euromech Solid Mechanics Conference (ESMC-5), and awards from the State Scholarships Foundation, the Evgenidio Foundation and the Technical Chamber of Greece.
Research interests
A major focus of my group’s research is directed towards: (a) Vascular networks for tissue engineering. A critical obstacle for creating tissue/organs with clinically relevant dimensions is the formation of a three-dimensional, hierarchical, and perfusable vasculature. We use ECM-like hydrogel materials with various channel-forming techniques to create vascularized tissue, working towards solutions to this interdisciplinary problem. We have developed a space-filling algorithm, based on Constrained Constructive Optimization, for generation of 3D printable models of biomimetic vascular networks. (b) Scaffods for tissue engineering and the study of the various inter-relationships between scaffold architecture, mechanical properties and cell responses. (c) Brain cancer cell migration. The work is concerned with glioblastoma multiforme (GBM). It combines engineering and cell biology to develop deeper insight into tumor’s invasive capacity along blood vessels.
Research interests
A major focus of my group’s research is directed towards: (a) Vascular networks for tissue engineering. A critical obstacle for creating tissue/organs with clinically relevant dimensions is the formation of a three-dimensional, hierarchical, and perfusable vasculature. We use ECM-like hydrogel materials with various channel-forming techniques to create vascularized tissue, working towards solutions to this interdisciplinary problem. We have developed a space-filling algorithm, based on Constrained Constructive Optimization, for generation of 3D printable models of biomimetic vascular networks. (b) Scaffods for tissue engineering and the study of the various inter-relationships between scaffold architecture, mechanical properties and cell responses. (c) Brain cancer cell migration. The work is concerned with glioblastoma multiforme (GBM). It combines engineering and cell biology to develop deeper insight into tumor’s invasive capacity along blood vessels.
研究兴趣
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Alexander W. Justin, Federico Cammarata,Silas R. Estevez, Sebastian Burgess,Hongorzul Davaapil, Agavi Stavropoulou-Tatla,John Ong,Aishwarya G. Jacob,Kourosh Saeb-Parsy,Sanjay Sinha,Athina E. Markaki
biorxiv(2023)
Alexander W. Justin, Federico Cammarata,Andrew A. Guy, Silas R. Estevez, Sebastian Burgess,Hongorzul Davaapil, Agavi Stavropoulou-Tatla,John Ong,Aishwarya G. Jacob,Kourosh Saeb-Parsy,Sanjay Sinha,Athina E. Markaki
Biomaterials Advances (2023): 213245-213245
Emmeline Brown,Andrew Guy,Natalie Holroyd,Paul Sweeney, Lucie Gourmet, Hannah Coleman,Claire Walsh,Athina Markaki,Rebecca Shipley,Ranjan Rajendram,Simon Walker-Samuel
bioRxiv (Cold Spring Harbor Laboratory) (2023)
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Daniela Cruz-Moreira, Claudia F. Gomes,Sandro Queiros, Sven Terclavers,Andrew A. Guy,Athina E. Markaki,Rogerio P. Pirraco
TISSUE ENGINEERING PART Ano. 11-12 (2023): 298-299
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