Martina Ugrinic
ETH Zurich
5 Papers
Martina Ugrinic is an academic researcher from ETH Zurich. The author has contributed to research in topics: Chemistry & Computer science. The author has an hindex of 2, co-authored 3 publications.
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Papers
Microfluidic Tools for Bottom-Up Synthetic Cellularity
TL;DR: How droplet-based microfluidic systems may be used for artificial cell and tissue synthesis and some of the latest developments in the field ofmicrofluidics that have potential use in bottom-up synthetic biology are pointed out.
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Programmable synthetic cell networks regulated by tuneable reaction rates
Adrian Zambrano,Giorgio Fracasso,Mengfei Gao,Martina Ugrinic,Dishi Wang,Dietmar Appelhans,A. deMello,T-Y Dora Tang +7 more
TL;DR: In this article , the effect of compartmentalisation on linear and autocatalytic PEN DNA reactions was investigated in a semi-permeable proteinosomes with linear and auto-catalytic reactions.
A weakly supervised deep learning approach for label-free imaging flow-cytometry-based blood diagnostics
Corin F. Otesteanu,Martina Ugrinic,Gregor Holzner,Yun-Tsan Chang,Yun-Tsan Chang,Christina Fassnacht,Christina Fassnacht,Emmanuella Guenova,Emmanuella Guenova,Stavros Stavrakis,Andrew J. deMello,Manfred Claassen +11 more
- 25 Oct 2021
TL;DR: In this article, a weakly supervised deep learning approach for label-free IFC-based blood diagnostics is presented. But this approach is not restricted to the diagnosis of Sezary syndrome.
21
Fabrication of high aspect ratio microfluidic devices for long term in vitro culture of 3D tumor models
Martina Ugrinic,Dominique Decanini,Nadège Bidan,Gianpiero Lazzari,A. Harouri,Gilgueng Hwang,Anne-Marie Haghiri-Gosnet,Simona Mura +7 more
TL;DR: In this article , the role of the height of the central chamber on the growth of heterotypic pancreatic tumor spheroids, made of cancer cells and fibroblasts, was investigated.
Microfluidic formation of proteinosomes
Martina Ugrinic,Adrian Zambrano,Simon Berger,Stephen Mann,T.-Y. Dora Tang,T.-Y. Dora Tang,Andrew J. deMello +6 more
TL;DR: A novel microfluidic method based on bovine serum albumin and glucose oxidase conjugated to PNIPAAm chains is described, which ensures that proteinosomes transferred from an oil to an aqueous-environment remain intact, become fully hydrated and exhibit an increase in average size.