STEM CELL HYDROGELS

3D Hydrogel Microwell Arrays to Control Cardiac Differentiation of Human Pluripotent Stem Cells in a High Throughput Manner

Coordinatore	THE UNIVERSITY OF NOTTINGHAM    more  Organization address address: University Park city: NOTTINGHAM postcode: NG7 2RD contact info Titolo: Mr. Nome: Paul Cognome: Cartledge Email: send email Telefono: +44 115 9515679
Nazionalità Coordinatore	United Kingdom [UK]
Totale costo	282˙109 €
EC contributo	282˙109 €
Programma	FP7-PEOPLE Specific programme "People" implementing the Seventh Framework Programme of the European Community for research, technological development and demonstration activities (2007 to 2013)
Code Call	FP7-PEOPLE-2013-IOF
Funding Scheme	MC-IOF
Anno di inizio	2014
Periodo (anno-mese-giorno)	2014-05-12   -   2017-05-11

 Partecipanti

#	participant	country	role	EC contrib. [€]
1	THE UNIVERSITY OF NOTTINGHAM  Organization address address: University Park city: NOTTINGHAM postcode: NG7 2RD contact info Titolo: Mr. Nome: Paul Cognome: Cartledge Email: send email Telefono: +44 115 9515679	UK (NOTTINGHAM)	coordinator	282˙109.20

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 Obiettivo del progetto (Objective)

'The research objective of the project is to develop synthetic materials to control the differentiation of human pluripotent stem cells (hPSCs) (which comprise human embryonic stem cells and induced human pluripotent stem cells) suitable for clinical use using a combination of synthetic polymer chemistry, hPSC culture and high throughput materials characterization.

This project brings together a talented researcher with experience in polymer chemistry and surface chemical analysis and a multidisciplinary research and industrial partnership in internationally leading materials discovery and cell culture technologies. The resulting training program will deliver high quality career development in the area of regenerative medicine, tissue engineering and materials science with wide applicability within the EU and internationally.

This project will aim to improve ‘start of the art’ technologies by offering an innovative array of materials that not only present a range of moduli but also a diverse range of chemistry. This will enable the identification of instructive hydrogels by controlling a range of physiochemical parameters that has not been previously explored simultaneously.'