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 TERMINÉ 
Embryonic stem (ES) cells have the potential to differentiate into any type of cell as well as to renew indefinitely in culture. They hold great potential for the development of personalized medicines. However, the molecular mechanisms underpinning cell fate decisions by individual cells are poorly understood. There is compelling evidence that two large multi-protein machines, the Nucleosome Remod ...
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 13

 TERMINÉ 
This project will focus on the production of an in vitro human disease tissue platform technology to enable and accelerate the development of regenerative medicine therapies for a diverse range of diseases. The concept will be realised by the in vitro generation of 3D human tissues cultured from human induced Pluripotent Stem (iPS) cells. Initially a library of adult cells will be generated from p ...
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 5

 TERMINÉ 
The CardioNeT Initial Training Network aims to implement a highly multidisciplinary, intersectoral and competitive training programme in cardiovascular research through cutting-edge projects and extensive training in complementary areas.CardioNeT training comprises two tightly linked components - research and complementary training - that will be implemented at local as well as network level and ...
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 13

 TERMINÉ 

Embryonic Stem cell-based Novel Alternative Testing Strategies (ESNATS)

Date du début: 1 avr. 2008, Date de fin: 30 sept. 2013,

"ESNATS aims at developing a novel toxicity test platform based on embryonic stem cells (ESC), especially human ESC (hESC), to accelerate drug development, reduce R&D costs and propose a powerful alternative to animal tests (3 Rs). ESNATS will address current drug-testing shortcomings: - testing takes place late in the development cycle - animal test systems bear the risk of non-prediction due to ...
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 34

 TERMINÉ 

High yield and performance stem cell lab (Hyperlab)

Date du début: 1 sept. 2009, Date de fin: 31 août 2012,

The success of stem cell therapy is highly dependent on a safe and reliable supply of human stem cells and stem cell-derived differentiated cells, which must be assured by efficient and robust culture methods. Current culture of human embryonic and adult stem cells is not optimised (with regards to e.g. media, growth factors, supporting biomaterials, differentiation techniques) and is far from ful ...
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 9