725 search results for “strw cell technology” in the Student website
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Sander van Kasteren -
Maria-Lucia RebreanFaculteit der Rechtsgeleerdheid
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Gerrit-Jan ZwenneFaculteit der Rechtsgeleerdheid
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Jeroen Codee -
Li-Ru Hsu -
Gera van DuijvenvoordeFaculteit der Rechtsgeleerdheid
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Hans FrankenFaculteit der Rechtsgeleerdheid
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Rose BieszczadFaculty of Social and Behavioural Sciences
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Leon Aarts -
Robert Tijssen
Faculty of Social and Behavioural Sciences
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Stan van Boeckel -
Evert de Jonge -
Susana Chuva de Sousa Lopes -
Tanya LeeFaculty of Social and Behavioural Sciences
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Bobby Florea -
Nanou van IerselFaculteit der Rechtsgeleerdheid
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Andrew Webb -
Ron DirisFaculteit der Rechtsgeleerdheid
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Rachel WilliamsFaculty of Social and Behavioural Sciences
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Rob Pelger -
Camiel Boon -
Leila Akkari -
Nic van der Wee -
Alexander Vahrmeijer -
Laurens HesselsFaculty of Social and Behavioural Sciences
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Anestis AmanatidisFaculty of Social and Behavioural Sciences
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F Jansen -
Patricia Garcia FernandezFaculteit der Rechtsgeleerdheid
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David van Westerloo -
Margaret GoldLURIS
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Qianqian XieFaculty of Social and Behavioural Sciences
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Erik Klok -
Eric ScharesFaculty of Social and Behavioural Sciences
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Inge van der WeijdenFaculty of Social and Behavioural Sciences
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Judit VargaFaculty of Social and Behavioural Sciences
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Agur Sevink -
Jochem ZuijderwijkFaculty of Social and Behavioural Sciences
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Nees Jan van EckFaculty of Social and Behavioural Sciences
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Andrew HoffmanFaculty of Social and Behavioural Sciences
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Rosemarijn de Ruiter -
Daniël Pijnappels -
Jeanin van Hooft -
Huilin Ge -
A mathematical three-step rocket helps biologists study tumour blood vessels
Koen Keijzer combined three mathematical models into one unified system capable of making meaningful predictions about how cells form blood vessels. This helps biologists studying the chaotic, leaky blood vessels found in and around tumours.
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Finally solved: how the body's own marijuana spreads through the brain
Since its discovery thirty years ago, it remained a mystery: how does the body’s own marijuana move between nerve cells in the brain? Mario van der Stelt and his research group have now uncovered the answer. This insight could aid the development of new treatments for pain and neurological disorders…
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ERC grant for Sebastian Pomplun to precisely influence gene expression
In order to stop a whole range of diseases or disorders at their source, you would have to be able to switch certain genes on or off. Sebastian Pomplun wants to develop substances that can do this very precisely. For example, he wants to disrupt cancer processes and make cells produce an important missing…
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Can Parkinson's be stopped by unravelling protein fibres? Anne Wentink finds out with a Vidi grant from NWO
In brain diseases such as Parkinson's and Alzheimer's, proteins clump together to form fibres. ‘Chaperone proteins’ unravel those fibres, but in the test tube biochemist Anne Wentink saw that this can also cause new problems. She is going to find out what happens inside cells to determine what a drug…
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Building the best possible mini-liver (without making it too complex)
How do organs work in the body, and how can we create mini-organs to study diseases and test new medicines? That’s the idea behind organ-on-a-chip technology. During his PhD, Flavio Bonanini worked on developing the best possible mini-livers. ‘Make them as simple as possible, and as complex as neede…
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LUMC researchers use viruses to fight prostate cancer
Modified viruses can both kill cancer cells and activate the immune system. This is what an LUMC team discovered while researching a new prostate cancer therapy.
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Grants for fundamental research in Leiden
Three fundamental research projects at Leiden in physics, chemistry and medical science have received funding from the Dutch Research Council (NWO). They involve research on magnetic fields in the universe, the role of myeloid cells in cancer immunotherapy and the evolution of ancient proteins.