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structure and function, and translate these insights into genotype-specific therapeutic strategies. Your colleagues: An interdisciplinary team within the Heart Failure Research group (Prof. Stephane Heymans
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Protection and Explosive Safety. The department is part of the TNO unit Defence, Safety & Security. This project is a follow up of our previous published work on traumatic brain injury: https://www.nature.com
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candidates will join a highly collaborative, interdisciplinary environment, working with experts in oncology, neurology, cell biology, bioinformatics, and clinical research. Access to unique datasets, cutting
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investigate how glycan structures affect immune responses in peritoneal metastasis and whether glycan inhibition can restore anti-tumor immunity. You will: investigate how tumor-associated glycan structures
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therapies. You will work in a highly interdisciplinary setting, bringing together vascular biology, genetics, tissue engineering and clinical research. Within FHML and the HVC–CARIM platform, you will
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of intercontinental interactions, multilingual practices, and the broader mechanisms of power structures through the lens of language. The PhD position This doctoral research project will examine how communicative
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microbubbles can map microvascular dynamics but is limited to assessing intravascular flow and structure. Nanobubbles, capable of penetrating the tumor microvasculature and targeting cancer-specific biomarkers