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team of Prof. Seppe De Schepper investigates how peripheral immune signals influence brain health and disease. We focus on tissue-resident macrophages and immune cell trafficking from periphery to brain
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single-cell and immune-profiling approaches, linked to clinical phenotyping, to discover early biomarkers and patient-stratification tools. Work side-by-side with neurologists on patient inclusion and
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to clinical readouts and α-synuclein reactivity. Use cutting-edge single-cell and immune-profiling approaches, linked to clinical phenotyping, to discover early biomarkers and patient-stratification tools. Work
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. Clinical studies have demonstrated that hereditary neuropathies can also involve muscle pathologies, complicate diagnosis and hamper therapy development. We have developed advanced in vitro cell models
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. Clinical studies have demonstrated that hereditary neuropathies can also involve muscle pathologies, complicate diagnosis and hamper therapy development. We have developed advanced in vitro cell models
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team of Prof. Seppe De Schepper investigates how peripheral immune signals influence brain health and disease. We focus on tissue-resident macrophages and immune cell trafficking from periphery to brain
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. By evaluating different quenching mechanisms (e.g., proximity-based singlet oxygen quenching and wavelength-specific energy transfer), this project seeks to develop novel insights into molecular
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life. The successful candidate will work closely with experts in food allergy, neuroimmunology, gut physiology, and computational biology to characterize immune cell responses, construct spatial maps
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interviews will be planned on 12 September 2025. If you have any questions about the online application form, please check the frequently asked questions or send an email to jobs@uantwerpen.be . If you have
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