Projects
Multidimensional analysis of the nervous system in health and disease (µNeuro). University of Antwerp
Development of an interdisciplinary platform for spatial multi-omic analysis of single cells KU Leuven
Center for 4D quantitative X-ray imaging and analysis (DynXlab). University of Antwerp
Spectral Pathology: Optimizing Wavelength Selection for Enhanced Hyperspectral Artificial Staining in Pathological Analysis. University of Antwerp
AQ²UABIT – Advanced Qualitative and QUantitative surface Analysis of BITuminous binders using laser scanning confocal microscopy. University of Antwerp
Organoid painting: Unbiased cellular phenotyping of human tissue mimics using deep learning-enhanced imaging and analysis. University of Antwerp
Development and application of advanced X-ray imaging methodologies for the analysis of unique extra-terrestrial materials Ghent University
In various scientific disciplines (e.g. cosmo- and geochemistry, environmental sciences, toxicology and biomedicine), there is a strong demand to develop techniques that enable linking the (quantitative) spatial distribution of chemical elements within the investigated materials to their three-dimensional (3D) internal morphology/structure down to nanoscopic resolution levels. This project will significantly advance non-destructive 3D ...
Flow imaging microscope for advanced analysis of biopharmaceuticals and biological samples Ghent University
For various reasons, microscopic particles (1-100 µm) can form in protein, nucleic-acid or cell-based medicines. Such particles (such as aggregated proteins) can be very dangerous and, among other things, provoke very severe immunological side reactions in patients. Therefore, the design and development of biopharmaceuticals require careful analysis/understanding of the origin of these particles. Flow imaging microscopy (FIM) is an essential ...