Projects
New imaging modalities in high-resolution X-ray imaging Ghent University
High-resolution X-ray imaging is a technique that is increasingly popular in many areas of research. This increase is driven by new developments, in terms of hardware and software, but also by the development of new acquisition schemes. In this project, new imaging modalities will be investigated, in particular dark field imaging and ptychography, combined with innovative hardware such as hyperspectral detectors and ICS sources.
A state-of-the-art benchtop preclinical computed tomography (CT) imaging platform for translational laboratory animal imaging. Ghent University
Preclinical CT is an imaging technique that is considered as cost-effective and highly efficient for the production of three-dimensional high-resolution images of the anatomy of living animals or the internal structure of samples in a non-disruptive way. We aim to replace our broken-down CT-system with a latest-generation benchtop-device with improved characteristics. Preclinical CT has a wide range of research applications.
ULTIMO: Piezoelectric micromachined ultrasound transducers (pMUT) for the next generation of low-cost, portable and high-performance medical ultrasound imaging probes (Ultrasound Imaging on Mobile) KU Leuven
FUJIFILM VisualSonics Vevo Imaging Systems (Vevo 3100). Ultrasound imaging system Hasselt University
Development of an imaging system, for videorate superresolution imaging KU Leuven
Fluorescence microscopy is a valued tool in the life and material sciences to visualize and interpret interactions on a micro- and nanoscale level. It has led to many discoveries and is continuously improving in terms of spatial and
temporal resolution, imaging speed of large samples and the amount of information that can be retrieved from raw data. In this work we sought to improve (super-resolution) fluorescence imaging, through the ...
PET imaging of free running rats with a high resolution human scanner for simultaneous behavioral neuroscience and imaging University of Antwerp
'Molecular Imaging' meets 'Imaging Molecules' University of Antwerp
Development of Imaging Methods towards Monitoring of Cell Therapy by In Vivo Magnetic Resonance Imaging KU Leuven
Quantitative biological imaging by means of multi-nuclear magnetic resonance (NMR) imaging Ghent University
Nuclear magnetic resonance (NMR) imaging will be optimized for quantitative non-invasive charcterization and follow-up of tissue microstructure. Fluor-19 NMr will be optimized to visualize the oxygen distribution in tissue non-invasively. A hyperpolarizer for Xenon-129 will be constructed for non-invasive functional lung imaging and in the light of molecular imaging.