Projects
The role of functional imaging and molecular profiling in image guided highly conformal radiotherapy for head and neck cancer: towards a patient tailored treatment. KU Leuven
New challenges to many-body Green's function and advanced Dyson orbital theories: from orbital imaging to molecular quantum similarity in momentum space. Hasselt University
FWO Hercules MZW: Platform for cell analysis after radioactivity based Molecular Imaging and targeted Therapy of cancer (PeRMIT) Vrije Universiteit Brussel
Combining small animal molecular imaging with next generation neuromodulation to explore novel treatments for Obsessive Compulsive Disorder. University of Antwerp
Site-specific functionalization of Nanobodies as probes for Molecular Imaging and Therapy - Theranostic tool Vrije Universiteit Brussel
Molecular imaging of HER2 expression of breast carcinoma with radiolabeled Nanobodies Vrije Universiteit Brussel
In vivo molecular ion channel imaging. KU Leuven
Voltage gated sodium channels (NaVs) are integrally involved in the electric signalling of neurons and cardiac myocytes. Until recently, non-invasive molecular imaging technology was not available for NaVs, leading to large gaps of knowledge concerning their in vivo dynamics related to disease and interaction with drugs. With the first NaV-radiotracer for positron emission tomography in hand, this programme will pioneer the field of in vivo ...
Probe development for molecular imaging of low-voltage gated calcium channels (LTCC). KU Leuven
Normal cardiac function and regular heart rhythm are responsible for our well-being. Cardiac ion channels are pore-forming membrane proteins that orchestrate heart rhythm and contraction through myocardial action potentials. Cardiac low voltage-gated Ca2+ channels (LTCC) define the shape of the action potential in cardiomyocytes and promote excitation-contraction coupling. Previous electrophysiological in vitro studies have revealed that ...