Publicaties
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Ultrasound Molecular Imaging of Atherosclerosis With Nanobodies: Translatable Microbubble Targeting Murine and Human VCAM (Vascular Cell Adhesion Molecule) 1 Vrije Universiteit Brussel
OBJECTIVE:
Contrast-enhanced ultrasound molecular imaging (CEUMI) of endothelial expression of VCAM (vascular cell adhesion molecule)-1 could improve risk stratification for atherosclerosis. The microbubble contrast agents developed for preclinical studies are not suitable for clinical translation. Our aim was to characterize and validate a microbubble contrast agent using a clinically translatable single-variable domain immunoglobulin ...
Contrast-enhanced ultrasound molecular imaging (CEUMI) of endothelial expression of VCAM (vascular cell adhesion molecule)-1 could improve risk stratification for atherosclerosis. The microbubble contrast agents developed for preclinical studies are not suitable for clinical translation. Our aim was to characterize and validate a microbubble contrast agent using a clinically translatable single-variable domain immunoglobulin ...
Photoswitches: Key molecules for subdiffraction-resolution fluorescence imaging and molecular quantification KU Leuven
Optical microscopes, often referred to as 'light microscopes', use visible light and a system of lenses to provide us with magnified images of small samples. Combined with highly sensitive fluorescence detection techniques and efficient fluorescent probes they allow the non-invasive 3D study of subcellular structures even in living cells or tissue. However, optical microscopes are subject to the diffraction barrier of light which imposes an ...
Photoswitches: Key molecules for subdiffraction-resolution fluorescence imaging and molecular quantification KU Leuven
Optical microscopes, often referred to as 'light microscopes', use visible light and a system of lenses to provide us with magnified images of small samples. Combined with highly sensitive fluorescence detection techniques and efficient fluorescent probes they allow the non-invasive 3D study of subcellular structures even in living cells or tissue. However, optical microscopes are subject to the diffraction barrier of light which imposes an ...
Biological Carrier Molecules of Radiopharmaceuticals for Molecular Cancer Imaging and Targeted Cancer Therapy KU Leuven
Many tumors express one or more proteins that are either absent or hardly present in normal tissues, and which can be targeted by radiopharmaceuticals for either visualization of tumor cells or for targeted therapy. Radiopharmaceuticals can consist of a radionuclide and a carrier molecule that interacts with the tumor target and as such guides the attached radionuclide to the right spot. Radiopharmaceuticals hold great promise for the future of ...
Biological carrier molecules of radiopharmaceuticals for molecular cancer imaging and targeted cancer therapy Vrije Universiteit Brussel
Many tumors express one or more proteins that are either absent or hardly present in normal tissues, and which can be targeted by radiopharmaceuticals for either visualization of tumor cells or for targeted therapy. Radiopharmaceuticals can consist of a radionuclide and a carrier molecule that interacts with the tumor target and as such guides the attached radionuclide to the right spot. Radiopharmaceuticals hold great promise for the future of ...
Accurate molecular imaging of small animals taking into account animal models, handling, anaesthesia, quality control and imaging system performance Universiteit Gent
Magnetic resonance imaging and spectroscopy methods for molecular imaging KU Leuven
Magnetic resonance imaging (MRI), one of the most powerful imaging modalities available for clinical diagnosis, has contributed significantly to phenotyping of transgenic organisms and to cellular imaging and is now gaining importance in the field of molecular imaging. Its advantage is the ability to provide in vivo information with high resolution and good soft tissue contrast as compared to established other molecular imaging methods. MRI can ...