Quantitative radiology
Quantitative radiology revolutionizes medical imaging by enabling precise, data-driven diagnostics and personalized treatment through advanced quantification techniques.
Physics
Radiation biodistribution studies
Radiation biodistribution involves how radioactive materials distribute in organisms, impacting diagnostics and treatments in nuclear medicine.
Rhenium-188 based therapies
Explore the uses and benefits of Rhenium-188, a powerful beta-emitting radioisotope in nuclear medicine, particularly for cancer treatment and palliative care.
Viscous sublayer
Explore the viscous sublayer in fluid mechanics: its properties, functions, and stability, and its impact on engineering and research.
PET for cancer prognosis
A PET scan is a nuclear medicine imaging technique that uses radiotracers to visualize organ and tissue function, playing a crucial role in diagnosing and managing cancer.
Radiopharmaceutical safety and regulations
Essential rules and guidelines on safely handling radiopharmaceuticals in nuclear medicine.
3D radiation dosimetry
Understanding 3D radiation dosimetry: essential techniques for measuring and mapping radiation doses in three dimensions, broadly employed in radiation therapy.
Radioactive glass beads in cancer treatment
Radioactive glass beads are used in radioembolization to target cancer cells with high doses of radiation, minimizing damage to surrounding healthy tissue.
Radiometabolic therapy
Radiometabolic therapy uses radioactive substances to target and destroy cancer cells, minimizing damage to healthy tissue.
PET in neurodegenerative disease research
Learn how PET Imaging uses radiotracers to study brain changes in neurodegenerative diseases like Alzheimer’s and Parkinson’s.