The course provides an overview of (1) radiobiological and physical principles of radiation oncology, (2) technical innovation in precision radiotherapy, and (3) the route of the radiotherapy patient – via diagnosis, imaging and treatment planning – to therapy.
The course provides an overview of (1) radiobiological and physical principles of radiation oncology, (2) technical innovation in precision radiotherapy, and (3) the route of the radiotherapy patient – via diagnosis, imaging and treatment planning – to therapy.
Topics that will be addressed: effects of irradiation on the DNA and on cellular biology; radiation response of tumours and normal tissues; physics of modern conformal radiotherapy; imaging; treatment planning; fractionation and hypofractionation; particle irradiation; image-guided radiotherapy; brachytherapy; combination treatment with chemotherapy and targeted agents, hyperthermia and immunotherapy; treatment of breast cancer, lung cancer, gynaecological and head & neck tumours; quality of life and late effects. New and exciting developments in radiation oncology will be addressed. The course encompasses three practical trainings: (1) the radiobiology laboratory (2) computer-based target volume delineation (3) patient treatment simulation on a linear accelerator.
Registration deadline: May 9, 2022
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| Location: | AMC and NKI |
| Costs: | Free of charge for OOA/CCA PhD students |
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| Register now |
| Contact | Esther Ruhé (e.ruhe@amsterdamumc.nl) |
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