The course starts with a history of the first treatments of cancer with ionizing radiation and with some references to radiation-matter interaction processes. It is then described the production of photon, electron and hadron beams: form X-ray tubes to linear/circular accelerators.
Then the course highlights on:
• methods of measurement and calculation of the dose in a homogeneous and inhomogeneous medium (from Bragg–Gray cavity theory to modern dosimeters)
• analysis of dose distributions with definitions and related parameters
• treatment plans with photon beams in both homogeneous and anthropomorphic phantoms with hints to 3DCRT, IMRT, VMAT, IGRT, ART techniques. Highlights on the most modern delivery systems.
• methods for evaluation and comparison of treatments with particular reference to international protocols (ICRU reports).
• features and radiotherapy procedures with electron beams
• features and radiotherapy procedures with hadron beams (p and C)
• notes on radiobiology applied to radiotherapy with assessing the growth and proliferation of cancer cells, dose-response and dose-time, linear quadratic model and the response and tolerance of healthy tissue to radiation
• notes on Brachytherapy: sources, main methods of calculation of the dose and treatment techniques