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MOOC List is learner-supported. When you buy through links on our site, we may earn an affiliate commission.
The first module offers the basic principles of radiotherapy from a medical and physics point of view. You there learn about the main components of the machines used for radiotherapy and get to know why radiotherapy is important for cancer treatments.
The second module guides you through the different types of linear accelerators used in the machines for radiotherapy. It also describes the design of the treatment head. The design is important because it is the settings of the treatment head that determines the dose and the radiated region. It is also in the treatment head where the dose given to the patient is measured.
In the third module you are introduced to proton therapy. In this type of therapy protons are first accelerated and then guided down to the tumour by magnets. The machines are considerably larger and more expensive than machines used for radio therapy. The module also offers a description and comparison between different types of accelerators, and explains how the protons interact with tissue.
Also ions that are heavier than protons can be used in cancer therapy. This is described in the fourth module, where we also introduce you to the production of medical nuclides. You learn how the nuclides are produces in proton and ion accelerators and how the nuclides come into play at different places in hospitals. Medical nuclides are for instance used in Positron Electron Tomography, PET.
Enjoy!
Syllabus
WEEK 1
Introduction to the course and radiotherapy
Welcome to this course on medical applications of accelerators. The most important applications of accelerators in medicine are radiotherapy and diagnostic imaging using radionuclides, which both play a very important role in the treatment of cancer. Thus, the course focuses on these two applications of accelerators in medicine. In fact, accelerators for radiotherapy is the largest application of accelerators altogether with more than 11000 accelerators worldwide. These accelerators range from very compact electron linear accelerators with a length of only about 1 m to large carbon ion synchrotrons with a circumference of more than 50 m and a huge rotating carbon ion gantry with a weight of 600 tons. The course starts with an introduction to radiotherapy with focus on the biological properties of ionizing radiation. Subsequently, the electron linac for radiotherapy is presented. The main components of the electron linac are the multi-energy linac structure and the treatment head, which converts the electron beam to the desired dose distribution in the patient. Next, proton accelerators for radiotherapy are discussed with focus on the applied accelerator types and the treatment delivery technologies. Treatment with heavy ions and the challenges of proton and heavy ion therapy are also presented. Finally, the medical application of radionuclides are introduced and the production of radionuclides with cyclotrons is discussed.
WEEK 2
Electron linacs for radiotherapy
WEEK 3
Proton therapy I
WEEK 4
Proton therapy II and production of medical radionuclides
MOOC List is learner-supported. When you buy through links on our site, we may earn an affiliate commission.
MOOC List is learner-supported. When you buy through links on our site, we may earn an affiliate commission.