Radiobiology

专业详情

The main aim of this course is to combine the principles of radiobiology at molecular and cellular level with their clinical applications, providing a thorough grounding in radiobiology for MSc students, who may go on to a research degree, to complete a medical degree, or into an industry role or allied profession.

The course is based on a series of overarching learning outcomes, which you will be able to demonstrate on completion of your studies:

• Explain the underpinning physics which governs the interactions between ionising radiation and biological tissues
• Critically analyse the effects of ionising radiation on DNA and the associated DNA damage response, with respect to their effects on cell survival
• Critically appraise the irradiation response of cells and tissues, including the factors that modify this response, with respect to how this may affect clinical practice
• Evaluate the relationship between the characteristics of the tumour microenvironment and the response of that tumour to irradiation
• Critically discuss the risks associated with radiation exposure, at the whole body and population level, and precautions which can be taken to mitigate these risks
• Critically appraise the use of novel external beam radiotherapy techniques for the treatment of cancer
• Explain the rationale and mechanisms of action of common treatments used as alternatives to, or in combination with, external beam radiotherapy for the treatment of cancer
• Explain and evaluate the research approaches used in applied and translational research within the field of radiobiology
• Apply the scientific method to address research questions within the field of radiobiology

Compulsory modules

You will take eight compulsory modules, which are delivered in two-week blocks, following on from each other:

1.  Physics of Radiation Interactions
2. Molecular Radiation Biology
3. Radiobiology of Cells and Tissues
4. Tumour Immuno-Microenvironment and Radiation Response
5. Hazards of Radiation
6. Clinical Radiation Oncology
7. Combination Therapies and Theranostics
8. Translational Research Methods and Applications

Modules one to four are delivered in Michaelmas term and build a picture of the biological responses to radiation from the sub-atomic level through to the effects on whole tissues, in both tumours and normal tissue.

Modules five to eight are delivered in Hilary term and cover the application of the underpinning principles of radiobiology in examples ranging from individual cancer patients through to whole populations in studies of radiation exposure.