25 hrs lectures
25 hrs preparation/self-study
100 hrs written assignment
Compulsory educational activities
Lectures (80% attendance)
Written assignment
Prerequisites
basic principles of radiation protection (eg. KJM350 or similar)
Exam
O
Assessment methods
The students will prepare a written assignment on a choice of topics.
The assigment will require self-study and should be handed in 3 weeks after completion of the lectures
Grading
Pass/Fail
Nominal workload
150 hrs
Course frequency
Odd years
Comment on frequency
-
Teaching methods
This course will examine current radiobiology after introducing a historical perspective. The various concepts of radiobiology (such as target theory) will be introduced as problems for the class to discuss. Following the class discussion and the production of a hypothesis, the classical solutions and work in this area will be discussed. Repetition of this approach will allow students to become immersed in the topic, and will encourage them to derive the fundamental tenets of radiobiology for themselves. Using this approach to radiobiology also allows the natural flow towards modern paradigm shifts, and the view that radiation should not be regarded in isolation in terms of environmental stress. The course will then deal with the interaction between radiobiology and radioecology and in particular how the new radiobiological paradigms involving concepts of non-targeted effects mechanisms such as genomic instability and bystander effects, may alter the fundamental tenets on which radiation and environmental protection are based. Attention will also be paid to conflicts this raises between scientific and legislative approaches to radiation, and some examples from Canada will be discussed.
Examiner
External examiner will control the quality of the assigments
Entrance requirements
Minimum requirements for entrance to higher education in Norway (generell studiekompetanse)
The course is offered first time
2010 Autumn
Objective of course
The aim of the course is to give students an introduction to the fundamental principles of radiobiology, within the context of research fields on radioecology and the environmental effects of radiation. As such the course will cover both the history and the state-of-the-art of our knowledge on the biological effects of radiation on humans, and how this relates to other effects seen in non-human organisms. Areas covered include fundamental radiobiology, biological responses to ionising radiation, the use of biomarkers and toxicogenomics, factors linked to differences in radiation sensitivity, non-targeted effects (bystander, genomic instability, adaptive response, etc.,) and multiple stressors.
Course contents
The course is based on a weeks intensive lectures. Students are expected to have read and prepared from the pensum beforehand. One afternoon will include lab demonstration of some of the biomarker methods.
An additional indepth self-study on a selected topic will be required for the written assignment.
Syllabus
Course book:
Eric Hall 'Radiobiology for the Radiologist'
Selected articles (available as a compendium)from:
Essentials of Environmental Toxicology, by W Hughes, publ Taylor and Francis
In vitro methods in aquatic toxicology Mothersill and Austin – publ Praxis Fundamentals of Aquatic Toxicology Rand, publ Taylor and Francis
Multiple stressors a challenge for the future, Proc. NATO ARW eds Mothersill, Mosse and Seymour Publ Springer
Last updated
2010-03-29
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