|Teaching method||Contact hours|
|Course coordinator(s)||dr. R Tennekes|
|prof. dr. MM van Oers|
|prof. dr. ir. HFJ Savelkoul|
|Examiner(s)||dr. R Tennekes|
Language of instruction:
ZSS06100 Laboratory Safety
Assumed knowledge on:
CBI-10306 Cell Biology (BBI, BBT, BML, BPW, BVG) or CBI-10806 (BAS, BFT).
CBI-30306 Human and Veterinary Immunology;
TOX-30306 Food Toxicology;
TOX-30806 Environmental Toxicology;
VIR-30306 Molecular Virology;
VIR-30806 Fundamental and Applied Virology.
Note: This course can not be combined in an individual program with VIR-20803 Human infectious diseases.
This course overlaps with VIR-20803, CBI-20803 and TOX-20303. Therefore, combining this course with VIR-20803 or CBI-20803 or TOX-20303 is not allowed.
Study year 2020_21 will be the last year the course is given. For study year 2021_22 a set of two or three individual courses will be given. Study year 2021_22 will be the last year the exam can still be taken.
Each organism lives in a continuous interaction with its environment. This interaction is of vital importance for the organism, but at the same time can be a threat. Therefore each organism must have the right strategy to survive different abiotic and biotic threats. In this introductory course several mechanisms important for the damage to or recovery of mammalian cells will be discussed and a variety of human and animal health problems (in particular different forms of cancer) will be considered. Special attention will be paid to the cell biological, immunological, toxicological and virological aspects of these health problems.
After successful completion of this course students are expected to be able to:
- understand the basic principles in immunology and mechanisms modulating the immune response, among which suppression by viruses and toxic agents, stimulation by vaccines and toxic agents and immunological disturbances;
- understand the basic principles in virology and mechanisms underlying viral infections and the subsequent diseases, among which influenza, hiv, classical swine fever and cancer;
- understand the basic principles in toxicological risk assessment and mechanisms underlying adverse health effects caused by toxic agents with emphasis on cancer, immunotoxicity and developmental and reproductive toxicity;
- critically read and summarize literature and finally draw recommendations and clarify your opinion with respect to the given topic in written and oral form;
- understand key immunological, toxicological and virological aspects of cell biological health problems in humans and in animals;
- apply cell biological techniques including immunocytochemistry, flow cytometry and measurement of respiratory burst activity with the aim to understand the basic principles of immunology;
- apply cell biological techniques including cell culture, light microscopy, cytochemistry, electrophoresis and Western blot analysis with the aim to understand the basic principles of virology;
- apply cell biological techniques including in vitro cell culture and bio-assay analysis with the aim to understand the basic principles of toxicology.
The course can be divided in 3 parts:
- 24 lectures (3 credits);
- a scientific case, in which small groups compose a poster and pitch on an individual subject related to cancer for final presentation (1.8 credits);
- a practical course, in which a variety of techniques will be applied (1.2 credits).
- computer-based exam with 60 multiple choice questions (80%);
- groupwork (poster, abstract, presentation) (20%);
- each component requires a minimum mark of 5.0 to pass;
- a final minimal mark of 5.5 is required.
A reader for the lectures and the practical course will be for sale at the WUR-shop.
For the case studies information will be supplied.
|Compulsory for:||BAS||Animal Sciences||BSc||B: Spec. B - Biological Functioning of Animals||3WD|
|Restricted Optional for:||BBT||Biotechnology||BSc||3WD|
|MES||Environmental Sciences||MSc||A: Spec. A - Environmental Quality||3WD|