NBIA08004U Evolutionary Medicine
Basic concepts in Evolutionary Medicine: The history and variation of human genes and their global spatial patterns; medically relevant genomic variation of human populations; genetic variation for alcoholism and lactose intolerance; genetic conflicts in pregnancy and childhood; MHC variation and immunity, spontaneous abortions and mate choice; pathogen (social) evolution and biofilms; development and dissimination of bacterial resistance to antibiotics; virulence evolution in general and in response to vaccines; population structure and genomic variation in bacteria and viruses; emerging diseases; non-infectious and degenerative disease, including the evolution of aging; lifestyle, diet and disease; cancer as an evolutionary process.
To give students a thorough understanding of the issues in medical research and practice where evolutionary thought adds a demonstrably useful perspective. Students will gain a detailed perception of the ways in which natural selection, random events and history have shaped humans and their pathogens. The course will help students to integrate evolutionary and molecular approaches. Students completing the course will be able to:
- explain important concepts and current hypotheses in evolutionary medicine
- evaluate the impact of selection, drift and history on humans and pathogens
- describe medically relevant genetic variation in humans and pathogens
- explain the significance of reproductive conflicts between mother, father and child for medical issues in pregnancy
- explain the evolution of antibiotic resistance and pathogen virulence
- explain cancer and aging as evolutionary processes
- independently retrieve and organize information from the scientific literature
- present and discuss original scientific papers and reviews in evolutionary medicine.
Knowledge:
By completing the course the student will be able to understand and reflect on:
- the history and variation of human genes and their global spatial patterns
- medically relevant genomic variation of human populations
- genetic variation for alcoholism and lactose intolerance
- genetic conflicts in pregnancy and childhood
- MHC variation and immunity, spontaneous abortions and mate choice
- pathogen (social) evolution and biofilms
- development and dissimination of bacterial resistance to antibiotics
- virulence evolution in general and in response to vaccines
- population structure and genomic variation in bacteria and viruses
- emerging diseases; non-infectious and degenerative disease, including the evolution of aging
- lifestyle, diet and disease; cancer as an evolutionary process.
Skills:
To give students a thorough understanding of the issues in medical research and practice where evolutionary thought adds a demonstrably useful perspective. Students will gain a detailed perception of the ways in which natural selection, random events and history have shaped humans and their pathogens. The course will help students to integrate evolutionary and molecular approaches.
Competencies
By completing the course the student can:
- explain important concepts and current hypotheses in evolutionary medicine
- evaluate the impact of selection, drift and history on humans and pathogens
- describe medically relevant genetic variation in humans and pathogens
- explain the significance of reproductive conflicts between mother, father and child for medical issues in pregnancy
- explain the evolution of antibiotic resistance and pathogen virulence
- explain cancer and aging as evolutionary processes
- independently retrieve and organize information from the scientific literature
- present and discuss original scientific papers and reviews in evolutionary medicine
- present a coherent essay on a specific topic in this field of study
See Absalon.
- Category
- Hours
- Colloquia
- 27
- Exam
- 30
- Lectures
- 36
- Preparation
- 93
- Project work
- 20
- Total
- 206
- Credit
- 7,5 ECTS
- Type of assessment
- Oral examinationIndividual oral examination with preparation. The first part of the exam is a discussion of a question handed out just before the oral exam. The second part consists of questions based on the material covered in the course compendium and lectures. The exam lasts for 25 minutes in total.
- Exam registration requirements
- To participate in the exam you are obligated to attend 80% of the classes and hand in a 2-page essay.
- Marking scale
- 7-point grading scale
- Censorship form
- No external censorship
Criteria for exam assesment
To achieve the grade 12 the student must give an excellent performance displaying a high level of command of all aspects of the relevant material, with no or only a few minor weaknesses.
Course information
- Language
- English
- Course code
- NBIA08004U
- Credit
- 7,5 ECTS
- Level
- Full Degree Master
- Duration
- 1 block
- Placement
- Block 3
- Schedule
- B (Mon 8-12 + Tues 13-17 + Fri 8-12)
- Course capacity
- 50 students
- Continuing and further education
- Study board
- Study Board of Biology and Animal Science
Contracting department
- Department of Biology
Course responsibles
- Jacobus Jan Boomsma (9-73736b7878767c766a496b727837747e376d74)
Lecturers
Professor Tom Gilbert, Associate Professor Mette Burmølle, Professor Søren J. Sørensen, Professor Jacobus J. Boomsma and guest lecturers.