Københavns Universitet - Kurser

SVEK13010U Biomedicine

Volume 2013/2014

MSc Programme in Veterinary Medicine - semi-compulsory

The course includes modules of laboratory animal science, experimental design, in vivo pharmacology, gentics and toxicology and histopathology as well as a range of laboratory methods complementing in vivo experiments. In parallel theoretical and practical aspects of pro- and eukaryote genomics are introduced including molecular biological methods used for research within these areas. Other topics covered are modern diagnostic methods, typing methods, molecular methods and strategies for studies of host pathogen interaction, evolution of pathogens, vaccinology, and the immune system in relation to infections and inflammatory diseases.

The laboratory animal science part of the course has been accredited by the Danish Ministry of Food, agriculture and fisheries and by the Federation of European Laboratory Animal Associations (FELASA) as adequate for researchers acquiring a license to perform animal experiments.

Learning Outcome

The aim of the course is to provide the students with work-relevant competences and qualifications required in the broad field of biomedical research. This includes qualifications to manage a housing facility for experimental animals and to design, perform and evaluate laboratory animal experiments in biomedical research and product development. Moreover, it provides the students with a thorough knowledge on methodologies of mammalian genomics, clinical microbiology, parasitology, genetics and clinical as well as molecular pathology and the role of these subjects when applied in drug – and vaccine development.
Learning outcomes
Knowledge

Describe modern diagnostic methods and principles; summarize rules and regulations, principles, methods and terminology relevant for the planning, execution and evaluation of experimental animal research projects and regulatory toxicity testing

Describe various animal models for human diseases presented in the course

Describe principles of housing, breeding and use of laboratory animals

Describe basic procedures and practical methodologies in Laboratory Animal Science, experimental surgery and in vivo pharmacology

Describe inference methods and risk analysis

Describe mechanisms of antibiotic and anthelmintic resistance and host interaction and reflect on the clinical health relevance.

Describe the principles of vaccine development and effects of use of vaccines.

Describe methods and strategies commonly used to determine virulence factors.

Describe the structure and function of the mammalian and prokaryote genome; summarize the main issues in relation to genetic mapping of qualitative and quantitative traits.

Describe various genetic technologies using in biomedical research

Describe and perform main molecular biological methods.

Understand and provide a critical evaluation of literature describing subjects within the area of biomedicine

Skills

Explain and assess strengths and weaknesses of commonly used laboratory methods in clinical microbiology, parasitology and pathology

Evaluate the use of in vitro and in vivo methodology in research and development

Explain basic ethical theories on use of animals in research and on animal welfare, including the 3 Rs

Use basic statistical and inference methods.

Evaluate histological lesions and reactions in laboratory animals.

Use basic surgical methods in laboratory animal science

Explain how to address and/or counteract common causes of misclassification in clinical microbiological, parasitological and pathological tests

Design a quality assurance program for diagnostic procedures

Determine antibiotic resistance both by quantitative and qualitative methods including specialized procedures

Evaluate which molecular genetic techniques are relevant for the study of a given genetic problem

Analyse, evaluate and present results from simple diagnostic tests in mammals

Explain the basic methodologies and principles demonstrated and practiced at the practical exercise during the course work

Competences

Work independently with problem solving, diagnosing and presenting relevant findings in clinical microbiology, clinical pathology and In vivo pharmacology.

Be able to identify virulence factors of microorganisms and parasites

Use knowledge on virulence factors in development of methods to control infections, e.g. in the form of active and passive immunizations and new drugs

Be able to work independently with basic genetic laboratory procedures

Discuss the ethical use of animals and in vitro methods in research and product development

Discuss strength and weaknesses of common animals models including genetically modified models

Be able to design, execute, evaluate and manage experimental animal research projects

Use theoretical and practical methodology in laboratory experiments employing live animals

Critically evaluate experimental designs and stated outcomes

Use acquired knowledge to assess novel problems or problem areas and confidently apply knowledge-based suggestions for solutions

Be able to find new information/literature on topics within the area of biomedicine

Be able to take responsibility for own professional development and specialization.

Be able to confident and competent present, communicate and discuss scientific research results

Literature

Various material on Absalon. List with relevant material and suggested readings will be posted on Absalon in due time before course start

Formal requirements

Approved course certificate on following courses:
SVEK13003U Veterinary Imaging
SVEK13002U Akutmedicin, obstetrik, intensiv terapi og klinisk anæstesiologi
SVEK13007U Almen klinisk praksis familiedyr
SVEK13008U Almen klinisk praksis, store husdyr
SVEK13006U Praktisk besætningsrådgivning og kødkontrol
SVEK13001U Veterinary Paraclinics
Passed the following courses:
Medicin, kirurgi og reproduktion - mindre og store husdyr SVEK13005 og SVEK13004.

Teaching and learning methods

The differentiation consists of both theoretical and practical teaching.

Workload

Category
Hours
E-Learning
20
Exam
1
Guidance
30
Lectures
134
Practical exercises
300
Preparation
160
Project work
62
Theory exercises
22
Total
729

Exam

Credit: 26,5 ECTS
Type of assessment: Oral examination, 30 minutes
Oral examination in practical and theoretical skills and oral presentation of a poster prepared on the basis of experimental data obtained during the course.
Passing the exam in experimental animal sciences provides FELASA authorisation category ‘C’.
Exam registration requirements: 80 % attendance to practicals involving live animals in exercise module I is required to attend the FELASA category C in Laboratory Animal Science exam during the course programme. Passing the FELASA category C exam is required in order to obtain FELASA-accredited course certificate.
80 % attendance to practicals involving live animals in exercise module II is required to attend the Biomedicine examination at the end of the course.
Students,who has not passed the FELASA category C exam prior to the Biomedicine examination may attend a re-examination in connection to the biomedicine examination.
Both, FELASA-accredited course certificate and a passed Biomedicine examination are required to pass the course.
Aid: Without aids
Marking scale: 7-point grading scale
Censorship form: External censorship

Criteria for exam assesment

The student must show convincing, confident and competent compliance with all stated learning outcomes:
Knowledge