Aim
General objectives
In the Higher Education Act (SFS 1992:1434 including updates), the following general objectives for undergraduate level education have been established:
8 § Undergraduate level education should be primarily based on knowledge students receive from national programs at high-school level or equivalent. However, the government may decide on exemptions relating to artistic education.
Education at undergraduate level will develop the students´:
- ability to make independent and critical assessments,
- ability to independently identify, formulate and solve problems,
- preparedness to meet changes in working life.
Within the specific field of education, the students will, in addition to their knowledge and skills, develop the ability to:
- seek and evaluate knowledge at scientific level,
- follow the development of the field,
- exchange knowledge also with people without specialized knowledge in the field.
Degree objectives
Intended learning outcomes for a Bachelor of Science degree according to the Higher Education Act (SFS 1993:100, appendix 2- the Degree Ordinance).
Knowledge and understanding
For a Degree of Bachelor of Science (180 credits) the student must
- demonstrate knowledge and understanding within the main field of the education, including knowledge of the area´s scientific basis, knowledge of relevant methods in the field, in-depth knowledge of specific subjects of the field as well as understanding of current research issues.
Skills and Abilities
For a Degree of Bachelor of Science (180 credits) the student must
- demonstrate the ability to find, gather, evaluate and critically interpret and discuss relevant information regarding a specific problem, events, issues and situations,
- demonstrate the ability to independently identify, formulate and solve problems as well as carry out tasks within given time frames,
- demonstrate the ability to present and discuss information, problems and solutions in dialogue with different groups, both orally and in writing, and
- demonstrate the skills required to work independently within the field of education.
Judgement ability and approach
For a Degree of Bachelor of Science (180 credits) the student must
- demonstrate the ability to make judgments within the main field of education with regard to relevant scientific, social and ethical aspects,
- demonstrate insight into the role of knowledge in society and people´s responsibility for how it is used, and
- demonstrate the ability to identify their need for further knowledge and skills development
Besides the objectives above, after completing the programme, the students will have obtained the higher institution´s local objectives as well as the local objectives of the programme.
Local objectives for the Faculty of Medicine and Health Sciences
The student will, after completing the programme:
- have the ability to critically appraise situations within academia, healthcare and industry in order to motivate and evaluate choice of actions as a professional
- demonstrate knowledge about and understanding of the factors which affect health from a local and global perspective
- have the ability to evaluate and apply knowledge in evidence-based medicine and quality improvement in healthcare
- be able to work for a sustainable and health promoting development of current and coming generations
- have obtained inter-professional skills that enables working in teams with other professions
- demonstrate knowledge and understanding of the importance of equality and equal opportunities in society
Local objectives for the Bachelor´s Programme in Experimental and Industrial Biomedicine
Knowledge and understanding
Upon completion of the programme, the student should be able to:
- Describe the medical and scientific knowledge required to explain human biological and human pathophysiological processes in a molecular and cellular perspective.
- Describe analytical and diagnostic methods in medical biology and basic strategies for medical treatment.
- Demonstrate understanding of different statistical methods and their application in bioinformatics, systems biology and biomedical research.
- Describe the information and analyses required to evaluate an idea for a new activity, within the field of biomedicine, and demonstrate the ability to collect and analyse relevant information for this purpose.
Skills and Abilities
Upon completion of the programme, the student should be able to:
- Critically review relevant information regarding a specific challenge within medical biology.
- Design and solve theoretical and laboratory challenges and correct scientific and statistical approach in new and unknown situations under supervision.
- Discuss information, ideas, problems and solutions in the field of medical biology both orally and in writing in a multidisciplinary approach.
- Apply advanced medical biological laboratory methodology required to work independently in the biomedical field.
- Actively apply project management models in projects where biomedical issues are translated into services or products.
Judgement ability and approach
Upon completion of the programme, the student should be able to:
- Reflect on scientific and ethical aspects of medical biology and the importance of biomedical knowledge for society´s development.
- Critically assess the needs and ideas within biomedicine from a social and commercial perspective.
- Use an entrepreneurial approach to the development and evaluation of biomedical science.
Local profile of the programme
The Bachelor´s Programme in Experimental and Industrial Biomedicine integrates in-depth knowledge of medical biology with the latest experimental methods in biomedical research. Throughout the programme, the students receive practical experience in project management. Students also meet industrial collaborators where they will be trained to translate biomedical knowledge into biomedical applications, in order to prepare for further work in academia, healthcare or business.
Students gain practical experience in modern research methods in cell and molecular biology, drug development, systems biology, developmental biology, pathology, bioinformatics, statistics and computational biology. To ensure that students can apply their knowledge in clinical and industrial settings, project management, leadership, bio-entrepreneurship, quality assurance, medical ethics are integrated through the recurring project courses based on research, healthcare and business issues. Students have the opportunity to spend a semester at an academic or industrial actor in Sweden or abroad.
Content
The programme comprises of 180 credits. The major subject area of the Bachelor´s Programme in Experimental and Industrial Biomedicine is medical biology. Distribution of subject content is stated in each course syllabus respectively. The programme is given at full-time study pace.
The following courses are included in the programme:
Medical Cell Biology, 6 credits, semester 1
Medicinsk cellbiologi, 6 högskolepoäng, termin 1
General Chemistry, 6 credits, semester 1
Allmän kemi, 6 högskolepoäng, termin 1
Molecular Genetics and Epigenetics, 6 credits, semester 1
Molekylär genetik och epigenetik, 6 högskolepoäng, termin 1
Medical Physiology, 6 credits, semester 1
Medicinsk fysiologi, 6 högskolepoäng, termin 1
Project Course: Biomedical Product Development, 6 credits, semester 1
Projektkurs: Produktutveckling inom biomedicin, 6 högskolepoäng, termin 1
Biochemistry and Organic Chemistry, 6 credits, semester 2
Biokemi och organisk kemi, 6 högskolepoäng, termin 2
Developmental and Stem Cell Biology, 6 credits, semester 2
Utvecklings- och stamcellsbiologi, 6 högskolepoäng, termin 2
Cell Metabolism, Signaling and Biochemistry, 6 credits, semester 2
Cellens metabolism, signalering och biokemi, 6 högskolepoäng, termin 2
Medical Microbiology, 6 credits, semester 2
Medicinsk mikrobiologi, 6 högskolepoäng, termin 2
Project Course: Bioentrepreneurship, 6 credits, semester 2
Projektkurs: Bioentreprenörskap, 6 högskolepoäng, termin 2
Gene Technology and Transgenic Models, 6 credits, semester 3
Genteknologi och transgena modeller, 6 högskolepoäng, termin 3
Immunology, 6 credits, semester 3
Immunologi, 6 högskolepoäng, termin 3
Analytical Chemistry for Medical Applications, 6 credits, semester 3
Analytisk kemi med medicinska applikationer, 6 högskolepoäng, termin 3
Bioinformatics and Statistics, 6 credits, semester 3
Bioinformatik och statistik, 6 högskolepoäng, termin 3
Project Course: Bioinformatics of Big Data, 6 credits, semester 3
Projektkurs: Bioinformatik av stordata, 6 högskolepoäng, termin 3
Pharmacology, 6 credits, semester 4
Farmakologi, 6 högskolepoäng, termin 4
Systems Biology, 6 credits, semester 4
Systembiologi, 6 högskolepoäng, termin 4
Pharmaceutical development, 6 credits, semester 4
Läkemedelsutveckling, 6 högskolepoäng, termin 4
Medical Systems Physiology, 6 credits, semester 4
Medicinsk systemfysiologi, 6 högskolepoäng, termin 4
Project Course: Drug Development, 6 credits, semester 4
Projektkurs: Läkemedelsutveckling, 6 högskolepoäng, termin 4
Degree Project, 30 credits, semester 5
Examensarbete, 30 högskolepoäng, termin 5
Protein Structure and Function, 6 credits, semester 6
Proteinstruktur och funktion, 6 högskolepoäng, termin 6
Pathology and Disease Models, 6 credits, semester 6
Patologi och sjukdomsmodeller, 6 högskolepoäng termin 6
Molecular Imaging and Digital Pathology, 6 credits, semester 6
Molekylär bildbehandling och digital patologi, 6 högskolepoäng termin 6
Advanced Neurobiology, 6 credits, semester 6
Avancerad neurobiologi, 6 högskolepoäng, termin 6
Project Course: Clinical Trial, 6 credits, semester 6
Projektkurs: Klinisk prövning, 6 högskolepoäng, termin 6
Progression
Progression within the main subject area is shown through the learning goals in the course syllabus for each course of the programme as well as by proposed course literature in the resource lists. The programme has project-integrated courses with continuous development in project management in the medical field. During the earlier parts of the programme there is a greater focus on gaining basic theoretical and laboratory knowledge, while the latter parts of the programme increasingly focus on the students being able to use, interpret and develop knowledge in different fields. This will enable students to explain human physiological and biomedical processes, and at a deeper level, understand how biomedical knowledge can be applied to issues in healthcare, industry and academia from a commercial and social perspective.