Course summary
Stem cell science, ranging from basic biology to practical application, is a large and diverse subject. A full appreciation of it requires an understanding of cell and molecular biology, tissue structure and physiology, the practicalities of tissue engineering and bioprocessing, the pathways to implementation in medical and veterinary practice and industry, and ethical and regulatory considerations. The MSc Stem Cell Biology and Application will provide you with a comprehensive understanding of these unique cells, highlighting key areas of research and technologies, and encompassing vertebrate, invertebrate and plant aspects of stem cell biology. Emphasis will be placed on cutting-edge technologies used in stem cell science, such as bioinformatics and gene editing, and on existing or potential stem cell applications, both in medicine and economically relevant animals and plants. Modules in the first semester will provide a foundation of understanding of basic principles of stem cells and the methods used to study them, especially bioinformatics, and will cover molecular and cellular aspects of the way in which stem cells are controlled, emphasising how diseases can arise when the normal balance is disturbed. During the second part of the first semester and the first part of the second semester, you will be given a perspective on the range of stem cell types, including their involvement in the development of organisms and their diversity across the animal and plant kingdoms. Emphasis will be placed on the current and potential applications of stem cells, particularly in a clinical context, and you will gain an appreciation of the multidisciplinary approaches that are required in order to make this possible. A thread of legal, ethical, and social implications will run throughout the programme. Across the full year, you will engage in a research project, using a stem cell-based platform to achieve gene editing in order to create your own model of a genetic disease or to explore the function of a particular gene. Why study this course?
- We're ranked in the world top 100 for Medicine (QS World University Rankings by Subject 2021)
- Our academics are actively researching stem cell issues and developing new therapies
- As a leading UK university for bioinformatics, with expertise in gene editing, you will benefit from high-quality practical training
Modules
The principles of stem cell biology (20 credits) Essential methodology in stem cell research (20 credits) Pluripotent stem cells and medical application (20 credits) Natural regeneration: An evolutionary and practical perspective (20 credits) Adult stem cells, and their relevance in medicine and agriculture (20 credits) Engineering complex tissues (20 credits) Dissertation Project: Gene Editing (60 credits)
Entry requirements
Either a 2:1 undergraduate Honours degree or a postgraduate degree in a biological discipline, eg biomedical science, biological sciences, human biology, plant biology, zoology, biochemistry or medicine (MBChB).
Fees and funding
Tuition fees
| England | £13550 | Whole course |
| Northern Ireland | £13550 | Whole course |
| Scotland | £13550 | Whole course |
| Wales | £13550 | Whole course |
| Republic of Ireland | £13550 | Whole course |
| International | £27140 | Whole course |
Tuition fee status depends on a number of criteria and varies according to where in the UK you will study. For further guidance on the criteria for home or overseas tuition fees, please refer to the UKCISA website .
Additional fee information
For more detailed information on available funding and fees for postgraduate courses please visit: https://www.birmingham.ac.uk/study/postgraduate/taught/fees-funding
Provider information
University of Birmingham
Edgbaston
Birmingham
B15 2TT