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MSc Stem Cell Technology
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Objectives
The MSc in Stem Cell Technology was developed in response to the training needs of a rapidly expanding scientific area, aiming to facilitate the careers of graduates in this innovative area of science and biomedicine. Researchers and professionals with an understanding of stem cell technology and the international regulatory and ethical frameworks that govern stem cell use are vital to its applications to medicine and industry. The MSc offers the necessary skills to enable the effective integration of stem cell science expertise with research, clinical and commercial applications. We have designed a course that is able to deliver an intensive and applied knowledge base to interdisciplinary stem cell research and the transferable skills required to communicate and apply this learning. The course will enable you to pursue a clear career path in either research or industry, with the necessary expertise to compete in an ever changing world.
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Entry requirements
The interdisciplinary course is suitable for those with a science related background, for example from biology, physical science or bioengineering degrees. In addition, it is suitable for business, mathematics, and medicine graduates who wish to continue in their chosen disciplines with stem cell specialisations.
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Academic title
MSc Stem Cell Technology
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Course description
Stem Cell Technology (MSc)
Duration: 1 year full-time
Course Content
The course content covers the following key areas:
Stem Cell Laboratory Techniques - Stem cell culture and the specialist analytical skills to evaluate stem cells form a significant part of the MSc course.
You will be given state of the art practical training in the following areas of stem cell research:
-Mouse and human embryonic stem cell culture
-Culture of various adult stem cell types
-Stem Cell Tissue Engineering
-Differentiation of stem cells
-Evaluation by PCR, FACS, imaging and cytogenetics
-Transfection and genetic modification
-The skills and techniques you will learn are used throughout the entire MSc programme and you will have access to the modern facilities used by researchers in the Wolfson Centre for Stem Cells, Tissue Engineering and Modelling.
Legal/ Regulatory Frameworks and Business Opportunities - The future of stem cell technology is dependent on the complex regulatory frameworks being developed within individual countries to govern the use, patenting and commercialisation of stem cells. As such, the course places considerable emphasis on the latest developments and on highlighting the current issues.
You will have the opportunities to examine the wide range of varying policies in the UK and other countries. Through both tutor-led tutorials and student-led sessions, the key issues will be debated with experts in stem cell ethics, law and patenting.
Clinical Applications - The challenges of delivering stem cells to the clinic are explored at several levels during the course.
Relevant to clinical translation, you will acquire skills and knowledge in the following areas:
-Growing cells in bioreactors and on scaffolds to enhance patient delivery
-The regulations governing clinical transplantation
-The production of clinical quality stem cells
-The principles of clinical trials
-Stem cell banking
Throughout the entire MSc course, emphasis is placed on the applications of the stem cell culture expertise gained in the research laboratory. Examples of clinical use of stem cell types will be discussed by leading clinicians.
This course comprises five core modules:
-Cell, Developmental and Molecular Biology
-Human Embryonic Stem Cells
-Adult Stem Cells
-Tissue Engineering and Clinical Application
-Research Skills and Technology Exploitation
Please note that all module details may be subject to change.
In addition, you will complete a 60-credit Regenerative Medicine Research Project – this is an opportunity to undertake a major piece of independent research under the supervision of one or more of the faculty members.
The attention to experimental design, conducting research and analysing/presenting data is aimed to provide an insight into the nature of high quality research and allow you the opportunity to develop a specific area of current relevance.
Course Structure
The MSc in Stem Cell Technology is taught on a full-time basis over one year (usually from October through to September).
The taught sections of the course occur in the autumn and spring semesters, during which you will be required to undertake five compulsory modules worth 120 credits in total.
During the summer semester, you will undertake a three-month, 60-credit research project and produce a dissertation.
Assessment is based on coursework assignments, essays and laboratory reports, as well as a business plan e-portfolio and written examinations.
You can expect to spend approximately 50% of the taught course practically based in the laboratory.
Research, IT and presentation skills courses have been purpose-designed for the MSc Stem Cell technology by the University Graduate School.
Key facts
-This is the first MSc course in the UK to specialise entirely in the subject of Stem Cell Technology.
-In this pioneering venture, the academics of the Wolfson Centre for Stem Cells, Tissue Engineering and Modelling (STEM) have developed advanced training in this exciting and emerging area, using their world-class facilities and expertise.
-This course is a multidisciplinary, joint venture between the Schools of Human Development and Pharmacy that builds on our excellent teaching credentials.
-The course content has been designed in consultation with stem cell experts and potential employers in biotechnology, academia, industry and stem cell regulatory bodies in order to maximise your career potential.
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