MSc Tissue Engineering for Regenerative Medicine / Course details
Year of entry: 2024
- View tabs
- View full page
Our MSc Tissue Engineering for Regenerative Medicine course gives students from biological, engineering and/or medical-related backgrounds the specialist knowledge and research skills to pursue a career in this field.
You will focus on strategies to repair, replace and regenerate various tissues and organs to solve major clinical problems, gaining insights into topical issues including stem cells, design and characterisation of biomaterials and nanomaterials (including graphene), biofabrication (including 3D bioprinting), cell and gene therapies, commercialisation and clinical translation of regenerative therapies. You will learn how to identify major clinical needs and formulate novel therapeutic solutions.
This course has both taught and research components and is suitable for those with little or no previous research experience. You will learn practical skills through both taught modules and a 25-week research project.
Tissue engineering and regenerative medicine as a discipline shows enormous potential for future health and, economically, there is a national demand for specific interdisciplinary training in this area.
We have a vast research network in this field comprising international experts from multiple disciplines and, as such, this course is a collaborative degree from the Faculty of Biology, Medicine and Health and the Faculty of Science and Engineering.
PhD with integrated master's
If you're planning to undertake a PhD after your master's, our Integrated PhD programme will enable you to combine your postgraduate taught course with a related PhD project in biology, medicine or health.You can also visit this page for examples of projects related to integrated master's courses.
Teaching and learning
This course is structured around taught elements and research projects, with an emphasis on the research-based element.
You will gain hands-on research experience through both the laboratory skills unit and research placements in tissue engineering/regenerative medicine-focused laboratories at the University lasting 25 weeks.
The course comprises five compulsory components:
- research methods course unit - 15 credits;
- tutorial course unit - 15 credits;
- masterclass course unit - 15 credits;
- laboratory skills course unit - 15 credits;
- research placements: Part 1 - literature review and project proposal (30 credits). Part 2 - a 25-week project including practical work, oral presentation and final dissertation, and an assessment of research performance (90 credits).
You will experience the interdisciplinary nature of the field during the course and gradually increase the depth and complexity of your research through the masterclass unit.
Each project is written up and assessed separately when submitted during the year.
You will be allocated an advisor and a personal logbook is introduced at the start of the programme to monitor progress through the course and assess learning and career objectives.
The research placements are the largest component of the course and aim to give you the specialist knowledge and practical skills to pursue a research career in tissue engineering and regenerative medicine, as well as develop your practical research expertise in a chosen area and enhance your ability to analyse and interpret data and summarise your findings in the form of written reports and an oral presentation.
The first placement runs alongside the taught units in Semester 1 and involves writing a comprehensive literature review and formulating a research project proposal. The second placement (25 weeks) runs concurrently with the tutorial course unit for the first part but is full-time thereafter. It involves hands-on research and integration within a research team. The project is assessed by oral presentation at an end of year symposium, research performance and by submission of a dissertation.
You will choose from a list of research projects and supervisors. Close interaction with the project supervisor at the start of the project and regular monitoring allows you to take responsibility for your own research development. The development of an interactive supervisory/student arrangement is often a useful grounding for future PhD collaboration.
Coursework and assessment
You will be assessed continually during the year through:
- oral presentations;
- group participation;
- multiple choice questionnaires;
- written reports;
- a final dissertation.
Course unit list
The course unit details given below are subject to change, and are the latest example of the curriculum available on this course of study.
|Masterclass Course Unit
|Research Project 2
What our students say
'I was initially seeking a PhD within stem cell research, but decided I would benefit from an initial year of master's training to broaden my knowledge. The course appealed because of the focus on biological techniques and technologies critical to tissue regeneration and repair. I felt this would provide me with the ideal platform to embark upon a PhD in regenerative medicine upon graduation.
'The most rewarding elements of the course have been the in-depth research placements, which have provided me with the opportunity to master aspects of stem cell differentiation and the clinical application of biomaterials. In fact, my first placement was so successful that I went on to study my PhD within the same laboratory.
'I found the interaction between leading academics, industrialists and fellow students most rewarding. With a number of renowned speakers contributing to the course, I built up an impressive network of contacts.
'I'd recommend the course to individuals wanting to know more about stem cell biology, the therapeutic potential of biomaterials and how to commercialise research findings.
'The course improved my critical writing and presentational skills, as well as equipping me with the ability to critically analyse my research more thoroughly.'
Chloe Yeung, graduate.