The Centre for Doctoral Training in Tissue Engineering and Regenerative Medicine - Innovation in Medical and Biological Engineering will provide postgraduate research and training for 50 students, to research, develop and deliver regenerative therapies and devices, which can repair or replace diseased tissues and restore normal tissue function. The programme will include an integrated MSc in Tissue Engineering and Regenerative Medicine which will comprise compulsory and optional taught modules over the first two years with the majority studied in year 1, allowing a phased increase to full time research towards the end of year 2.
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The CDT TERM iMBE will comprise of a blended programme of specialised subject modules, along with professional development and skills training, integrated with research over two years. These will form an integrated MSc in Tissue Engineering and Regenerative Medicine.
You will study 180 taught credits over the two years with the majority studied in year 1, allowing a phased increase to full time research towards the end of year 2.
In year one, you will take 120 credits of compulsory and optional subject specific modules, alongside a Training & Professional Development Planning (TPDP) module. Compulsory modules include choice in most cases, allowing you to create specific programmes according to your individual needs.
Compulsory modules include:
- Cross-disciplinary Laboratory Placements, which allow students to experience a variety of different academic research environments
- Systematic Review which introduces students to the literature early in year
- Research Methods and a new Perspectives on Innovation, the latter part of this module will be delivered by the Business School, and will introduce you to the concepts of IP, clinical trials and health economics.
Research activity will encompass poster and oral presentations, peer to peer training, research group involvement and research within programme activity e.g. industry workshop; project workshops; annual networking conferences.
In order to enhance student research performance, employability, professionalism and engagement with society, all students will follow a tailored TPDP and compile a Professional Development Portfolio (PDP) in years one and two.
Optional modules will be chosen from a list and delivered across the different faculties involved in the programme. These include training in the life sciences (Immunology, Microbiology, Tissue Engineering, Stem Cells and Tissue Engineering), chemistry (Nanotoxicology, Bionanotechnology, Self Assembling Nanostructures) and engineering (Biomaterials, Biotribology, Functional Joint Replacement).
In line with our ethos of student choice, you will not be pre-assigned to research projects on enrolment into the programme. You will be encouraged to undertake subject specific training through both laboratory placements and taught modules before you choose a project. Project choices will be made at the end of semester 2 in year 1. Research will commence in Semester 3 of year 1 and initially comprise a full literature review, induction and training in research laboratories before experimental and/or computational research commences.
In year 2 of the programme, as part of the MSc, you will continue with professional development activities and have the opportunity to undertake an external/international placement for approximately three weeks. In addition, innovation training will continue with Perspectives on Innovation 2, which provides training in processes, open innovation and commercialising University research. You will also choose a total of 15 credits of subject specific optional modules to support your research projects. Thus the integrated MSc will support learning and reinforce knowledge required for carrying out the research project. In addition skills such as scientific writing, project management, communication etc will be developed through the MSc.In years 3 & 4 the emphasis will be on the research project; however, you will continue with professional development throughout the programme. Innovation training will continue with mini-placements in industry covering aspects such as project management, quality systems, creativity, regulation, IP management, KT, innovation networks, product design and health economics.
This programme requires students to demonstrate proficiency in English.Take IELTS test
A degree equivalent to a UK upper second class honours (2:1), or higher, in a physical science, engineering or a biological science.
Students from United States of America need a visa in order to study in the United Kingdom.
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A full standard studentship consists of academic fees, together with a maintenance grant paid at standard Research Council rates and a Research Training Support Grant.
Generally, UK students will be eligible for a full award and other European Union applicants will be eligible for an award paying academic fees and Research Training Support Grant only, except in cases where residency in the UK has been established for more than 3 years prior to the start of the programme of study.
StudyPortals Tip: Students can search online for independent or external scholarships that can help fund their studies. Check the scholarships to see whether you are eligible to apply. Many scholarships are either merit-based or needs-based.
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