Regenerative Medicine and Devices MRes

Program Overview

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This one-year full-time or two-year part-time MRes program in Regenerative Medicine and Devices combines a significant research project with taught modules in regenerative medicine and medical devices. Students gain practical research expertise and transferable skills, preparing them for careers in research, industry, the public sector, or academia.

Program Outline

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Outline:

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MRes Program Structure: This MRes program in Regenerative Medicine and Devices typically spans over one year if studied full-time or can be completed within two years through part-time study.

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The structure is designed to heavily integrate a significant research project that will take up most of your academic year while being complemented by supportive taught modules.

• Core modules:
• Research project (140 credits)
• Evaluating Research in Biosciences
• Regenerative Medicine and Medical Devices
• Optional modules (pick and choose):
• Applied Nucleic Acid Biochemistry
• Applied Protein Biochemistry
• Clinical Microbiology in the Post Antimicrobial Era Industrial Manufacturing Processes
• Omics for Diseases: Theory, Practice and Applications
• Inorganic Chemistry Frontiers
• Physical Chemistry Frontiers
• Organic Chemistry Frontiers
• Clinical Biomechanics and Musculoskeletal Pathologies of the Lower Limb
• Controversies in Science
• Oxidative Stress and Human Disease
• Real Time Techniques for In vitro and In vivo Monitoring
• Ageing: Pathology and Prevention
• Cancer: Bench to Bedside
• Understanding Age-related CNS Disorders
• Nanotechnology Research: Therapeutics, Diagnostics and Advanced Pharmaceutics
• Novel Medicinal Products: A Clinical Perspective
The learning is further complemented with:
• Specialist journal clubs:
• Seminars featuring guest speakers
• Informal student-led presentations
• Practical lab-based skills:
• Supported by technical team
• Utilizing specialized facilities and equipment

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To graduate with this MRes, you must fulfill:

• 180 credits at M-level, including
• 40 credits through taught/subject-specific modules

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Teaching:

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Teaching:

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Teaching methods:

• Lectures
• Seminars
• Tutorials
• Workshops
• Laboratory practicals
• Fieldwork (optional on some program options)

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Teaching staff:

• Internationally-recognized academics
• Postdoctoral researchers
• Experienced supervisors
• Provide guidance on your individual research project

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Specific teaching approaches:

• Collaborative learning environment
• Problem-based learning
• Research-led teaching

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Careers:

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Careers: This Mres prepares you for careers in:

• Research
• Industry
• Public Sector
• Academia

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Other:

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Other:

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The program aims to equip you with:

• Practical research expertise
• Transferable skills
• Prepare graduates for career progression

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Additional program benefits:

• Opportunity to participate in industry-led projects
• May involve spending time working for the organization depending on availability
• Collaborations
• Build your professional network with
• Experts within your field
• State-of-the-art research facilities
• Placement opportunity

This MRes will help you develop your scientific and translational research skills amidst an evolving discipline where major clinical issues see treatment through innovative approaches such as:

• Tissue engineering constructs
• Cell- and gene-therapy
• Nanomedicines
• Pioneering implants

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Course fees UK (full-time) 8,400 GBP International (full-time)15,900 GBP