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Masters Degrees (Transplantation)

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The Transplantation MRes enables you to experience an internationally competitive research area, predominantly in academia but also potentially in industry. Read more

The Transplantation MRes enables you to experience an internationally competitive research area, predominantly in academia but also potentially in industry. The MRes can be taken either as a stand-alone qualification or provide an entry route onto a PhD or MD.

The course is designed for graduates with a BSc in the life sciences and is also suitable for graduates from other science disciplines and intercalating and fully qualified MBBS or BDS students.

What you'll learn

There is a taught component with subject-specific content in the area of Transplantation. Subject-based modules provide a broad exposure to diverse aspects of transplantation, from clinical concepts to cutting edge scientific development. There will be a unique opportunity to gain insights into the speciality of transplantation sciences in the context of transplantation of haematopoietic stem cells, corneal/limbal stem cells and a variety of solid organs.

The modules aim to:

  • provide sound understanding of the scientific basis underlying the therapeutic benefits and adverse effects of clinical transplants
  • highlight the research areas where applications of immunology and cell biology can improve transplant outcome and patient wellbeing
  • provide a view of bench to bedside translational links between scientific research and clinical practice

The course emphasises the clinical practice driven research, which prepares students for a future career in either medical practice or broad biomedical research. 

Main topics covered include:

  • transplantation immunology related to cellular and molecular basis of allogeneic immune responses, tolerance, immunosuppression
  • the genetic and molecular basis of HLA system, non-HLA immunogenetics, histocompatibility, impact of HLA matching in choice of donor and transplant outcome
  • transplantation pathology related to graft-versus-host disease following haematopoietic stem cell transplant, rejection following solid organ transplant, tissue damage and loss of graft function
  • manipulation of haematopoietic stem cells for clinical use
  • development of novel therapeutic strategies to aid improvement of clinical transplant outcome

It has the flexibility for you to develop your own bespoke course by choosing additional, complementary modules from a wide selection. You will also undertake training in general research principles and other professional and key skills.

Your project

The research project comprises the major element of the course. This project will involve 24 weeks’ carrying out research in the area of transplantation under the supervision of an expert academic researcher in the field.

Our MRes courses

Transplantation MRes is closely linked to a suite of MRes courses that you may also be interested in:

Faculty of Medical Sciences Graduate School

Our Medical Sciences Graduate School is dedicated to providing you with information, support and advice throughout your research degree studies. We can help and advise you on a variety of queries relating to your studies, funding or welfare.

Our Research Student Development Programme supports and complements your research whilst developing your professional skills and confidence.

You will make an on-going assessment of your own development and training needs through personal development planning (PDP) in the ePortfolio system. Our organised external events and development programme have been mapped against the Vitae Researcher Development Framework to help you identify how best to meet your training and development needs.



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This programme offers a fascinating range of subjects, including molecular biology, genetics, biochemistry, microbiology, immunology, tissue engineering, clinical medicine, laboratory management and statistics. Read more
This programme offers a fascinating range of subjects, including molecular biology, genetics, biochemistry, microbiology, immunology, tissue engineering, clinical medicine, laboratory management and statistics.

It is accredited by the Institute of Biomedical Science and is based at one of the largest transfusion centres in the world, enabling visits to manufacturing, testing and tissue typing sections. You will learn from specialist lecturers based at the University, NHS Blood and Transplant (NHSBT), and NHS hospitals, and have an opportunity to become fully embedded in an NHS environment while you develop your knowledge.

The programme will give you extensive practical experience of transfusion and transplantation, allowing you to gain skills that directly relate to your future career. As well as being academically interesting, this continually developing area of healthcare science has a major impact on patients' quality of life.

The programme:
-Is one of just two specialist full-time courses in transfusion and transplantation, and is a recommended course at level seven in the Career Framework for Health.
-Gives you the opportunity to carry out your MSc project with NHSBT research staff within the transfusion centre.
-Has high contact hours, with teaching each day and practical classes.
-Includes a large skills component (eg writing in different formats, conference and publication skills, assignments with specific study aims).
-Includes laboratory management, a key skill required at level seven.
-Attracts a diverse range of students (about 50 per cent overseas students), including new graduates, those working in blood centres or blood transfusion/haematology in hospitals, or training to lecture in transfusion.

Programme structure

The programme comprises eight taught units that run from September to March and a research project that begins in May and runs until August. Example project topics have included:
-A study on red cell antibody formation in trauma patients
-Optimisation of platelet antigen detection using recombinant proteins
-Expression of red cell membrane proteins during large-scale red cell culture
-A comparison of stem cell mobilisation drugs for stem cell transplantation

Taught units
-Transfusion and Transplantation Science:
-Pathology of Transfusion and Transplantation Science
-Provision of Blood, Cells, Tissues and Organs
-Clinical Transfusion and Transplantation
-Transfusion and Transplantation in Practice (two units)
-Biostatistics
-Research and Laboratory Management

Assessments are designed to teach skills such as comprehension, scientific writing in different formats and conference skills, and to further knowledge in subject areas not covered in the lectures. Students must pass the taught component to be able to progress to the project.

Part-time students complete the Postgraduate Certificate components in their first year and the Postgraduate Diploma in the second. The project is usually taken during year three to complete the MSc.

Careers

Some of the career paths that graduates have followed include: blood transfusion and fetal medicine research, working for a bone marrow donor laboratory or bone marrow registry, biostatistics, graduate entry to medical school, NHS Clinical Scientist Training programme, and progression to PhD study in several areas including cancer biology and stem cell regeneration.

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This part-time programme is organised with the support of the Scottish National Blood Transfusion Service (SNBTS). Read more

This part-time programme is organised with the support of the Scottish National Blood Transfusion Service (SNBTS). In the fields of Transfusion, Transplantation and Tissue Banking, SNBTS has a leading international reputation and the programme is accredited by the Institute of Biomedical Sciences (IBMS), the professional body for Biomedical Scientists in the United Kingdom.

The programme has been designed to be aligned to the NHS requirements and stipulations relating to career progression for Biomedical Scientists, Clinical Scientists and other healthcare professionals working in these fields.

The programme will give you in-depth expertise and knowledge of the science, regulations and international practices in transfusion, transplantation and tissue banking, for those aiming for more senior management roles in healthcare organisations.

The programme covers the following areas:

  • Fundamentals of Transfusion Science
  • Quality and GMP
  • Blood Donation Processing and Testing
  • Immunology and Molecular Biology of Transfusion
  • Clinical Blood Banking
  • Transplantation and Tissue Banking
  • Information technology and Donation
  • Biopharmaceutical Transfusion and Clinical Trials
  • Management and Communication
  • Governance/Ethics/Risks of Transfusion
  • Research skills

Programme structure

The programme involves eight, one-week modules that combine lectures, tutorials and assessments. A variety of learning experiences and assessment tasks will stimulate interest, encourage participation and develop transferable skills. Self-directed learning between modules will require to be undertaken by students participating in this programme.

Throughout the programme, summative and formative assessment techniques will be employed.

After two years you will take three exams for the diploma qualification. If you are successful, you can carry out a research project in the third year to achieve your masters qualification.

Career opportunities

This programme is designed to help you progress within health services in transfusion, transplantation and tissue banking fields.



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The Department of Surgery has offered a Master of Science Degree Program since 1969. Applicants with an MD degree or equivalent are accepted once they have been deemed to be satisfactory by the MSc Program Director and fulfill the admission requirements of the Faculty of Graduate Studies. Read more
The Department of Surgery has offered a Master of Science Degree Program since 1969. Applicants with an MD degree or equivalent are accepted once they have been deemed to be satisfactory by the MSc Program Director and fulfill the admission requirements of the Faculty of Graduate Studies. A supervisory committee is chosen to represent the area of special interest by the candidate. The MSc program consists of a 18 credit thesis and additional course work at the 500 level to give a total of 30 credits.

CIHR Training Program in Transplantation

The UBC Department of Surgery CIHR Transplantation Training Program brings together a multi-disciplinary group of mentors to teach all aspects of transplantation to trainees from diverse backgrounds in a way that did not depend upon their prior knowledge.

Outstanding graduate students and candidates for post-doctoral fellowship positions (MD, PhD or equivalent) are invited to apply for the CIHR Transplantation Scholarship Training Program located in Vancouver, British Columbia. The Transplantation Training Program is affiliated with the University of British Columbia and its teaching hospitals, as well as the British Columbia Transplant Society. Research projects available through this innovative, integrated program encompass all aspects of transplantation including, but not limited to, the following: basic and applied research into the immune system, stem cell biology, tissue transplantation, organ preservation, organ donation and ethical issues related to transplantation, outcomes research and clinical epidemiology related to transplantation.

Research will be performed in a highly collaborative environment with nationally and internationally recognized scientists. Trainees will have access to state-of-the-art facilities and unique resources. This program will foster the training of trans-disciplinary scientists and clinician-scientists who will bring novel insights into issues related to transplantation sciences. Applicants interested in Biomedical Ethics or Clinical Epidemiology are especially encouraged to apply. Supervisors must be a member of this Program.

The UBC Clinical Investigator Program

The UBC Clinical Investigator Program is designed to provide a combined research and clinical training stream for residents in Clinical Specialty Programs at UBC. The aim is to encourage young physicians to pursue careers as clinician-scientists and to renew the clinical academic faculty at UBC and other Canadian Medical Schools.

Quick Facts

- Degree: Master of Science
- Specialization: Surgery
- Subject: Health and Medicine
- Mode of delivery: On campus
- Program components: Coursework + Thesis required
- Faculty: Faculty of Medicine

Program Requirements

A student's program will be determined by the program director in consultation with the student's supervisor. A supervisory committee will be chosen to represent the area of specialization elected by the candidate. The M.Sc. program consists of an 18-credit thesis (SURG 549), plus 12 credits of coursework, for a total of 30 credits. 12 credits of coursework must be at the 500-level, of which 8 credits should be from Department of Surgery courses numbered 502 to 548. The student, with the advice of the committee, may select other approved courses in related fields. Further information may be obtained from the M.Sc. program director in the Department of Surgery.

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Human tissue repair after injury and in disease and the development of effective treatments are the focus of all biomedical research. Read more

Human tissue repair after injury and in disease and the development of effective treatments are the focus of all biomedical research. This MSc programme, taught by leading scientists and clinicians, provides an integrated approach to human tissue repair focusing on inflammation, immunotherapy and transplantation science, and preparation for PhD study and a career in biomedicine.

About this degree

The MSc will provide knowledge of the fundamentals of inflammation and immune response in human health and disease, cellular and molecular mechanisms of human tissue repair, the development of therapies designed to repair and restore tissue function, and treatments including immunotherapy, transplantation, tissue constructs and medical devices. Students will obtain additional practical, analytic and transferable skills essential in biomedical research.

Students undertake modules to the value of 180 credits.

This programme consists of six core modules (90 credits), two specialisation optional modules (30 credits) and a research project (60 credits).

Core modules

  • Principles of Immunology
  • Practical Research Skills
  • Principles of Inflammation
  • Research Methodologies for Human Tissue Repair
  • Tissue Repair and Regeneration
  • Practical Cell Culture Analysis

Students choose one of the following specialisation modules depending on the route they wish to follow: Inflammation; Immunotherapy; Transplantation Science:

  • Immunological Basis of Disease
  • Inflammation and Disease
  • Transplantation Science

Optional modules

Students choose two optional modules from their chosen specialisation route below:

Inflammation specialisation

  • Biological Molecules as Therapies
  • Ethics, Translation & Commercialisation
  • Immunological Basis of Disease
  • Stem Cell Therapy
  • Transplantation Science

Immunotherapy specialisation

  • Inflammation and Disease
  • Stem Cell Therapy
  • Ethics, Translations & Commercialisation
  • Tissue Engineering and Regenerative Medicine
  • Transplantation Science

Transplantation Science specialisation

  • Applied Biomaterials
  • Ethics, Translation & Commercialisation
  • Immunological Basis of Disease
  • Stem Cell Therapy
  • Tissue Engineering and Regenerative Medicine
  • Inflammation and Disease

Dissertation/report

Students undertake a research project culminating in a dissertation of 5,000 words in the style of a manuscript for scientific publication.

Teaching and learning

The programme is delivered through a combination of seminars, lectures, e-learning, laboratory work and tutorials. Assessment is through examination, presentations, essays, practical reports and dissertation.

Further information on modules and degree structure is available on the department website: Human Tissue Repair MSc

Careers

The programme will prepare students for further academic study and to work at the highest levels within the biomedical sciences. It will also provide the foundation for careers in the public healthcare sector and the NHS, in industry and biopharma, government and research councils, biomedical charities and stakeholders, sports medicine, and scientific media and publishing houses.

Employability

Students will gain awareness of the commercial opportunities and diverse funding mechanisms for the development of new ideas, technologies and applications. Our learning methods will prepare students for careers in academic or industrial biomedical sciences, as well as equipping them with transferable skills in presentation, writing, organisation and team work.

Why study this degree at UCL?

UCL offers a world-class research and teaching environment in biomedical sciences.

The UCL Divisions of Medicine and Surgery & Interventional Science jointly offer this MSc within the new Institute of Immunity and Transplantation (IIT) based at the Royal Free Campus, to deliver the only programme with an integrated multidisciplinary approach to learning about human tissue repair, regeneration and therapy.

The programme aims to harness basic, biomedical and clinical expertise and research strengths assembled from across UCL institutes and divisions and UCL partner hospitals, and together with industrial colleagues will provide world-leading cohesive teaching and training in inflammation, immunology, tissue engineering, transplantation, drug discovery and in understanding and treating human disease.

Research Excellence Framework (REF)

The Research Excellence Framework, or REF, is the system for assessing the quality of research in UK higher education institutions. The 2014 REF was carried out by the UK's higher education funding bodies, and the results used to allocate research funding from 2015/16.

The following REF score was awarded to the department: Division of Medicine

80% rated 4* (‘world-leading’) or 3* (‘internationally excellent’)

Learn more about the scope of UCL's research, and browse case studies, on our Research Impact website.



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Human tissue repair after injury and in disease and the development of effective treatments is the focus of all biomedical research. Read more

Human tissue repair after injury and in disease and the development of effective treatments is the focus of all biomedical research. This MRes, taught by leading research scientists and clinicians, offers specialised training and provides a foundation year for a biomedical research career.

About this degree

The programme will provide knowledge of the fundamentals of inflammation and the immune response in human health and disease; cellular and molecular mechanisms of human tissue repair and the development of therapies designed to repair and restore tissue function; treatments including immunotherapy, stem cell therapy, transplantation, tissue constructs and medical devices. Students will obtain additional practical, analytical and transferable skills essential in biomedical research.

Students undertake modules to the value of 180 credits.

This programme consists of five core modules (75 credits), one specialisation optional module (15 credits) and a research project (90 credits).

Core modules

  • Principles of Inflammation
  • Principles of Immunology
  • Tissue Repair and Regeneration
  • Research Methodologies for Human Tissue Repair
  • Practical Cell Culture Analysis

Students choose one of the following specialisation modules depending on the route they wish to follow: Inflammation; Immunotherapy; Transplantation Science:

  • Immunological Basis of Disease
  • Inflammation and Disease
  • Transplantation Science

Dissertation/report

Students undertake a six-month research project in a research laboratory.

Teaching and learning

The programme is delivered through a combination of seminars, lectures, e-learning, laboratory work, and practicals. Assessment is through examination, presentations, essays, practical reports and dissertation.

Further information on modules and degree structure is available on the department website: Human Tissue Repair MRes

Careers

The programme will prepare students for further academic study and to work at the highest levels within the biomedical sciences. It will also provide the foundation and links for careers engaged in the public healthcare sector and the NHS, in industry and biopharma, government and research councils, biomedical charities and stakeholders, sports medicine, and scientific media and publishing houses.

Employability

Students will gain awareness of the commercial opportunities and diverse funding mechanisms for the development of new ideas, technologies and applications. Our learning methods will prepare students for careers in academic or industrial biomedical sciences, as well as equipping them with transferable skills in presentation, writing, organisation and team work.

Why study this degree at UCL?

UCL offers a world-class research and teaching environment in biomedical sciences.

The UCL Divisions of Medicine and Surgery & Interventional Science jointly offer an MRes within the new Institute of Immunity and Transplantation (IIT) based at the Royal Free Campus, to deliver the only programme with an integrated multidisciplinary approach to learning about human tissue repair, regeneration and therapy.

The programme aims to harness basic, biomedical and clinical expertise and research strengths assembled from across UCL institutes and divisions and UCL partner hospitals, and together with industrial colleagues will provide world-leading cohesive teaching and training in inflammation, immunology, tissue engineering, transplantation, drug discovery and in understanding and treating human disease.

Research Excellence Framework (REF)

The Research Excellence Framework, or REF, is the system for assessing the quality of research in UK higher education institutions. The 2014 REF was carried out by the UK's higher education funding bodies, and the results used to allocate research funding from 2015/16.

The following REF score was awarded to the department: Division of Medicine

80% rated 4* (‘world-leading’) or 3* (‘internationally excellent’)

Learn more about the scope of UCL's research, and browse case studies, on our Research Impact website.



Read less
We invite postgraduate research proposals in a number of disease areas that impact significantly on patient care. We focus on exploring the mechanisms of disease, understanding the ways disease impacts patients’ lives, utilising new diagnostic and therapeutic techniques and developing new treatments. Read more

We invite postgraduate research proposals in a number of disease areas that impact significantly on patient care. We focus on exploring the mechanisms of disease, understanding the ways disease impacts patients’ lives, utilising new diagnostic and therapeutic techniques and developing new treatments.

As a student you will be registered with a University research institute, for many this is the Institute for Cellular Medicine (ICM). You will be supported in your studies through a structured programme of supervision and training via our Faculty of Medical Sciences Graduate School.

We undertake the following areas of research and offer MPhil, PhD and MD supervision in:

Applied immunobiology (including organ and haematogenous stem cell transplantation)

Newcastle hosts one of the most comprehensive organ transplant programmes in the world. This clinical expertise has developed in parallel with the applied immunobiology and transplantation research group. We are investigating aspects of the immunology of autoimmune diseases and cancer therapy, in addition to transplant rejection. We have themes to understand the interplay of the inflammatory and anti-inflammatory responses by a variety of pathways, and how these can be manipulated for therapeutic purposes. Further research theme focusses on primary immunodeficiency diseases.

Dermatology

There is strong emphasis on the integration of clinical investigation with basic science. Our research include:

  • cell signalling in normal and diseased skin including mechanotransduction and response to ultraviolet radiation
  • dermatopharmacology including mechanisms of psoriatic plaque resolution in response to therapy
  • stem cell biology and gene therapy
  • regulation of apoptosis/autophagy
  • non-melanoma skin cancer/melanoma biology and therapy.

We also research the effects of UVR on the skin including mitochondrial DNA damage as a UV biomarker.

Diabetes

This area emphasises on translational research, linking clinical- and laboratory-based science. Key research include:

  • mechanisms of insulin action and glucose homeostasis
  • insulin secretion and pancreatic beta-cell function
  • diabetic complications
  • stem cell therapies
  • genetics and epidemiology of diabetes.

Diagnostic and therapeutic technologies

Focus is on applied research and aims to underpin future clinical applications. Technology-oriented and demand-driven research is conducted which relates directly to health priority areas such as:

  • bacterial infection
  • chronic liver failure
  • cardiovascular and degenerative diseases.

This research is sustained through extensive internal and external collaborations with leading UK and European academic and industrial groups, and has the ultimate goal of deploying next-generation diagnostic and therapeutic systems in the hospital and health-care environment.

Kidney disease

There is a number of research programmes into the genetics, immunology and physiology of kidney disease and kidney transplantation. We maintain close links between basic scientists and clinicians with many translational programmes of work, from the laboratory to first-in-man and phase III clinical trials. Specific areas:

  • haemolytic uraemic syndrome
  • renal inflammation and fibrosis
  • the immunology of transplant rejection
  • tubular disease
  • cystic kidney disease.

The liver

We have particular interests in:

  • primary biliary cirrhosis (epidemiology, immunobiology and genetics)
  • alcoholic and non-alcoholic fatty liver disease
  • fibrosis
  • the genetics of other autoimmune and viral liver diseases

Magnetic Resonance (MR), spectroscopy and imaging in clinical research

Novel non-invasive methodologies using magnetic resonance are developed and applied to clinical research. Our research falls into two categories:

  • MR physics projects involve development and testing of new MR techniques that make quantitative measurements of physiological properties using a safe, repeatable MR scan.
  • Clinical research projects involve the application of these novel biomarkers to investigation of human health and disease.

Our studies cover a broad range of topics (including diabetes, dementia, neuroscience, hepatology, cardiovascular, neuromuscular disease, metabolism, and respiratory research projects), but have a common theme of MR technical development and its application to clinical research.

Musculoskeletal disease (including auto-immune arthritis)

We focus on connective tissue diseases in three, overlapping research programmes. These programmes aim to understand:

  • what causes the destruction of joints (cell signalling, injury and repair)
  • how cells in the joints respond when tissue is lost (cellular interactions)
  • whether we can alter the immune system and ‘switch off’ auto-immune disease (targeted therapies and diagnostics)

This research theme links with other local, national and international centres of excellence and has close integration of basic and clinical researchers and hosts the only immunotherapy centre in the UK.

Pharmacogenomics (including complex disease genetics)

Genetic approaches to the individualisation of drug therapy, including anticoagulants and anti-cancer drugs, and in the genetics of diverse non-Mendelian diseases, from diabetes to periodontal disease, are a focus. A wide range of knowledge and experience in both genetics and clinical sciences is utilised, with access to high-throughput genotyping platforms.

Reproductive and vascular biology

Our scientists and clinicians use in situ cellular technologies and large-scale gene expression profiling to study the normal and pathophysiological remodelling of vascular and uteroplacental tissues. Novel approaches to cellular interactions have been developed using a unique human tissue resource. Our research themes include:

  • the regulation of trophoblast and uNk cells
  • transcriptional and post-translational features of uterine function
  • cardiac and vascular remodelling in pregnancy

We also have preclinical molecular biology projects in breast cancer research.

Respiratory disease

We conduct a broad range of research activities into acute and chronic lung diseases. As well as scientific studies into disease mechanisms, there is particular interest in translational medicine approaches to lung disease, studying human lung tissue and cells to explore potential for new treatments. Our current areas of research include:

  • acute lung injury - lung infections
  • chronic obstructive pulmonary disease
  • fibrotic disease of the lung, both before and after lung transplantation.

Pharmacology, Toxicology and Therapeutics

Our research projects are concerned with the harmful effects of chemicals, including prescribed drugs, and finding ways to prevent and minimise these effects. We are attempting to measure the effects of fairly small amounts of chemicals, to provide ways of giving early warning of the start of harmful effects. We also study the adverse side-effects of medicines, including how conditions such as liver disease and heart disease can develop in people taking medicines for completely different medical conditions. Our current interests include: environmental chemicals and organophosphate pesticides, warfarin, psychiatric drugs and anti-cancer drugs.

Pharmacy

Our new School of Pharmacy has scientists and clinicians working together on all aspects of pharmaceutical sciences and clinical pharmacy.



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This research-based course has a taught component that is the same as an MSc. It provides a springboard into a career that involves a working knowledge of scientific research. Read more

This research-based course has a taught component that is the same as an MSc. It provides a springboard into a career that involves a working knowledge of scientific research.

The course is designed for graduates with a BSc in the life sciences or other science disciplines, and for intercalating and fully qualified MBBS or BDS students. It can be taken either as a stand-alone qualification or as an entry route onto a PhD or MD.

What you'll learn

The taught component of the course includes subject-specific content in the area of toxicology. You have the flexibility to develop your own bespoke course by selecting additional, complementary modules. You will also participate in training in general research principles, and other professional and key skills.

The subject-based modules give a broad understanding in toxicology, from basic concepts and molecular mechanisms to a review of target organ toxicities, pre-clinical and clinical pharmaceutical toxicology testing. They provide a broad overview of toxicology as it is applied in the pharmaceutical industries.

Your project

Your research project comprises the major element of the course. This project will involve 24 weeks of research in an area of toxicology under the supervision of an expert academic researcher in the field.

The course allows you to experience an internationally competitive research area, predominantly in academia but also potentially in industry.

Our MRes courses

Toxicology MRes is closely linked to a suite of MRes courses that you may also be interested in:

Faculty of Medical Sciences Graduate School

Our Medical Sciences Graduate School is dedicated to providing you with information, support and advice throughout your research degree studies. We can help and advise you on a variety of queries relating to your studies, funding or welfare.

Our Research Student Development Programme supports and complements your research whilst developing your professional skills and confidence.

You will make an on-going assessment of your own development and training needs through personal development planning (PDP) in the ePortfolio system. Our organised external events and development programme have been mapped against the Vitae Researcher Development Framework to help you identify how best to meet your training and development needs.



Read less
This research-based course has a taught component that is the same as an MSc. It provides a springboard into a career that involves a working knowledge of scientific research. Read more

This research-based course has a taught component that is the same as an MSc. It provides a springboard into a career that involves a working knowledge of scientific research.

The course is designed for graduates with a BSc in the life sciences or other science disciplines, and for intercalating and fully qualified MBBS or BDS students. It can be taken either as a stand-alone qualification or as an entry route onto a PhD or MD.

What you'll learn

The taught component of the course includes subject-specific content in the area of translational medicine and therapeutics. You have the flexibility to develop your own bespoke course by selecting additional, complementary modules. You will also participate in training in general research principles, and other professional and key skills.

Subject-based modules in translational medicine and therapeutics provide the opportunity to learn about the development and evaluation of new medicines and to develop skills in translational research relating to therapeutics. Teaching and supervision is provided by both university-based academics and experts from the pharmaceutical industry.

Your project

Your research project comprises the major element of the course. This project will involve 24 weeks of research in an area of translational medicine and therapeutics under the supervision of an expert academic researcher in the field.

The course allows you to experience an internationally competitive research area, predominantly in academia but also potentially in industry.

Our MRes courses

Translational Medicine and Therapeutics MRes is closely linked to a suite of MRes courses that you may also be interested in:

Faculty of Medical Sciences Graduate School

Our Medical Sciences Graduate School is dedicated to providing you with information, support and advice throughout your research degree studies. We can help and advise you on a variety of queries relating to your studies, funding or welfare.

Our Research Student Development Programme supports and complements your research whilst developing your professional skills and confidence.

You will make an on-going assessment of your own development and training needs through personal development planning (PDP) in the ePortfolio system. Our organised external events and development programme have been mapped against the Vitae Researcher Development Framework to help you identify how best to meet your training and development needs.



Read less
This research-based course has a taught component that is the same as an MSc. It provides a springboard into a career that involves a working knowledge of scientific research. Read more

This research-based course has a taught component that is the same as an MSc. It provides a springboard into a career that involves a working knowledge of scientific research.

The course is designed for graduates with a BSc in the life sciences or other science disciplines, and for intercalating and fully qualified MBBS or BDS students. It can be taken either as a stand-alone qualification or as an entry route onto a PhD or MD.

What you'll learn

The taught component of the course includes subject-specific content in the area of neuromuscular diseases. You have the flexibility to develop your own bespoke course by selecting additional, complementary modules. You will also participate in training in general research principles, and other professional and key skills.

Your project

Your research project comprises the major element of the course. This project will involve 24 weeks of research in an area of neuromuscular diseases under the supervision of an expert academic researcher in the field.

The course allows you to experience an internationally competitive research area, predominantly in academia but also potentially in industry.

Our MRes courses

Neuromuscular Diseases MRes is closely linked to a suite of MRes courses that you may also be interested in:

Faculty of Medical Sciences Graduate School

Our Medical Sciences Graduate School is dedicated to providing you with information, support and advice throughout your research degree studies. We can help and advise you on a variety of queries relating to your studies, funding or welfare.

Our Research Student Development Programme supports and complements your research whilst developing your professional skills and confidence.

You will make an on-going assessment of your own development and training needs through personal development planning (PDP) in the ePortfolio system. Our organised external events and development programme have been mapped against the Vitae Researcher Development Framework to help you identify how best to meet your training and development needs.



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Programme Description. The Cell Signalling in Health and Disease MRes is a research-based qualification with a taught component that is of an equivalent standard to an MSc. Read more

Programme Description

The Cell Signalling in Health and Disease MRes is a research-based qualification with a taught component that is of an equivalent standard to an MSc. The course provides a springboard into a career that involves a working knowledge of scientific research in academia and industry.

The course is designed for graduates with a BSc in the life sciences or other science disciplines, and for intercalating and fully qualified MBBS or BDS students. It can be taken either as a stand-alone qualification or as an entry route onto a PhD or MD.

The taught component of the course includes subject-specific content in the area of cell signalling in health and disease. You have the flexibility to develop your own bespoke course by selecting additional, complementary modules. You will also participate in training in general research principles, and other professional and key skills.

Your research project comprises the major element of the course. This project will involve 24 weeks of research in an area of cell signalling in health and disease under the supervision of an expert academic researcher in the field.

The course allows you to experience an internationally competitive research area, predominantly in academia but also potentially in industry.

Cell Signalling in Health and Disease MRes is closely linked to a suite of MRes courses that you may also be interested in:

Faculty of Medical Sciences Graduate School

Our Medical Sciences Graduate School is dedicated to providing you with information, support and advice throughout your research degree studies. We can help and advise you on a variety of queries relating to your studies, funding or welfare.

Our Research Student Development Programme supports and complements your research whilst developing your professional skills and confidence.

You will make an on-going assessment of your own development and training needs through personal development planning (PDP) in the ePortfolio system. Our organised external events and development programme have been mapped against the Vitae Researcher Development Framework to help you identify how best to meet your training and development needs.



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Our Biofabrication and Bioprinting MRes is a research-based course with a taught component that is equivalent to an MSc. It provides a springboard into a career that involves a working knowledge of scientific research. Read more

Our Biofabrication and Bioprinting MRes is a research-based course with a taught component that is equivalent to an MSc. It provides a springboard into a career that involves a working knowledge of scientific research.

This course is for students with a BSc in life sciences, biomaterials or other relevant science and engineering disciplines. It is also for intercalating and qualifiedMBBS or BDS students. You can study the course as a stand-alone qualification or as an entry route to a PhD or MD.

The taught part of the course includes biofabrication and bioprinting specific content. You have the flexibility to select complementary modules and develop a bespoke course. You will also have training in general research principles, professional and key skills.

Your research project is the major element of the course. Your project involves 24 weeks of research in an area of biofabrication and bioprinting. Supervision is by expert academic researchers in your field of interest.

Biofabrication and bioprinting is a competitive research area. Your studies will be mainly based in academia, though potentially in industry too.

The Biofabrication and Bioprinting MRes is closely linked to a suite of MRes courses that you may also be interested in:

Faculty of Medical Sciences Graduate School

Our Medical Sciences Graduate School is dedicated to providing you with information, support and advice throughout your research degree studies. We can help and advise you on a variety of queries relating to your studies, funding or welfare.

Our Research Student Development Programme supports and complements your research whilst developing your professional skills and confidence.

You will make an on-going assessment of your own development and training needs through personal development planning (PDP) in the ePortfolio system. Our organised external events and development course have been mapped against the Vitae Researcher Development Framework to help you identify how best to meet your training and development needs.



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The MA in Healthcare Ethics & Law course aims to provide the highest quality of training in health care ethics and health care law in a flexible and interdisciplinary way. Read more

The MA in Healthcare Ethics & Law course aims to provide the highest quality of training in health care ethics and health care law in a flexible and interdisciplinary way. There is an emphasis on the application of bioethical and legal theory to real world scenarios, thus catering to the practical needs of health care and legal professionals and those in related fields. Students gain an expert knowledge and understanding of bioethical and medico-legal theories, and the skills needed to apply them to real world scenarios in a diverse range of contexts. They will also develop the ethical and medico-legal knowledge and research skills required for writing a Masters-level dissertation, and will be well prepared for further research if they so desire.

You study a wide variety of ethical and legal subjects including autonomy, consent, refusal of treatment, confidentiality, the moral status of the foetus, resource allocation, genetic testing, HIV testing, medical malpractice, clinical negligence, organ and tissue transplantation, fertility treatment, genetic manipulation, research ethics, stem cell research and euthanasia.

Teaching and learning

Teaching tends to defy the traditional boundaries associated with lectures and seminars. Generally, each class in a course unit has a duration of 2 or 3 hours per week, and is split roughly equally between a formal, didactic period and a structured discussion period (most often based on the so-called challenge-response model). Nevertheless, each class is considered a seminar or lecture, and attendance of all classes of a course unit for which a student is enrolled is thus compulsory . For course units of 15 credit value there will generally be 15 hours of face-to-face teaching throughout the semester in which the unit is delivered, and twice that amount for 30 credit units.

Coursework and assessment

Assessment of all taught course units (to a total of 120 credits) is by assessed coursework in the form of essays of 4,000 words per 15 credit course unit and up to 7,000 words for the two 30 credit core course units. In addition, students who wish to complete the MA must submit a 12,000 to 15,000 word dissertation by independent research (60 credits); no dissertation is required for the PGDip or PGCert. Part-time students undertake a supervised dissertation in the summer months of year two. Please note that the part-time students can extend their registration for extra 3 months to submit their dissertations in December of their second year, instead of September (you will be advised of the exact date on the second year of the course).

Those who do not successfully complete the MA you may be considered for the award of the Postgraduate Diploma. 

Those who do not successfully complete the Postgraduate Diploma may be considered for the award of the Postgraduate Certificate.

The awards of the MA or Postgraduate Diploma are classified according to Pass/Merit/Distinction. The Postgraduate Certificate is awarded unclassified.

Course unit details

Students will be required to complete 180 credits: 120 credits comprised of taught course units (each of 15 or 30 credits value), and an independent research element of the course worth 60 credits by way of a Masters dissertation of between 12,000 and 15,000 words, which is undertaken over the summer months of the course. The dissertation should be predominantly law-based.

On the full time course, the 120 taught credits can be split in one of two ways: (1) 60 credits in each of the two semesters; or (2) 75 credits in semester one and 45 credits in semester two.

Students registered on the MA in Healthcare Ethics and Law would need to select a majority of their optional courses from the 'ethics' list (Ethics, Genetics and Genomics; Research Ethics). Global Health Law and Bioethics can count as an ethics or law course.

Details of all current course units available in the School of Law can be found on the Faculty of Humanities website.

Scholarships and bursaries

The School is offering a number of awards for students applying for masters study. To find out more please visit our  Master's funding opportunity search page .

Disability support

Practical support and advice for current students and applicants is available from the Disability Advisory and Support Service. Email: 

Career opportunities

Successful graduates are able to progress within a wide variety of roles in both medical, legal and ethical fields. Graduates from previous years have, for example, proceeded to specialise in medico-legal practice and academic careers, and the degrees have enhanced the careers of healthcare professionals.



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The MA Healthcare Ethics and Law course aims to provide you with the highest quality of training in health care ethics and health care law in a flexible and interdisciplinary way, thus catering to the practical needs of healthcare and legal professionals and those in related field. Read more

The MA Healthcare Ethics and Law course aims to provide you with the highest quality of training in health care ethics and health care law in a flexible and interdisciplinary way, thus catering to the practical needs of healthcare and legal professionals and those in related field.

You will gain an expert knowledge and understanding of bioethical and medico-legal theories, and the skills needed to apply them to real world scenarios in a diverse range of contexts.

You will study a wide variety of ethical and legal subjects including autonomy, consent, refusal of treatment, confidentiality, the moral status of the foetus, resource allocation, genetic testing, HIV testing, medical malpractice, clinical negligence, organ and tissue transplantation, fertility treatment, genetic manipulation, research ethics, stem cell research and euthanasia.

Teaching and learning

You are provided with a comprehensive set of course materials at the beginning of each course unit. These interactive specially designed materials provide an introduction to the issues and skills central to each unit and direct you to other study components such as further reading.

Each unit is supported by a virtual learning environment where you can access all course materials, online reading lists, podcasts, and the University's online library. You are encouraged to use the VLE to discuss issues raised in the course materials with your course tutor and fellow students. Tutors are also available to provide one to one support by telephone, skype, e-mail and face to face meetings. You will have access to a wide range of online resources to support your learning via the library website. An optional study day is held each year giving you an opportunity to meet tutors and colleagues face to face on campus. Students studying by distance learning are welcome to attend the regular research seminars that take place on campus during term time.

Coursework and assessment

At the end of each of the course units for our distance learning courses, you are required to submit an essay of 4,000 words (for course units to the value of 15 credits) or 7,000 words (for course units to the value of 30 credits). In addition, MA students must submit a supervised 12,000 to 15,000 word dissertation by independent research (60 credits). As a part-time student, you will undertake a dissertation in the summer months of year two. Please note that you can also extend your registration for extra 3 months to submit a dissertation in December of your second year, instead of September (you will be advised of the exact date on the second year of the course).

Those students who do not achieve success in the MA may be considered for the award of the Postgraduate Diploma. The award of the MA is classified according to Pass/Merit/Distinction.

Course unit details

Students will be required to complete 180 credits: 120 credits comprised of taught course units (each of 15 or 30 credits value) and the independent research element (dissertation) worth 60 credits. On the distance learning course students complete 60 credits of taught course units in the first year and 60 credits in the second year, together with a dissertation of between 12000 -15,000 words, which is undertaken over the summer months in year 2.

The Core course units for the distance learning course are:

  • Philosophical Bioethics (30 credits)
  • Medico-Legal Problems (30 credits)
  • International Issues in Healthcare Ethics and Law (30 credits)

Students must choose optional course units to a total value of 30 credits from the following list:

  • Law-based Medicine, Law & Society (15 credits)Mental Health Law & Policy (15 credits)
  • Ethics-based Research Ethics (15 credits)Ethics Genetics and Genomics (15 credits)

Details of all current course units available in the School of Law can be found on the Faculty of Humanities website 

Scholarships and bursaries

The School is offering a number of awards for students applying for masters study. To find out more please visit our  Master's funding opportunity search page .

Disability support

Practical support and advice for current students and applicants is available from the Disability Advisory and Support Service. Email: 

Career opportunities

Successful graduates of the MA are able to progress within a wide variety of roles in both medical, legal and ethical fields.

Graduates from previous years have, for example, proceeded to specialise in medico-legal practice and academic careers, and the degrees have enhanced the careers of health care professionals.



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SOLVE PUBLIC HEALTH PROBLEMS OF THE FUTURE. We need well-trained and creative minds to help us solve public health problems of the future. Read more

SOLVE PUBLIC HEALTH PROBLEMS OF THE FUTURE

We need well-trained and creative minds to help us solve public health problems of the future. Do you see yourself tackling the increasing incidences of allergies and autoimmune disease, working on emerging infections such as Ebola and MRSA? Would you spend your time on developing personalised medicine to treat cancer or chronic inflammatory diseases? Join our programme!

THE RIGHT CHOICE FOR YOU?

This Master’s programme gives you the knowledge and research expertise needed to solve the public health problems of the future. Emerging infectious are a threat to human and animal well-being and an increasing number of allergies and chronic inflammatory diseases have a major impact on individuals and society as a whole. Knowledge of the immune system provides us with potential health care solutions for cancer, transplantation and downregulation of a hyperactive immune system as for example in rheumatoid arthritis. By training students in the field of Infection and Immunity, this programme contributes to accumulation of knowledge that is directly or indirectly leading to faster diagnosis of diseases and better treatment options.

This Master’s programme will give you a firm foundation in the field of infection and immunity and covers a variety of topics such as fundamental and clinical immunology, vaccines, immunotherapy, mechanisms of infectious diseases, molecular epidemiology of infections, virulence factors of microorganisms, and resistance to treatment.

WHY STUDY INFECTION AND IMMUNITY AT UTRECHT UNIVERSITY?

Infection, immunity, and the role of microflora in human and animal welfare is one of Utrecht University’s core research areas and the Graduate School of Life Sciences is home to a large number of world-leading research groups working in this field. Utrecht’s life science campus comprises over 50 Infection and Immunity groups in the field of human and animal health covering the whole range from molecular biology to population level. This two-year research Master's offers an unique combination of studying Immunology and infectious diseases in one comprehensive Master’s programme including extensive training in laboratory research skills. As a student you will have the opportunity to carry out two hands-on research projects at renowned research groups.

Infection and Immunity has intensive collaboration with international research institutes, allowing students to do their minor internship abroad at prestigious partner universities all around the world.

Read more on why in Utrecht

WHAT YOU’LL LEARN

As a Master’s student of Infection and Immunity, you will take theory courses and seminars, as well as master classes led by specialists in the field. You will study molecular, cellular, and clinical aspects of pathogens and immune responses. During your six to nine month internships you work in a lively research environment during which you will gain hands-on experience of biomedical research in Infection and Immunity. We believe that understanding both pathogens and host reactions provides deeper insight into the mechanisms of illness, so you will complete internships in both infection and immunity.

The annual scientific symposium is a particular highlight. This symposium is organised by Master’s students and features talks by international experts and poster presentations by second year Master’s Infection and Immunity students on their own areas of research.

Read more on our study programme



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