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Masters Degrees (Cardiovascular Medicine)

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Preventative Cardiovascular Medicine Courses Online. Diploma MSc is a leading provider of online medical education for Postgraduate Diplomas and Masters courses. Read more
Preventative Cardiovascular Medicine Courses Online

Diploma MSc is a leading provider of online medical education for Postgraduate Diplomas and Masters courses. Working in conjunction with the University of South Wales, who have an established reputation for delivering innovative learning, we currently offer a Postgraduate Diploma and MSc in Preventative Cardiovascular Medicine. These Preventative Cardiovascular Medicine courses are one-of-a-kind and have been developed to holistically address the approach to vascular disease.

Our team of course authors and tutors are recognised experts and opinion leaders in their specialty areas; this fact, in conjunction with our affordable prices, promises a truly accessible course of the highest standard.

Both the Postgraduate Diploma and Masters in Preventative Cardiovascular Medicine courses are aimed at GPs, Secondary Care Trainees in Diabetes, Vascular Surgery, Cardiology, Medical Biochemistry, Allied Health Professionals and Practice Nurses running CV clinics who wish to develop their skills in this area of work.

The Preventative Cardiovascular Medicine Courses can be completed online and are available 24/7, giving you the flexibility to learn at a time that suits your busy schedule.

Our Diploma in Preventative Cardiovascular Medicine has been developed for GPs, Secondary Care Trainees in Diabetes, Vascular Surgery, Cardiology, Medical Biochemistry, Allied Health Professionals and Practice Nurses running CV clinics who wish to develop their skills in this area of work. Our course is pioneering and focuses on preventative cardiovascular medicine rather than on cardiology. You will be one of the first to attain a recognised qualification in this area.

* Diploma MSc has a Commercial Participator Relationship with HEART UK – The Cholesterol Charity. Diploma MSc pays an introductory fee to HEART UK Trading Company Ltd for every student accepted on the Preventative Cardiovascular Medicine course who has been recommended by HEART UK. Registration number 03679100 (which gift aids all of its taxable profits to HEART UK) to help raise the awareness of the risks of raised cholesterol. http://www.heartuk.org.uk.

Entry Requirements

Postgraduate Diploma

Health professionals working within a clinical setting, both UK and overseas, with a related Healthcare Science degree (including international qualifications) are eligible to apply for the PG Diploma course.

Applicants without the above academic criteria but relevant/suitable experience can apply. Applications will be judged on the individual specifics of background and qualifications including ability to work at Postgraduate level (applicants may be asked to submit a piece of work for assessment to confirm that they are able to work comfortably at Postgraduate level and demonstrate requisite clinical/professional knowledge).

Applicants should submit copies of the following with their application:

qualification certificates
one written reference
English language qualification (IELTS 6.5 or equivalent) please see University of South Wales for further details

MSc

Health professionals, both UK and overseas, wishing to further their education who have previously completed a Postgraduate Diploma in Diabetes from the University of South Wales are eligible to apply for this MSc Diabetes course online.

Applicants can also apply for our MSc qualification as a two-year course (undertaking the Postgraduate Diploma in their first year).

Applicants can also enter the MSc programmes if they have completed a Postgraduate Diploma in Diabetes from another UK University, having successfully acquired 120 M level Credits.

Applicants should submit copies of the following with their application:

qualification certificates
one written reference

Read less
Preventative Cardiovascular Medicine is a rapidly evolving branch of medicine involved in the prevention of cardiovascular diseases such as stroke, coronary heart disease and peripheral vascular disease. Read more
Preventative Cardiovascular Medicine is a rapidly evolving branch of medicine involved in the prevention of cardiovascular diseases such as stroke, coronary heart disease and peripheral vascular disease. Our postgraduate diploma online course aims to create professionals who can independently access information and use the information to critically assess, evaluate and disseminate the evidence base related to Preventative Cardiovascular Medicine. It will develop problem solving and clinical skills together with preparing students to take a leadership role in this medical area.

On completion of the course you will be able to:
- Demonstrate advanced knowledge and competence.
- Deliver management strategies for the investigation and treatment of patients at increased cardiovascular risk.
- Develop and deliver interventions for the wider population and safely use preventative cardiovascular approaches in specific cases.

See the website http://courses.southwales.ac.uk/courses/1798-postgraduate-diploma-in-preventative-cardiovascular-medicine-online-delivery

What you will study

The course consists of 6 modules per year, each of 6 weeks duration:

Principles of Preventative Cardiovascular Medicine (20 credits)
This module focuses on the science underpinning preventative cardiovascular medicine and the assessment of cardiovascular risk as applied to clinical practice.

Cardiovascular Risk Management (20 credits)
This modules aims to develop a critical understanding of nutrition and lifestyle factors in the development of cardiovascular disease.
- Lipid Metabolism in Clinical Practice (20 credits)*
This module develops a comprehensive understanding of lipid metabolism and disorders, and their presentation and assessment in clinical practice.

Management of Lipid Disorders (20 credits)
This module ensures that students develop a comprehensive understanding of lipid metabolism and disorders, and their presentation and assessment in clinical practice.

Hypertension: Diagnosis and Management (20 credits)
This module enables students to develop a critical understanding of the pathophysiology and management of hypertension.

Preventative Cardiovascular Medicine in Special Situations (20 credits)
This module involves gaining a critical understanding of preventative cardiovascular medicine in a wide range of relevant clinical conditions.

Learning and teaching methods

Each of the 6 modules is taught online and includes self-directed learning, tutor stimulated discussion on case scenarios, examinations, group projects and independent projects. Reflective practice is also studied which involves considering how you can apply the knowledge gained into everyday work and practice.

Work Experience and Employment Prospects

The course promotes and enhances professional skills and knowledge among its students that have direct relevance and application to the demands of their working roles. There is increasing competition for employment in the healthcare arena, with increasing specialisation. It is envisaged that students will be GPs, medical trainees in Diabetes, Vascular surgery, Cardiology, Medical Biochemistry in addition to Allied Health Professionals, and Practice Nurses running CV clinics.

Assessment methods

Assessment methods will vary for each module and include case-based examinations, discussions and scenarios, reflective portfolio, forum discussions and group activities.

Facilities

As part of your online studies you will have access to the Learning Resources Centre materials at the University of South Wales. FINDit is the University’s portal which allows you to search for over 13,000 full-text journal articles, news articles, conference proceedings and approximately 160 databases via one search box, the majority of these materials are accessible online. Interactive study skills modules are available to study via Blackboard to enable you to utilise the library services fully.

Teaching

You will be taught by healthcare professionals who are recognised experts in Preventative Cardiovascular Medicine and are experienced in delivering online learning:
- Dr. Alan Rees – Consultant Physician, RCP vice president for Wales, Medical Director HEART UK
- Dr. Dev Datta – Consultant in Medical Biochemistry and Metabolic Medicine
- Dr. Ian McDowell – Senior Lecturer and Consultant, Chair of Familial Hypercholesterolaemia (FH) Wales Cascade Service, Chair of - FH Wales Professional Advisory Group
- Dr. Devaki Nair– Consultant Lipidologist and Chemical Pathologist
- Dr. Steve Davies – Consultant Endocrinologist and Director of Diploma MSc

Work and Study Placements

Students will usually be employed as health care professionals before commencing this course. Consequently work or study placements are not available.

Read less
Preventative Cardiovascular Medicine is a rapidly evolving branch of medicine involved in the prevention of cardiovascular diseases such as stroke, coronary heart disease and peripheral vascular disease. Read more
Preventative Cardiovascular Medicine is a rapidly evolving branch of medicine involved in the prevention of cardiovascular diseases such as stroke, coronary heart disease and peripheral vascular disease.

This masters online course is designed to be practical and clinically focused and will focus on applying scientific principles to direct patient care. It aims to create professionals who can independently access information and use the information to critically assess, evaluate and disseminate the evidence base related to Preventative Cardiovascular Medicine. It will develop problem solving and clinical skills together with preparing students to take a leadership role.

On completion of the course, you will be able to:
- Deliver management strategies for the investigation and treatment of patients at increased cardiovascular risk.
- Demonstrate knowledge and competence in Preventative Cardiovascular Medicine.
- Develop and deliver Preventative Cardiovascular interventions for the wider population.

See the website http://courses.southwales.ac.uk/courses/1797-msc-preventative-cardiovascular-medicine-online-delivery

Facilities

As part of your online studies you will have access to the Learning Resources Centre materials at the University of South Wales. FINDit is the University’s portal which allows you to search for over 13,000 full-text journal articles, news articles, conference proceedings and approximately 160 databases via one search box- the majority of these materials are accessible online. Interactive study skills modules are available to study via Blackboard to enable you to utilise the library services fully.

Teaching

You will be taught by healthcare professionals who are recognised experts in Preventative Cardiovascular Medicine and are experienced in delivering online learning:

- Dr. Alan Rees – Consultant Physician, RCP vice president for Wales, Medical Director HEART UK

- Dr. Dev Datta – Consultant in Medical Biochemistry and Metabolic Medicine

- Dr. Ian McDowell – Senior Lecturer and Consultant, Chair of Familial Hypercholesterolaemia (FH) Wales Cascade Service, Chair of FH Wales Professional Advisory Group

- Dr. Devaki Nair– Consultant Lipidologist and Chemical Pathologist

- Dr. Steve Davies – Consultant Endocrinologist and Director of Diploma MSc

Work and Study Placements

Students will usually be employed as health care professionals before commencing this course. Consequently work or study placements are not available.

Read less
This programme aims to provide you with a firm foundation in biomedical research methodology, focused on translational cardiovascular medicine, by enhancing your knowledge, understanding, critical awareness and practical research experience in this area. Read more

Programme overview

This programme aims to provide you with a firm foundation in biomedical research methodology, focused on translational cardiovascular medicine, by enhancing your knowledge, understanding, critical awareness and practical research experience in this area. The programme provides a firm theoretical grounding in the scientific principles and clinical applications of translational cardiovascular medicine, as well as intensive training in research methodology, experimental design, statistical analyses, data interpretation and science communication.

The core of the programme is a six-month research project, conducted within one of the University of Bristol's internationally recognised translational cardiovascular medicine research groups. Opportunities will be available in laboratory or clinical-based investigations.

The programme is suitable for clinical and bioscience graduates who wish to develop their research skills within this exciting field. It is also suitable for clinical students interested in pursuing a research-intensive intercalation option after three years of study.

Programme structure

This programme is delivered by research scientists and clinicians through lectures, tutorials, seminars, research clubs and practical classes. In addition to four mandatory units relating to research methodology, students choose two units on aspects of cardiovascular science.

Mandatory units

- Introduction to Research Methods in Health Sciences (10 credits)
This unit introduces a variety of research methods used in basic and applied clinical research including: finding and reading relevant research information; presenting research results; basic statistical analysis; data interpretation; ethics.
- Further Research Methods in Health Sciences (20 credits)
This unit aims to develop further knowledge and practical experience in statistical analyses, experimental design and laboratory methods and includes training in the use of a statistical software package and practical experience in several laboratory techniques.
- Research Club in Health Sciences (10 credits)
This unit aims to develop your ability to present, critically evaluate and discuss scientific findings by contributing to journal clubs, attending and summarising research seminars and presenting your own research.
- Research Project in Translational Cardiovascular Medicine (100 credits)
During this unit you will gain extensive experience in scientific/clinical research by conducting an independent project. You will write up your research in the form of a thesis, present and discuss your work in a viva and research symposium.

Plus a choice of two of the following units:

- Coronary Artery Disease I (20 credits)
- Coronary Artery Disease II (20 credits)
- Heart and Valve Disease (20 credits)
- Paediatric Heart Disease (20 credits)
- Aneurysm, Peripheral Vascular Disease and Stroke (20 credits)

Careers

This programme is suitable for those with a bioscience or clinical background who wish to develop their research skills before embarking on a research/clinical career in academia or the pharmaceutical industry. It provides the ideal foundation for further studies leading to a PhD.

Read less
Recognising the need for the development of a cohort of appropriately qualified scientific, medical/dental and veterinary graduates, we are offering a research intensive, student-oriented MRes in Translational Medicine. Read more
Recognising the need for the development of a cohort of appropriately qualified scientific, medical/dental and veterinary graduates, we are offering a research intensive, student-oriented MRes in Translational Medicine. The MRes in Translational Medicine provides high quality graduates with the research rigour, the innovation culture and the leadership skills to be at the forefront of this translational revolution and so develop a cohort of appropriately qualified scientific medical/dental and veterinary graduates.

Translational Medicine allows experimental findings in the research laboratory to be converted into real benefit for the health and well-being of the patient, through the development of new innovative diagnostic tools and therapeutic approaches.

The main objective of the MRes Programme in Translational Medicine is to provide high quality candidates with the research rigour, innovation culture and the leadership skills to be at the forefront of this translational revolution. Students will receive expert training in all aspects of translational medicine including how new experimental findings are translated into treatments for patients; the experimental steps in the process, the development of innovative solutions, management and leadership skills and an appreciation of marketing and financial aspects of translational medicine through interaction with business leaders and scientists from Biotech and Pharma

This research intensive programme incorporates a 38 week research project in an area selected by the student in consultation with the research project co-ordinator. student selected area.

QUB has an international reputation in translational medicine, achieved through the recognised metrics of high impact peer review publications, significant international research funding, the generation of exploitable novel intellectual property and the establishment of successful spin-out biotech companies. This ethos of innovation was recently recognised with the award of the Times Higher Education Entrepreneurial University of the Year.

This unique course offers students the chance to choose one of these three research streams with the indicated specialist modules:

-

Precision Cancer Medicine

This stream provides students with a unique opportunity to study cancer biology and perform innovative cancer research within the Centre for Cancer Research and Cell Biology (CCRCB). Prospective students are immersed in this precision medicine milieu from Day 1, providing for them the opportunity to understand the key principles in discovery cancer biology and how these research advances are translated for the benefit of cancer patients. The strong connectivity with both the biotech and biopharmaceutical sectors provides a stimulating translational environment, while also opening up potential doors for the student's future career.

-

Cardiovascular Medicine

This stream contains two complementary modules which significantly build on the foundation provided by undergraduate medicine or biomedical science to provide students with an advanced insight into current understanding of cardiovascular pathobiology and an appreciation of how this knowledge is being applied in the search for novel diagnostic, prognostic and therapeutic approaches for the clinical management of cardiovascular disease, which remains the leading cause of death worldwide. Students who select the Cardiovascular Medicine Stream will be taught and mentored within the Centre for Experimental Medicine which is a brand new, purpose-built institute (~7400m2) at the heart of the Health Sciences Campus. This building represents a significant investment (~£32m) by the University and boasts state-of-the-art research facilities which are supported by a world-leading research-intensive faculty, ensuring that all of our postgraduate students are exposed to a top quality training experience.

-

Inflammation, infection and Immunity

This stream exposes students to exciting concepts and their application in the field of infection biology, inflammatory processes and the role of immunity in health and disease. There will be detailed consideration of the role of the immune system in host defence and in disease. There is a strong emphasis is on current developments in this rapidly progressing field of translational medicine. Students learn how to manipulate the inflammatory/immune response and their interaction with microbes to identify, modify and prevent disease. Students will also be introduced to the concepts of clinical trials for new therapeutics, and the basic approach to designing a trial to test novel methods to diagnose/prevent or treat illness.

Read less
This programme aims to develop your interest in translational cardiovascular research and medicine and equip you with an enhanced knowledge, understanding and critical awareness of the current approaches and emerging research in this area. Read more
This programme aims to develop your interest in translational cardiovascular research and medicine and equip you with an enhanced knowledge, understanding and critical awareness of the current approaches and emerging research in this area. The programme, which is delivered by clinicians and scientists, provides a firm theoretical grounding in the basic scientific principles and clinical applications of translational cardiovascular medicine, and will help you to develop essential skills and prepare for employment or a further higher degree in this field. In addition, you will be introduced to key practical techniques employed in this field.

The programme is designed to appeal to a wide range of students, including scientists and clinicians. Students have the option to study by distance learning or on campus. For distance learning students two-week residential workshops will be held in Bristol, comprising lectures and seminars as well as journal clubs, practical sessions, visits to clinical sessions and assessments. Campus-based students will attend lectures, seminars, journal clubs, visits to clinical sessions, tutorials and practicals in Bristol. Each module will comprise tutorials and lectures plus essays and assessments.

Programme structure

Core units
-Generic Laboratory Skills
-Clinical Trials and Statistics
-Coronary Artery Disease I
-Coronary Artery Disease II
-Heart and Valve Disease
-Paediatric Heart Disease
-Aneurysm, Peripheral Vascular Disease and Stroke

Research project
This can either be a 'wet' (based in Bristol) or a 'dry' (remote) project of an appropriate area of study. It will be presented both in written form and orally with a mini presentation.

Careers

Our MSc programme is suitable for a wide range of students: basic scientists, clinicians, and allied health professionals (eg radiologists, perfusionists, cardiac nurses). The course may enable students to go on to apply for a PhD, or become an allied health professional. In addition, it should enable students to progress in their current careers.

Read less
Interested in finding treatments for the most common disease? This Master programme focuses on frontline knowledge and research in the field of experimental cardiovascular medicine. Read more
Interested in finding treatments for the most common disease? This Master programme focuses on frontline knowledge and research in the field of experimental cardiovascular medicine. The programme is concerned with the understanding of cellular and molecular mechanisms related to the pathogenesis and pathophysiology of cardiovascular disease. In focus is development of new pharmacological and interventional therapies for future treatments of cardiovascular diseases. The programme offers in-depth theoretical knowledge and excellent methodological skills including in vivo and in vitro models used to study cardiovascular disease. The programme is coordinated by Cardiovascular Research Centre in close cooperation with national and international research groups.

Read less
Cardiovascular disease is projected to remain the single leading cause of death over the next two decades, accountable for considerable disability and reduction in quality of life. Read more

Cardiovascular disease is projected to remain the single leading cause of death over the next two decades, accountable for considerable disability and reduction in quality of life. This Masters in Cardiovascular Sciences will include specialist training in the epidemiological nature of the disease, in combination with analysis of the cellular and molecular mechanisms that underlie its development. 

Why this programme

  • This course is provided by world leading experts in the British Heart Foundation (BHF) Glasgow Cardiovascular Research Centre. Cardiovascular medicine at Glasgow is rated in the UK’s top ten and has a research grant income of £50m.
  • Research for the MSc in Cardiovascular Sciences is supported by the BHF, MRC, Wellcome Trust, CSO, BBSRC and the European Commission.
  • You will undertake a research project with an established cardiovascular researcher.
  • The Cardiovascular Science degree has a modular based course containing taught elements, tutorial sessions, critical review sessions and hands-on demonstration of current laboratory techniques.
  • Tailored laboratory projects to suit students' expertise and interests.
  • If you are a science or medicine graduate looking to gain knowledge and new skills in the field of cardiovascular medicine, this programme is designed for you.
  • You will have the opportunity to acquire and integrate a knowledge base in many new techniques for research in clinical cardiovascular medicine, including established risk factor measurements, novel imaging techniques, gene therapy, stem cells and the evolving genomics and proteomics fields.
  • Cardiovascular science is a priority area for research funding, in recognition of the fact that new, improved treatments are required and that these can only arise through better understanding of its development. The University of Glasgow has a world-renowned reputation for expertise in cardiovascular research and education. 
  • Opportunities exist at Glasgow University to continue to PhD studies.

Programme structure

In addition to the taught courses you will take part in student-led critical review sessions where you will provide a critical appraisal of a scientific research paper taken from current literature.

You will also take part in an introductory session on how to review a scientific paper, designed to give you experience of reading, summarising and presenting the findings of a scientific publication in a critical manner.

Core courses

  • Clinical Aspects of Cardiovascular Disease
  • Established and Novel Research Techniques
  • Evidence-based Research in Medicine
  • Medical Statistics
  • Topics in Therapeutics: General Topics and Cardiovascular Disease
  • Topics in Therapeutics: Commonly Used Drugs
  • Pharmacogenomic and Molecular Medicine: Fundamentals of Molecular Medicine 
  • Pharmacogenomic and Molecular Medicine: Applied Pharamcogenomics and Molecular Medicine

Optional courses

  • Basic Science Diabetes and Vascular Disease
  • Clinical and Research Audit

In addition you will undertake a dissertation/project supervised by an established cardiovascular researcher.

Career prospects

Successful graduates will emerge equipped with the skills necessary for a career in the highly competitive field of cardiovascular research. Career opportunities include education, clinical translational cardiovascular research, public health bodies or commercial industrial research in the field of cardiovascular medicine. Students who have completed course are currently employed in NHS, PhD programmes, academia and industry.



Read less
Recognising the need for the development of a cohort of appropriately qualified scientific, medical/dental and veterinary graduates, we are offering a research intensive, student-oriented MRes in Translational Medicine. Read more
Recognising the need for the development of a cohort of appropriately qualified scientific, medical/dental and veterinary graduates, we are offering a research intensive, student-oriented MRes in Translational Medicine. The MRes in Translational Medicine provides high quality graduates with the research rigour, the innovation culture and the leadership skills to be at the forefront of this translational revolution and so develop a cohort of appropriately qualified scientific medical/dental and veterinary graduates.

Translational Medicine allows experimental findings in the research laboratory to be converted into real benefit for the health and well-being of the patient, through the development of new innovative diagnostic tools and therapeutic approaches.

The main objective of the MRes Programme in Translational Medicine is to provide high quality candidates with the research rigour, innovation culture and the leadership skills to be at the forefront of this translational revolution. Students will receive expert training in all aspects of translational medicine including how new experimental findings are translated into treatments for patients; the experimental steps in the process, the development of innovative solutions, management and leadership skills and an appreciation of marketing and financial aspects of translational medicine through interaction with business leaders and scientists from Biotech and Pharmacy

This research intensive programme incorporates a 38 week research project in an area selected by the student in consultation with the research project co-ordinator. student selected area.

QUB has an international reputation in translational medicine, achieved through the recognised metrics of high impact peer review publications, significant international research funding, the generation of exploitable novel intellectual property and the establishment of successful spin-out biotech companies. This ethos of innovation was recently recognised with the award of the Times Higher Education Entrepreneurial University of the Year.

This unique course offers students the chance to choose one of these three research streams with the indicated specialist modules:

-

Precision Cancer Medicine

This stream provides students with a unique opportunity to study cancer biology and perform innovative cancer research within the Centre for Cancer Research and Cell Biology (CCRCB). Prospective students are immersed in this precision medicine milieu from Day 1, providing for them the opportunity to understand the key principles in discovery cancer biology and how these research advances are translated for the benefit of cancer patients. The strong connectivity with both the biotech and biopharmaceutical sectors provides a stimulating translational environment, while also opening up potential doors for the student's future career.

-

Cardiovascular Medicine

This stream contains two complementary modules which significantly build on the foundation provided by undergraduate medicine or biomedical science to provide students with an advanced insight into current understanding of cardiovascular pathobiology and an appreciation of how this knowledge is being applied in the search for novel diagnostic, prognostic and therapeutic approaches for the clinical management of cardiovascular disease, which remains the leading cause of death worldwide. Students who select the Cardiovascular Medicine Stream will be taught and mentored within the Centre for Experimental Medicine which is a brand new, purpose-built institute (~7400m2) at the heart of the Health Sciences Campus. This building represents a significant investment (~£32m) by the University and boasts state-of-the-art research facilities which are supported by a world-leading research-intensive faculty, ensuring that all of our postgraduate students are exposed to a top quality training experience.

-

Inflammation, infection and Immunity

This stream exposes students to exciting concepts and their application in the field of infection biology, inflammatory processes and the role of immunity in health and disease. There will be detailed consideration of the role of the immune system in host defence and in disease. There is a strong emphasis is on current developments in this rapidly progressing field of translational medicine. Students learn how to manipulate the inflammatory/immune response and their interaction with microbes to identify, modify and prevent disease. Students will also be introduced to the concepts of clinical trials for new therapeutics, and the basic approach to designing a trial to test novel methods to diagnose/prevent or treat illness.

Read less
Recognising the need for the development of a cohort of appropriately qualified scientific, medical/dental and veterinary graduates, we are offering a research intensive, student-oriented MRes in Translational Medicine. Read more
Recognising the need for the development of a cohort of appropriately qualified scientific, medical/dental and veterinary graduates, we are offering a research intensive, student-oriented MRes in Translational Medicine. The MRes in Translational Medicine provides high quality graduates with the research rigour, the innovation culture and the leadership skills to be at the forefront of this translational revolution and so develop a cohort of appropriately qualified scientific medical/dental and veterinary graduates.

Translational Medicine allows experimental findings in the research laboratory to be converted into real benefit for the health and well-being of the patient, through the development of new innovative diagnostic tools and therapeutic approaches.

The main objective of the MRes Programme in Translational Medicine is to provide high quality candidates with the research rigour, innovation culture and the leadership skills to be at the forefront of this translational revolution. Students will receive expert training in all aspects of translational medicine including how new experimental findings are translated into treatments for patients; the experimental steps in the process, the development of innovative solutions, management and leadership skills and an appreciation of marketing and financial aspects of translational medicine through interaction with business leaders and scientists from Biotech and Pharmacy

This research intensive programme incorporates a 38 week research project in an area selected by the student in consultation with the research project co-ordinator. student selected area.

QUB has an international reputation in translational medicine, achieved through the recognised metrics of high impact peer review publications, significant international research funding, the generation of exploitable novel intellectual property and the establishment of successful spin-out biotech companies. This ethos of innovation was recently recognised with the award of the Times Higher Education Entrepreneurial University of the Year.

This unique course offers students the chance to choose one of these three research streams with the indicated specialist modules:

-

Precision Cancer Medicine

This stream provides students with a unique opportunity to study cancer biology and perform innovative cancer research within the Centre for Cancer Research and Cell Biology (CCRCB). Prospective students are immersed in this precision medicine milieu from Day 1, providing for them the opportunity to understand the key principles in discovery cancer biology and how these research advances are translated for the benefit of cancer patients. The strong connectivity with both the biotech and biopharmaceutical sectors provides a stimulating translational environment, while also opening up potential doors for the student's future career.

-

Cardiovascular Medicine

This stream contains two complementary modules which significantly build on the foundation provided by undergraduate medicine or biomedical science to provide students with an advanced insight into current understanding of cardiovascular pathobiology and an appreciation of how this knowledge is being applied in the search for novel diagnostic, prognostic and therapeutic approaches for the clinical management of cardiovascular disease, which remains the leading cause of death worldwide. Students who select the Cardiovascular Medicine Stream will be taught and mentored within the Centre for Experimental Medicine which is a brand new, purpose-built institute (~7400m2) at the heart of the Health Sciences Campus. This building represents a significant investment (~£32m) by the University and boasts state-of-the-art research facilities which are supported by a world-leading research-intensive faculty, ensuring that all of our postgraduate students are exposed to a top quality training experience.

-

Inflammation, infection and Immunity

This stream exposes students to exciting concepts and their application in the field of infection biology, inflammatory processes and the role of immunity in health and disease. There will be detailed consideration of the role of the immune system in host defence and in disease. There is a strong emphasis is on current developments in this rapidly progressing field of translational medicine. Students learn how to manipulate the inflammatory/immune response and their interaction with microbes to identify, modify and prevent disease. Students will also be introduced to the concepts of clinical trials for new therapeutics, and the basic approach to designing a trial to test novel methods to diagnose/prevent or treat illness.

Read less
Our Master of Research (MRes) in Translational Medicine will give you the research skills you need to use state-of-the-art biotechnologies to rapidly translate disease research into improved clinical healthcare. Read more

Our Master of Research (MRes) in Translational Medicine will give you the research skills you need to use state-of-the-art biotechnologies to rapidly translate disease research into improved clinical healthcare.

Our understanding of the molecular basis of disease and drug mechanisms has improved dramatically in recent years, yet there is a distinct shortage of individuals able to apply this knowledge into effective clinical benefit. The core aim is to train the next generation of scientists able to 'fast-track' biological and scientific data into advanced therapies and diagnostics tools.

With advances in technology, graduates are faced with heightened expectations to conduct effective bioscience research. Employers demand skillsets with biological, medical, physical and computational characteristics, and our course is designed to provide this breadth of training.

You will learn omics skills and techniques such as genetics, genomics, transcriptomics, proteomics and metabolomics. Our training in metabolomic techniques is novel for a UK course, while our teaching on the integration of different omic platforms and data in a systems medicine strategy is also unique.

The MRes course consists of four taught units - which together make up the PGCert - plus an extended 35-week project that can be undertaken at the University, the Manchester Cancer Research Centre or a teaching hospital in Greater Manchester.

You can choose from a range of projects covering areas such as the use of gene expression profiling, proteomics, metabolomics, stem cell research, tissue culture or pharmacogenetics in the biology of cancer, cardiovascular disease, infectious diseases, stroke or diabetes.

Completing our course will open up a route into PhD research. You may also pursue a career in academia or the pharmaceutical or biotechnology industries, or as a clinical academic.

Special features

Extensive research experience

The 35-week research project for the MRes award offers the chance to conduct ambitious projects in areas such as cancer, cardiovascular disease, inflammation, mental health, infectious diseases, stroke or diabetes, using methods such as stem cell research, proteomics, metabolomics, tissue culture or pharmacogenetics.

Integrated focus on key topics

Our course has a strong and integrated focus on genetics, genomics, proteomics and metabolomics biotechnology and data interpretation, which are strengths within Manchester and are identified as core areas of bioscience growth.

Teaching and learning

Teaching comprises four taught units delivered using a variety of face-to-face, workshop and e-learning approaches and an extended 35-week research project for the MRes award.

Examples of research projects include the following.

  • Statins in translational cerebral ischemia: systematic review and meta-analysis of pre-clinical studies.
  • Parallel gene expression profiling and histological analysis of tumour tissue microarrays.
  • Development of a New Drug For Alzheimer's Disease by Drug Repositioning.
  • Identification of genetic variants predisposing to autoimmune idiopathic inflammatory myopathies.
  • Effects of differentiating agents on breast cancer stem cells and their sensitivity to DNA-damaging therapies.
  • Molecular characterisation of prostate cancer.
  • Inhibitors of IAPP Aggregation and Toxicity. 
  • New Therapies for Type II Diabetes.
  • Identifying novel monotherapy and combination therapies for the treatment of Glioma.
  • Translation of in vitro to in vivo: investigating the utility of in vitro drug transporter assays to predict inductive effects in the clinic.
  • In vivo mechanistic analysis of cancer drug combination therapies.
  • Using silk as a biomaterial for nerve regeneration.
  • The role of the local tissue environment in immune activation following myocardial damage.
  • Identifying genes that drive Breast Cancer to Bone Metastasis
  • High throughput genetic testing in rare disease: applications of personalised medicine.
  • Drug resistance and heterogeneity in CML following treatment with imatinib and following perturbation caused by nanoparticle delivery of miRNAs.
  • Investigation of a panel of drugs to inhibit the pro-tumourgenic actions of macrophages in breast cancer.
  • 3D anatomical reconstruction and molecular mapping of the atrioventricular ring tissues in human embryonic heart and adult rat heart.
  • Identification of the genetic basis of disorders associated with the presence of intracranial calcification.
  • Species variability in metabolism as a translational factor influencing susceptibility to adverse drug reactions in man.

Find out more by visiting the postgraduate teaching and learning page.

Career opportunities

More than 50% of our graduates progress into PhD research at Manchester or other universities such as Cambridge, Imperial College London, Newcastle, Glasgow, Liverpool and Bristol.

Around 15% pursue a career in the pharmaceutical or biotechnology industry in the UK or abroad.

Approximately 25% are intercalating medics who complete their medical education. An estimated 10% pursue an undergraduate medical degree.



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The Postgraduate Diploma in Neonatal Medicine is open to all qualified medical doctors, nurse practitioners and other health professionals. Read more
The Postgraduate Diploma in Neonatal Medicine is open to all qualified medical doctors, nurse practitioners and other health professionals.

The MSc in Neonatal Medicine is open to those who have completed the Cardiff University Postgraduate Diploma in Neonatal Medicine. 

Both the PgDip and MSc are part-time distance learning courses that focuse on the study of problems and approaches specific to neonatal health.  As a result of the numerous anatomical and physiological changes occurring as a child develops, similar conditions can have very different clinical presentations and pathologies at different ages.  This has implications for risk-benefit analysis and the ethics involved in choices faced by professionals and parents.  The courses therefore aim to provide training and education in the identification, critical appraisal, planning and implementation of more effective treatments based on a sound knowledge of relevant research evidence, clinical practice, anatomy and pathophysiology.

Distinctive features:

• The distance and e-learning format allows clinicians to learn while doing busy jobs and achieve a high quality higher degree

• The active involvement of clinical neonatologists ensures there is both academic rigour and relevance to day to day clinical work.

Structure

• PgDip:

All students must register initially for the postgraduate diploma (Postgraduate Diploma) in Neonatal Medicine.

Subsequent entry to the MSc (dissertation stage) is selective – it is dependent upon successful completion of the Postgraduate Diploma in Neonatal Medicine (not more than three years prior to the date you are applying to start the MSc) and competitive selection including an interview (Skype / telephone / in person).

There are two stages to the postgraduate diploma course: T1, the first taught stage, and T2, second taught stage. 

Stage T1 - This stage lasts for one academic year and consists of three 20-credit modules totalling 60 credits, at Level 7.

Stage T2 - This stage lasts for a further academic year and consists of a further three 20-credit modules totalling 60 credits, at Level 7, to give a combined total for stages T1 & T2 of 120 credits.

Core modules:

Respiratory Care in Neonatal Medicine
Cardiovascular Care in Neonatal Medicine
Critical Care in Neonates
Neurological Care in Neonatal Medicine
Nutrition and Gut Function in Neonates
Transportation of Neonates and Children

You may exit the course with a Postgraduate Certificate after completing a minimum of 60 credits, where this includes the award of credit for particular modules.

At the end of stage T2, students who have obtained a minimum of 120 credits at Level 7, including the award of credit for all required modules, will be eligible for the award of Postgraduate Diploma, or they may apply to enter the MSc course. 

• MSc:

The MSc consists of one stage, post-Diploma – Stage R (research dissertation).

Stage R continues for a further academic year after the Postgraduate Diploma, making a total of three academic years for the full MSc (stages T1, T2 from Postgraduate Diploma and MSc stage R), and includes a 20,000-word dissertation of 60 credits at Level 7, to achieve a total of at least 180 credits (including 120 credits from the Postgraduate Diploma) at Level 7 to complete the MSc programme.

The dissertation, in combination with the Postgraduate Diploma taught stage(s), is weighted 50% for the purpose of calculating the final mark:

Taught modules (from the Cardiff University Postgraduate Diploma in Neonatal Medicine) 50%
Dissertation (stage R) 50%

Career Prospects

This is an academic qualification rather than a professional training qualification. Taking the course helps you demonstrate your interest in Neonatology and a commitment to improve your knowledge in the field. It should therefore be of benefit to anyone seeking to progress their career or aspects of their job towards neonatal medicine or neonatal care.

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The Medicine MRes is a strongly research-based programme, which gives you the training and opportunity to develop as a scientist or scientifically-literate clinician. Read more

The Medicine MRes is a strongly research-based programme, which gives you the training and opportunity to develop as a scientist or scientifically-literate clinician.

It can help you to gain:

  • a comprehensive understanding of the concepts and techniques relevant to medical research
  • the ability to critically and creatively evaluate current issues in medicine and health.

You’ll get experience in formulating new hypotheses and exploring the causes and consequences of diseases by conducting rigorous scientific research in a laboratory or with patients.

A nine-month research project helps you to develop specialised knowledge, as well as design and undertake a substantial piece of publishable research. You’ll be based in one of our internationally-renowned institutes and be supervised by leading experts in their field. You can choose from a range of research opportunities in applied health, cancer and pathology, cardiovascular, genes and development, medical education and musculoskeletal topics.

We invite you to view our list of research projects 2017-18. Please contact the supervisory team before applying to the course and in your application state your three preferred research projects.

More information

The School of Medicine is a major international centre for research and education. Our ambition is to improve health and reduce health inequalities, locally and globally, through excellent research and its translation into healthcare practice, and the education of future scientific and clinical leaders who will advocate and practise an evidence-based approach.

Course content

The taught modules are designed to stimulate a deep and critical knowledge of research. The optional modules allow you to develop a comprehensive knowledge of different approaches to medical research.

The Paper Criticism module enables you to develop subject-specific skills, such as an understanding of the ethical issues of medicine and knowledge of the current requirements for the governance of medical research and its publication. You apply your knowledge of research methods to published papers and enhance your critical skills.

The Analytic Research module provides a critical awareness of research planning and methods and develops your research skills. It includes topics on the structure of analytic research investigations; the analysis of the data obtained in analytic studies, especially the metrics used; the problems resulting from bias and confounding and how they are dealt with; basic statistics of precision and comparison;dealing with unequal duration of follow-up in cohort studies; and critical appraisal of published research.

The Capturing and Handling Data in Research module is an introduction to the collection and handling of health research data. It will include topics on: social inclusion in research; sampling from populations; types of data; collecting data through questionnaires; how scales and tests are used to collect data; and how data are collected and described using various fractions such as rates, ratios, risks and odds; recording quantitative and qualitative data in suitable formats; using computers in the analysis of data; the importance of the statistics that summarise quantitative data; and an introduction to the analysis of quantitative and qualitative data. Critical appraisal of published research will underpin theory.

Course structure

Compulsory modules

  • Analytic Research 15 credits
  • Intervention Research 15 credits
  • Capturing and Handling Data in Research 15 credits
  • Research Project in Medicine 120 credits

For more information on typical modules, read Medicine MRes in the course catalogue

Learning and teaching

There are few formal lectures in the MRes programme. Most of your time is devoted to planning and conducting the research project, usually working with a small team of researchers or healthcare professionals.

Interactive tutorial sessions are shared with students on other Masters programmes in the School of Medicine, intercalating medical students and health professionals.

Assessment

There is one examination in May for the Paper Criticism module. Other modules are assessed by the submission of coursework, workbooks, reports and reviews.

Exit awards of Postgraduate Diploma in Medical Research (120 credits) or Postgraduate Certificate in Medical Research (60 credits) are available for this programme.

Career opportunities

The Master of Research in Medicine is for people who want to pursue a lifelong career in academic medicine research.

For medical students, the addition of the Medicine MRes on your CV is an advantage when applying for Academic Foundation Posts and Specialist Training Posts in the NHS.

Careers support

We encourage you to prepare for your career from day one. That’s one of the reasons Leeds graduates are so sought after by employers.

The Careers Centre and staff in your faculty provide a range of help and advice to help you plan your career and make well-informed decisions along the way, even after you graduate. Find out more at the Careers website.



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Stratified Medicine holds huge potential in the timely development of new treatments for human disease. It is among the most important concepts to emerge in 21st century clinical science and will be a crucial component of the global drive to increase the efficacy, safety and cost effectiveness of new treatments. Read more

Stratified Medicine holds huge potential in the timely development of new treatments for human disease. It is among the most important concepts to emerge in 21st century clinical science and will be a crucial component of the global drive to increase the efficacy, safety and cost effectiveness of new treatments. This taught postgraduate Masters programme draws on the current and future needs of the Life Sciences sector, to create a highly skilled workforce. It harnesses Scotland’s strengths in Stratified Medicine, Clinical Trials, Bioinformatics and Pharmacogenomics to provide focused training which integrates basic and clinical sciences, and equips students with grounding in the essential skills required to design, execute and evaluate modern clinical interventions.

Why this programme

  • The programme will cover the principles which underpin the emerging science at the interface between genetics and pharmacology and the clinical evaluation of the resultant new medicines, taught by internationally recognised experts.
  • The aim of this programme is to train researchers who can break down the barriers that currently prevent discoveries at the bench from being translated into treatments at the bedside
  • The University of Glasgow has a global reputation in the field of clinical trials and stratified medicine. You will be taught by a multidisciplinary team of world leading scientists and clinicians within the College of Medical, Veterinary and Life Sciences.
  • Students will gain an understanding of statistical methods used to evaluate the efficacy and cost-effectiveness of new treatments.
  • Students on the programme will undergo theoretical and practical training in state-of-the-art research processes available to researchers in Glasgow, enabling an appreciation of how to apply novel stratified approaches, together with clinical pharmacological, regulatory and ethical principles to the optimisation of future clinical research and therapeutic practice.
  • We have excellent opportunities to engage with industrial and clinical scientists, with guest lecturers from the pharmaceutical industry, medical diagnostic laboratories and bioscience business which will help you understand the science, methodology and terminology used by scientists and clinicians from different disciplines. You will learn to communicate effectively in a multidisciplinary environment, critically evaluate a wide range of scientific data and research strategies and learn how to make a significant contribution to research and treatment in the 21st century.
  • Students will learn how all of the above techniques are applied by academic and industrial researchers in the development of new medicines.
  • Scholarships available

Programme structure

Students will undertake core courses which will account for 90 credits and a further 30 credits from options, which will enable students to personalise their degree to better align it with their future career aspirations. Students will also be offered a choice of project.

Core courses

  • Topics in Therapeutics: General Topics and Cardiovascular Disease
  • Pharmacogenomics and Molecular Medicine: Fundamentals of Molecular Medicine 
  • Medical Statistics 1
  • Evidence Based Research in Medicine 
  • Drug Disposition
  • Clinical Trials: Principles and Methods

Optional courses

  • Pharmacogenomics & Molecular Medicine: Applied Pharmacogenomics and Molecular Medicine
  • Topics in Therapeutics: Commonly Used Drugs
  • Pharmaceutical Medicine
  • Medical Statistics 2
  • Established and Novel Techniques in Cardiovascular & Medical Sciences Research

Project and assessment

The project will account for the remaining 60 credits. The programme will include an opportunity for all students to present the outcomes of their projects to an audience of other students and academics. Assessment will consist of submission of a dissertation and a viva examination.

Career prospects

Graduates of this programme will be competitive applicants for the positions in the commercial life sciences sector, or for PhD study in an academic or combined commercial/academic environment.



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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 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.



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