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Masters Degrees (Diagnostic Medicine)

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The course is designed and suitable for qualified podiatrists with clinical experience and an interest in sports medicine. It is a very practical course with multidisciplinary approach to patient management, so it should also appeal to those who simply want to enhance their clinical knowledge and expertise. Read more
The course is designed and suitable for qualified podiatrists with clinical experience and an interest in sports medicine. It is a very practical course with multidisciplinary approach to patient management, so it should also appeal to those who simply want to enhance their clinical knowledge and expertise.

This programme is based on the philosophy that the total care for the athlete requires a multidisciplinary approach underpinned by evidenced based medicine.

Successful candidates will have the opportunity in the future, possibly as early as 2018, to sit a Fellowship examination in Podiatric Sports Medicine which will be awarded by The Directorate of Podiatric Medicine, College of Podiatry, London.

Students will have the opportunity to transfer from the PGCert to an MSc/PGDip in Sports and Exercise Medicine.

The programme is delivered by Centre for Sports and Exercise Medicine (SEM) within the William Harvey Research Institute and as such, will place the School at the forefront of provision of Podiatric Sports Medicine (PSM) within the UK. Working in sport is a largely practical discipline and the programme's emphasis lies firmly on regular clinical experience. Students will benefit from regular contact with members of Sports and Exercise Medicine at Queen Mary University of London (QMUL), as well as visiting clinicians and lecturers who are experienced Sports Medicine specialists.

This course is designed to offer a mastery of foundation concepts and skills in Sports and Exercise Medicine.

Lectures will be delivered by national and international experts; from cutting edge basic scientists to podiatric surgeons, sports physicians, physiotherapists and other health professionals working with world-class athletes. Our staff will work closely with students to nurture potential research interests and to develop clinical ability in Sports and Exercise Medicine.

Course content covers detailed assessment and management of sports injuries of the lower limb, especially foot, ankle and lower leg with imaging in sports medicine to assist in supporting clinical diagnosis.

The PSM programme will offer a modular PGCert structure with an innovative practical component involving clinical shadowing and mentoring. Students will be exposed to unique clinical learning opportunities, such as the monthly inter-disciplinary combined clinic, that will challenge and sharpen diagnostic skills. An interactive and supportive clinician-student relationship will be a feature of clinics on the postgraduate programme.

COURSE AIMS:
-To provide a sound clinical base in Podiatric Sports Medicine on which to build future clinical practice with confidence in making a diagnosis and thinking beyond biomechanics.
-To facilitate a comprehensive understanding of the scientific basis which underlies the clinical practice of Podiatric Sports Medicine.
-To equip students with the key skills required in order for them to be able to critically analyse the literature and provide evidenced based interventions.
-To in future create a specialty in Podiatric Sports Medicine.

Centre for Sports and Exercise Medicine
The Centre is ideally situated on the same campus as the sports injury, physiotherapy, podiatry and the interdisciplinary combined sports clinics. Additionally, you will have the opportunity to attend recognised external clinics around London, as well as the chance to attend sporting events and visits to national centres of excellence where possible.

Successful alumni have gone on to hold pivotal positions in sports medicine across the UK and internationally, including the Chief Medical Officer to the British Olympic Association and London 2012 and the Medical Director to the English Institute of Sport.

The Centre is renowned in the UK for its academic strength and excellence. Lectures are delivered by national experts; from cutting edge scientists to physiotherapists, doctors, and other health professionals working with world-class athletes.

Barts and The London School of Medicine and Dentistry
The Centre for Sports and Exercise Medicine is based at the William Harvey Research Institute at Barts and The London School of Medicine and Dentistry.

Barts and the London School of Medicine and Dentistry, a leading UK Medical School is comprised of two world renowned teaching hospitals, St Bartholomew’s and The Royal London, which have made, and continue to make, an outstanding contribution to modern medicine. We were one of the top five in the UK for medicine in the 2008 Research Assessment Exercise.

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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 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.

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The overall aims of the programme are to. - provide professionally relevant teaching and learning informed by research in an integrated clinical and research environment;. Read more
The overall aims of the programme are to:

- provide professionally relevant teaching and learning informed by research in an integrated clinical and research environment;
- develop and create a cohort of doctors and other professionals allied to medicine able to pursue and develop their roles in a rapidly-changing and challenging environment of genomic medicine;
- prepare healthcare professionals for the adoption of genomic technologies and the increasing use of genomic information as part of the diagnostic and treatment pathway;
- develop a cohort of doctors and other professionals allied to medicine with the confidence to lead service improvement for safe and high quality patient care, and with the required knowledge, skills and capability to have a positive personal impact on the work of others;
- develop a cohort of doctors and other professionals allied to medicine with an understanding of research methodologies and clinical opportunities relevant to genomic medicine;
- encourage a commitment to intellectual challenge and evidence-based clinical practice informed by the latest conceptual and theoretical knowledge of genomic medicine;
- develop students' intellectual, practical and transferable skills related to genomic medicine;
encourage critical thinking related to genomic medicine;
- conduct systematic research relevant to their professional practice.

See the website http://www.graduate.study.cam.ac.uk/courses/directory/cvmgmpgnm

Learning Outcomes

The over-arching learning outcomes are:

- Knowledge and understanding -

- To enhance the students’ knowledge and critical understanding of recent developments in genomic medicine relevant to their present and future roles.
- To develop students’ knowledge and understanding of genomic medicine informed by research in a rapidly-changing integrated clinical and research environment.
- To enable deployment of new knowledge in their clinical practice, and to have a positive personal impact on the work of others in their clinical team and wider service.
- To develop an understanding of genomic technologies and to be able to use genomic information as part of the diagnostic and treatment pathway.
- To develop students’ knowledge so that they have the confidence to lead service improvement for safe and high quality patient care.
- To update and extend students’ understanding of research methodologies and clinical opportunities.
- To demonstrate knowledge, abilities and skills to engage in focused, professionally-relevant, independent learning, and through the production of a dissertation.

- Skills and other attributes -

- The skills necessary to locate, read, interpret and analyse primary and secondary sources of material enabling the development of a conceptual and theoretical understanding of recent developments in genomic medicine.
- Skills to evaluate current scholarship and research critically and to place this knowledge within the context of their own situation and practice as clinical leaders.
- The ability to formulate a research topic relevant to their clinical context, to collect and analyse primary and/or secondary sources of data, and to undertake professionally relevant research.
- The facility to communicate the results of their ideas, research and its conclusions in a written form acceptable as a work of scholarship potentially publishable in a professional or academic journal.

Format

The MPhil comprises either:

- eight modules, plus a research project and associated dissertation of 10-12,000 words, or
- ten modules, plus a literature-based research project and associated dissertation of 5-6,000 words.

Students must complete seven Core Modules and one/three further modules chosen from a range of Option Modules, with additional between-module reflection, study and assignment work.

The modules are structured as follows:

- Core Module 1: An introduction to human genetics and genomics
- Core Module 2: Omics techniques and the application to genomic medicine
- Core Module 3: Genomics of common and rare disease
- Core Module 4: Molecular pathology of cancer and application in cancer diagnosis, screening, and treatment
- Core Module 5: Application of genomics to infectious disease
- Core Module 6: Pharmacogenetics and stratified healthcare
- Core Module 7: Bioinformatics, interpretation, and data quality assurance in genome analysis

Option modules will be selected from the following list. Not all options may be offered every year.

- Option Module 1: Ethical, Legal and Social Implications in applied genomics (ELSI) **
- Option Module 2: Counselling skills for genomics
- Option Module 3: Professional and research skills
- Option Module 4: Advanced Bioinformatics – from genomes to systems
- Option Module 5: Epigenetics and epigenomics
- Option Module 6: Expanding the content of the MPhil in genomic medicine with a workplace-based module

Each core module will involve around 30 hours of contact time, including lectures, group work and online teaching.

Placements

The research project element of the course may be undertaken in a number of scientific institutions, within and without the University. This may include the University's School of Clinical Medicine, the School of Biological Sciences, the European Bioinformatics Institute, Welcome Trust Sanger Institute and, subject to approval, other suitable research institutions.

Assessment

Students must submit a dissertation of 5-6,000 words or 10-12,000 words, depending on the options selected. This will be worth 1/6th or 1/3rd of the overall mark for the course, respectively.

For each of the taught modules, students must complete summative assignments of 2500-3500 words or equivalent (except where other methods of module assessment are indicated in individual module descriptions)

Each student is allocated a named supervisor, who will meet regularly with the student to discuss progress and provide feedback and support as required. Written supervision reports are accessed via the online supervision system. Students are given feedback on the assessments conducted at the end of each module.

All students will meet with the programme director on a termly basis to discuss progress and to provide their feedback on the course.

How to apply: http://www.graduate.study.cam.ac.uk/applying

Funding Opportunities

Funding is available from Health Education England to pay course fees for NHS employees wishing to apply for this course. Prospective students wishing to apply for HEE funding should refer to the application process published by HEE at http://www.genomicseducation.hee.nhs.uk/msc-funding-info/and ensure that access to this funding is approved before applying for the course.

General Funding Opportunities http://www.graduate.study.cam.ac.uk/finance/funding

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
The MSt in Genomic Medicine is part of the suite of postgraduate courses in Genomic Medicine and designed to educate suitably qualified NHS healthcare professionals from across the multi-professional team to prepare for the future adoption of genomic technologies and the increasing use of genomic information as part of the diagnostic and treatment pathway. Read more
The MSt in Genomic Medicine is part of the suite of postgraduate courses in Genomic Medicine and designed to educate suitably qualified NHS healthcare professionals from across the multi-professional team to prepare for the future adoption of genomic technologies and the increasing use of genomic information as part of the diagnostic and treatment pathway.

The programme has been developed by the University of Cambridge Institute of Continuing Education and Cambridge University Hospitals in partnership with Wellcome Trust Sanger Institute and European Bioinformatics Institute.

See the website https://www.ice.cam.ac.uk/mst-genomic-medicine

Aims of the programme

- To provide professionally relevant teaching and learning informed by research in an integrated clinical and research environment;
- To develop and create a cohort of doctors and other professionals allied to medicine able to pursue and develop their roles in a rapidly-changing and challenging environment of genomic medicine;
- To prepare healthcare professionals for the adoption of genomic technologies and the increasing use of genomic information as part of the diagnostic and treatment pathway;
- To develop a cohort of doctors and other professionals allied to medicine with the confidence to lead service improvement for safe and high quality patient care, and with the required knowledge, skills and capability to have a positive personal impact on the work of others;
- To develop a cohort of doctors and other professionals allied to medicine with an understanding of research methodologies and clinical opportunities relevant to genomic medicine;
- To encourage a commitment to intellectual challenge and evidence-based clinical practice informed by the latest conceptual and theoretical knowledge of genomic medicine;
- To develop students' intellectual, practical and transferable skills related to genomic medicine;
- To encourage critical thinking related to genomic medicine;
- To conduct systematic research relevant to their professional practice.

Format

Eight modules, as described by the Postgraduate Diploma, plus a 60-credit research project and associated dissertation of 10,000-12,000 words on an agreed topic in genomic medicine;

or

Ten modules, comprising the eight modules as described by the Postgraduate Diploma plus two additional Option Modules, plus a 30 credit literature-based research project and associated dissertation of 5,000-6,000 words on an agreed topic in genomic medicine.

Assessment

- Students are assessed formatively throughout the taught modules of the programme using a variety of techniques and interrelated strategies including evidence of regular reflection, demonstration of active participation in the programme will also be required. There may also a requirement for the students to take part in peer review of other students.

- For each of the four taught modules comprising the Postgraduate Certificate, students must complete summative assignments of 2500-3500 words or equivalent.

- For the Postgraduate Diploma, students must complete assignments of 2500-3500 words for each of the taught modules (except where other methods of module assessment are indicated in individual module descriptions)

How to apply: http://www.graduate.study.cam.ac.uk/applying

Funding

Funding is available from Health Education England for NHS employees wishing to apply for this course. Prospective students wishing to apply for HEE funding should refer to the HEE website and ensure that access to this funding is approved before applying for the course. Apply for HEE funding: http://bit.ly/1rRqZA9

You may be interested to know that from 2016/17, Student Finance England (SFE) is introducing a postgraduate loans scheme for full-time and part-time Master’s courses. Information on eligibility, the amount of the loan and the level of repayment can be found in SFE’s The Student Room: http://www.thestudentroom.co.uk/content.php?r=5659-Student-Finance

Please note that SFE is planning to take applications via its main Student finance website, from summer 2016: https://www.gov.uk/student-finance

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The MSc Chinese Herbal Medicine extends your acupuncture practice into the other of the major modalities of Chinese medicine. It is a theoretical and clinical professional entry-training. Read more
The MSc Chinese Herbal Medicine extends your acupuncture practice into the other of the major modalities of Chinese medicine. It is a theoretical and clinical professional entry-training. You will develop your diagnostic and case formulation skills and also learn the materia medica and formulae of Chinese herbal medicine. Phytochemistry and pharmacokinetics are integrated into the understanding of the energetic interactions of herbs. Extensive practice with patients will take place in our on-site teaching clinic where theory is deconstructed and applied. Working in the dispensary with raw herbs will develop your kinaesthetic skills to deepen understanding. The aim is that you learn how to modify classic formulae to create new formulae which address complex patterns of illness.

This course contextualises Chinese medicine within its historical roots, and grounds it in the legal, ethical and inter-professional framework of the UK.

Course content

"The University of Westminster MSc CHM is accredited (approved) by the European Herbal and Traditional Medicine Practitioners Association which accredits courses on behalf of all EHTPA Professional Associations, including the Register of Chinese Herbal Medicine. This enables graduates from the MSc CHM to apply for membership of the RCHM. The EHTPA system of accreditation was endorsed by, and included in, the initial Steering Group Report to Government which recommended that a statutory register for herbal medicine practitioners be established".

Modules

The following modules are indicative of what you will study on this course.
-Chinese Herbal Medicine Clinical Practice
-Chinese Herbal Medicine in the UK
-Chinese Herbs and Formulae
-Formulas and Strategies
-Postgraduate Research Methods
-The Classics: Shang Han Lun and Wen Bing

Associated careers

This course is designed for acupuncturists who want to extend their practice repertoire to include herbal medicine, or for Chinese herbal medicine practitioners who wish to upgrade their academic skills to Masters level. Individual modules can be taken as consuming professional development (CPD)

Professional recognition

The course is accredited by the European Herbal and Traditional Medicine Practitioners Association. This enables graduates to apply for membership of the Register of Chinese Herbal Medicine.

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Our Genomics Medicine programme follows a curriculum designed by Health Education England and is aligned with the 100,000 genomes project, led by Genomics England and NHS England, which intends to transform the use of genomic medicine in the NHS. Read more

Our Genomics Medicine programme follows a curriculum designed by Health Education England and is aligned with the 100,000 genomes project, led by Genomics England and NHS England, which intends to transform the use of genomic medicine in the NHS. This course is jointly taught by both King’s and St George’s, University of London, allowing you to benefit from the breadth of expertise provided by both institutions including their membership of the South London NHS Genome Medicine Centre. The programme is suitable for healthcare professionals and other students with an interest in Genomic Medicine.

Key Benefits

  • Jointly taught by King’s and St George’s, University of London – institutions with world-class research, clinical and teaching expertise across the full spectrum of Genomic Medicine
  • Integrated within the South London Genomic Medicine Centre
  • King’s ranked 1st in the UK for Clinical Medicine (REF 2014, proportion of overall submission that was ranked 4* or 3*)
  • King’s ranked 16th in the world for Clinical, Pre-Clinical and Health (Times Higher Education World University Rankings 2016/17)
  • Both campuses are co-located with leading teaching hospitals
  • Institutional expertise in multi-professional education

Description

Our Genomic Medicine programme, taught jointly with St George’s, is an opportunity to explore how recent technological advances have transformed the way that genetic data is generated, analysed and presented, and its relevance to a range of clinical scenarios.

The Genomics Medicine programme is designed for healthcare professionals and other students who wish to train in genomic technologies and the interpretation of genomic data within a medical context.

The study programme is made up of optional and required modules. The MSc pathway requires modules totalling 180 credits to complete the programme, including either 60 or 30 credits from a research project and dissertation or literature review. The Postgraduate Diploma pathway requires modules totalling 120 credits, while the Postgraduate Certificate requires you to study modules totalling 60 credits to complete the course. If you are studying full-time, you will complete the course in one year, from September to September. If you are studying part-time, your programme will take two years to complete.

Course purpose

The Genomics Medicine programme is designed for healthcare professionals and other students who wish to acquire training in genomic technologies and the interpretation of their findings within a medical context.

Course format and assessment

Modules taught in one week blocks including face to face and on line teaching. Learning material delivered as lectures, tutorials and workshops. Each taught module assessed by two pieces of assessment that varies between modules and include multiple choice questions, extended essays, case studies or role play.

Locations

  • King's College London, Guy's Campus
  • St George's, University of London

Career prospects

An MSc in Genomic Medicine will provide career opportunities for a range of professions from laboratory based researchers to diagnostic and healthcare professionals.



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The Genomic Medicine and Healthcare course has been developed for healthcare professionals including Specialist Medical Practitioners, General Medical Practitioners, Allied Health Professionals, Nurses and Midwives, Genetic Counsellors and those with related undergraduate degrees or equivalent professional qualifications and background experience. Read more

Genomics Medicine and Healthcare Courses

The Genomic Medicine and Healthcare course has been developed for healthcare professionals including Specialist Medical Practitioners, General Medical Practitioners, Allied Health Professionals, Nurses and Midwives, Genetic Counsellors and those with related undergraduate degrees or equivalent professional qualifications and background experience. It will be of interest to health professionals in the UK and internationally and will provide a solid foundation in the core concepts of genetics and genomics applied to modern medicine and healthcare. Although there are other courses covering the subject area, none are completely online so they are difficult and costly for global healthcare professionals to get involved. This course will reach an international audience in a cost effective, flexible and inclusive way, helping to develop a worldwide network of genomic medical and healthcare leaders.

Our course is well timed given increasing public and professional interests in genetic and genome-level diagnostic and predictive testing for clinical management, disease risk evaluation, prevention of major complications and offering the prospect of improved prognosis. Personalised benefits include the option for reproductive choices and reducing lifetime medical or health risks by judicious use of new emerging preventive medicines and devices combined with lifestyle/behaviour modifications.

Diploma in Genomics Medicine and Healthcare Courses

Our online 1 year Postgraduate Diploma in Genomic Medicine & Healthcare is designed to be practical and clinically focused. The course will provide an integrated approach to Genomic Medicine and Healthcare and focus on applying scientific principles to direct patient care. The Genomics Diploma course is worth 120 credits and comprises 6 modules of 20 credits each.

The Diploma course aims to equip graduates with critical knowledge and understanding of genomics medicine. Graduates will be able to apply knowledge for direct clinical benefit and future study. Our Genomics Medicine Diploma course caters to the educational needs of a primary and secondary care audience and is the only one of its kind that is completely accessible online.

Our Genomic Medicine Diploma has been designed for General Medical Practitioners, Specialist Medical Practitioners (for example Paediatrics, General Medicine, Obstetrics & Gynaecology, Medical Oncology), Allied Health Professionals (Clinical Psychologists, Occupational Therapists and Physiotherapists), Nurses (Cancer, Cardiac, Paediatric, Neurology etc.) and Midwives. In addition, the course would be of interest to those with related undergraduate degrees (e.g. Dietetics, Biomedical Science, Pharmacy) or equivalent professional qualifications and background experience

On completion you will demonstrate:

- a systematic understanding of genetics and genomic factors in human diseases
- a critical awareness of current issues affecting the management of inherited human diseases
- an advanced knowledge of clinical genomics that will facilitate decision-making in unpredictable and/or complex situations
- an ability to critically evaluate current research in applied and translational genetics and genomics
- an ability to deliver management strategies for the investigation and treatment of patients with inherited human diseases
- a basic understanding of the scope and effect of genomics on treatments including horizon scanning of potential new targeted treatments for wider population

Course Structure

The online course lasts one calendar year and is a part time distance learning course. It consists of 6 modules per year, each of 6 weeks duration.

Module 1 - Principles of Medical Genetics and Genomics
Module 2 - Genetic Counselling
Module 3 - Genomics and Society
Module 4 - Practice of Clinical Genomics
Module 5 - Reproductive Genomics
Module 6 - Genomic Healthcare

Assessment

Online Diploma in Genomic Medicine and Healthcare

The course puts assessment at the heart of learning by using clinical scenarios to facilitate problem-solving, critical analysis and evidence-based care. The scenarios act as both the focus for learning and assessment thus embedding assessment within the learning process.

Each of the 6 modules have the same assessment format. Due to the online nature of the course, students are expected to login and participate in the course regularly throughout the module (ideally on a daily basis).

Students are split into groups of 10-15 students and are assigned a dedicated expert tutor who:

Facilitates clinical case discussions with the group.
Monitors, assesses and marks each student throughout the module.
Students use the skills gained during the lectures to engage with the different activities (see below).
Clinical case scenarios with case based discussion - 40%
Individual learning portfolio - 10%
Group/individual activity - 20%
Case based examination - 30%

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This course develops the careers of doctors whose interest is the practice of medicine in tropical and low- and middle-income countries. Read more
This course develops the careers of doctors whose interest is the practice of medicine in tropical and low- and middle-income countries. The course offers a wide choice of modules and provides training in clinical tropical medicine at the Hospital for Tropical Diseases.

The Diploma in Tropical Medicine & Hygiene (DTM&H):
All students going on the MSc will take the Diploma in Tropical Medicine & Hygiene. Students with a prior DTM&H, or holding 60 Masters level credits from the East African Diploma in Tropical Medicine & Hygiene may apply for exemption from Term 1 via accreditation of prior learning.

Careers

Graduates from this course have taken a wide variety of career paths including further research in epidemiology, parasite immunology; field research programmes or international organisations concerned with health care delivery in conflict settings or humanitarian crises; or returned to academic or medical positions in low- and middle-income countries.

Awards

The Frederick Murgatroyd Award is awarded each year for the best student of the year. Donated by Mrs Murgatroyd in memory of her husband, who held the Wellcome Chair of Clinical Tropical Medicine in 1950 and 1951.

- Full programme specification (pdf) (http://www.lshtm.ac.uk/edu/qualityassurance/tmih_progspec.pdf)

Visit the website http://www.lshtm.ac.uk/study/masters/mstmih.html

Objectives

By the end of this course students should be able to:

- understand and describe the causation, pathogenesis, clinical features, diagnosis, management, and control of the major parasitic, bacterial, and viral diseases of developing countries

- demonstrate knowledge and skills in diagnostic parasitology and other simple laboratory methods

- understand and apply basic epidemiological principles, including selecting appropriate study designs

- apply and interpret basic statistical tests for the analysis of quantitative data

- critically evaluate published literature in order to make appropriate clinical decisions

- communicate relevant medical knowledge to patients, health care professionals, colleagues and other groups

- understand the basic sciences underlying clinical and public health practice

Structure

Term 1:
All students follow the course for the DTM&H. Term 1 consists entirely of the DTM&H lectures, seminars, laboratory practical and clinical sessions, and is examined through the DTM&H examination and resulting in the award of the Diploma and 60 Master's level credits at the end of Term 1.

Terms 2 and 3:
Students take a total of five study modules, one from each timetable slot (Slot 1, Slot 2 etc.). Recognising that students have diverse backgrounds and experience, the course director considers requests to take any module within the School's portfolio, provided that this is appropriate for the student.

*Recommended modules

- Slot 1:
Clinical Infectious Diseases 1: Bacterial & Viral Diseases & Community Health in Developing Countries*
Clinical Virology*
Epidemiology & Control of Malaria*
Advanced Immunology 1
Childhood Eye Disease and Ocular Infection
Designing Disease Control Programmes in Developing Countries
Drugs, Alcohol and Tobacco
Economic Evaluation
Generalised Liner Models
Health Care Evaluation
Health Promotion Approaches and Methods
Maternal & Child Nutrition
Molecular Biology & Recombinant DNA Techniques
Research Design & Analysis
Sociological Approaches to Health
Study Design: Writing a Proposal

- Slot 2:
Clinical Infectious Diseases 2: Parasitic Diseases & Clinical Medicine*
Conflict and Health*
Design & Analysis of Epidemiological Studies*
Advanced Diagnostic Parasitology
Advanced Immunology 2
Clinical Bacteriology 1
Family Planning Programmes
Health Systems; History & Health
Molecular Virology; Non Communicable Eye Disease
Population, Poverty and Environment
Qualitative Methodologies
Statistical Methods in Epidemiology

- Slot 3:
Clinical Infectious Diseases 3: Bacterial & Viral Diseases & Community Health in Developing Countries*
Control of Sexually Transmitted Infections*
Advanced Training in Molecular Biology
Applied Communicable Disease Control
Clinical Immunology
Current Issues in Safe Motherhood & Perinatal Health
Epidemiology of Non-Communicable Diseases
Implementing Eye Care: Skills and Resources
Medical Anthropology and Public Health
Modelling & the Dynamics of Infectious Diseases
Nutrition in Emergencies
Organisational Management
Social Epidemiology
Spatial Epidemiology in Public Health
Tropical Environmental Health
Vector Sampling, Identification & Incrimination

- Slot 4:
Clinical Infectious Diseases 4: Parasitic Diseases & Clinical Medicine*
Epidemiology & Control of Communicable Diseases*
Ethics, Public Health & Human Rights*
Global Disability and Health*
Immunology of Parasitic Infection: Principles*
Analytical Models for Decision Making
Clinical Bacteriology 2
Design & Evaluation of Mental Health Programmes
Environmental Epidemiology
Evaluation of Public Health Interventions
Genetic Epidemiology
Globalisation & Health
Molecular Biology Research Progress & Applications
Nutrition Related Chronic Diseases
Population Dynamics & Projections
Reviewing the Literature
Sexual Health
Survival Analysis and Bayesian Statistics
Vector Biology & Vector Parasite Interactions

- Slot 5:
AIDS*
Antimicrobial Chemotherapy*
Mycology*
Advanced Statistical Methods in Epidemiology
Analysing Survey & Population Data
Applying Public Health Principles in Developing Countries
Environmental Health Policy
Integrated Vector Management
Integrating Module: Health Promotion
Molecular Cell Biology & Infection
Nutrition Programme Planning
Pathogen Genomics
Principles and Practice of Public Health

Further details for the course modules - http://www.lshtm.ac.uk/study/currentstudents/studentinformation/msc_module_handbook/section2_coursedescriptions/ttmi.html

Project Report:
During the summer months (July - August), students complete a research project in a subject of their choice, for submission by early September. Projects may involve writing up and analysing work carried out before coming to the School, a literature review, or a research study proposal. Some students gather data overseas or in the UK for analysis within the project. Such projects require early planning.

Students undertaking projects overseas will require additional funding of up to £1,500 to cover costs involved. The majority of students who undertake projects abroad receive financial support for flights from the School's trust funds set up for this purpose.

Find out how to apply here - http://www.lshtm.ac.uk/study/masters/mstmih.html#sixth

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Our Nuclear Medicine. Science & Practice course will give you the skills to deliver safe, high-quality nuclear medicine services based on training in a strong scientific and academic framework in an approved structured service environment. . Read more

Our Nuclear Medicine: Science & Practice course will give you the skills to deliver safe, high-quality nuclear medicine services based on training in a strong scientific and academic framework in an approved structured service environment. 

Key benefits

  • GMC approved course for nuclear medicine training in the uk
  • Conveniently based in central London
  • All learning materials, including audio-recorded lectures, are accessible online via King’s E-learning and Teaching Service (KEATS) to support distance learning.
  • Contact with experts and key opinion leaders from across the UK.
  • Close links with leading London Medical Schools and nuclear medicine departments.

Description

This course draws on professional expertise from many disciplines. Our lectures will instruct you in clinical practice, radiopharmaceutical, scientific and regulatory issues in nuclear medicine, as well as providing a solid foundation in diagnostic nuclear oncology and radionuclide therapy. The course features practical components, ranging from clinical observations, audit, physics and radiopharmacy experiments and original research.

This course will develop your skills so that you can provide safe, high-quality nuclear medicine services.

Course purpose

This programme develops skills for the provision of safe, high-quality nuclear medicine services by offering nuclear medicine training with a strong scientific and academic framework in an approved structured service environment.

Course format and assessment

Teaching

If you are an MSc student, you will have 222 hours of lectures. The amount of time you will spend on work placement will typically be around 60 days each year. We expect you to undertake 10 hours of self-study each week.

If you are a PG Dip student, you will have 174 hours of lectures. The amount of time you will spend on work placement will typically be around 60 days each year. We expect you to undertake 10 hours of self-study each week.

If you are a PG Cert student, you will have 120 hours of lectures. The amount of time you will spend on work placement will typically be around 60 days each year. We expect you to undertake 10 hours of self-study each week.

Typically, one credit equates to 10 hours of work.

Assessment

We will assess you through a variety of methods, including:

  • Unseen written exams
  • Coursework
  • Practical Logbooks
  • Written Thesis 

The study time and assessment methods detailed above are typical and give you a good indication of what to expect. However, they may change if the course modules change.

Extra information

This course is primarily taught at the King’s College London St Thomas’ Campus. All teaching materials are accessible on line via the KEATs eLearning platform to support distance learning and revision. Lectures are delivered at St Thomas’ Hospital with a short mini module at Great Ormond Street Hospital. Work placements are usually undertaken in the students’ own institution (UK students) or in major London Teaching hospitals.  

Career prospects

Students continue to work in a range of nuclear medicine services.



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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 new 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
◾University of Glasgow is rated in the top 1% of universities worldwide, and 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
◾You will be taught by a multidisciplinary team of world leading scienctists and clinicians within the College of Medical, Veterinary and Life Sciences
◾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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The Diagnostic Imaging MSc is designed to match the professional development needs of the diagnostic imaging practitioner and the changing needs of patients in the modern healthcare system. Read more

The Diagnostic Imaging MSc is designed to match the professional development needs of the diagnostic imaging practitioner and the changing needs of patients in the modern healthcare system. It aims to develop highly competent practitioners who can make a real contribution to healthcare services.

This multi-disciplinary programme will appeal to a range of healthcare professionals including radiographers, clinical physiologists, mammographers, sonographers, medical doctors, nurses, clinical scientists. It offers:

  • specialist clinical expertise underpinned by in-depth theoretical knowledge, including of specialist areas of diagnostic imaging, such as medical ultrasound and breast imaging.
  • an understanding of the evidence and research base of the discipline.

We have a highly successful record of teaching breast imaging and medical ultrasound at postgraduate level. You’ll benefit from being part of the School of Medicine, with its world-leading research and expertise.

More information

You can also study this subject at Postgraduate Diploma (120 credits) and Certificate (60 or 75 credits) levels. Study for the Postgraduate Diploma normally takes one year full time (specific module combinations only) or two years part time. Study for the Postgraduate Certificate normally takes one year part time.

Accreditation

The MSc Diagnostic Imaging offered by the University of Leeds was approved by the College of Radiographers for a period of five years, from June 2016 to June 2021 inclusive. The programme is also accredited by the Consortium for the Accreditation of Sonographic Education (CASE).

Exemptions

Students obtaining an MSc which includes the Mammography Technique module will be eligible to apply for the College of Radiographers’ Postgraduate Award in Mammography.

Course content

The programme content reflects the increasing demand for focused and in-depth training in specialist areas of diagnostic imaging. It is both research-led and evidence based.

On the PGCert programme you study modules worth 60 or 75 credits.  On the PGDip programme you study modules worth 120 credits. If you study part time you will study fewer modules in each year. On the MSc programme you study modules worth 180 credits. All students study a combination of Science and Technology, Professional Issues and Imaging Practice modules. A wide range of optional modules allow you to tailor your studies to your professional interests.

Some modules listed below contain a number of options. The Professional Work Based Learning module enables you to undertake a work-based project. The Negotiated Imaging Practice module offers a range of options, including: Breast Ultrasound, Cardiac Ultrasound, Musculoskeletal Ultrasound or Vascular Ultrasound.

In addition, we may support alternative areas of clinical practice by negotiation. Each module (15 credit equivalent) requires 3 to 5 days attendance at the University (for 30 credits this is 6-10 days), in addition to independent learning and practical skill development in order to achieve success in assessment and be of value to the student and their workplace. Students who already have a Postgraduate Diagnostic Imaging qualification may access certain 30-credit modules on a free-standing basis.

On the MSc programme you study a Research Methods module and submit a dissertation.

For more information on typical modules, read Diagnostic Imaging MSc in the course catalogue

Learning and teaching

The programme is designed to allow you as much choice as possible in the way that you study. Methods of training are highly participative with a combination of tutor-led input and support, learning through group work and discussion, and individual exercises and practice.

Assessment

Our assessment methods have been carefully chosen to develop the skills that imaging students will use in specialist and advanced clinical practice. The assessment of your competence to practice takes place via an observed clinical session or by portfolio, depending on the module. Other assessments include case reports, essays and Objective Structured Examinations.

Career opportunities

Graduates will use the postgraduate qualification to enable them to be employed as a sonographer in the UK or abroad.

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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Postgraduate University Course -VAS Educational Project ( www.vas-int.net). :University of Milan and VAS-Vascular-Independent Research and Education-European Organisation. Read more

European Advanced Postgraduate Course on Angiology-Vascular Medicine

Postgraduate University Course -VAS Educational Project ( http://www.vas-int.net)

Official agreement between

:University of Milan and VAS-Vascular-Independent Research and Education-European Organisation

Lecturers

: VAS-European Teaching Panel,

Formula

: Certified E-Learning, Theoretical Course, Option to continue with the European Master in Angiology Vascular Medicine (University Diploma, Tutorial, 2016),

Final Exam

: MCQ’s on line

Official Language ]]: English
[[Duration

: One year - for a total of 130 hours

Course Begins

: 27 November, 2015, during 12th Edition European Angiology Days (presence encouraged but not mandatory.

Course Closes

: September 2016 to allow the candidates concerned to continue in the European Master in Angiology/Vascular Medicine Diploma and UEMS European Diploma in Angiology/Vascular Medicine.

Certificate Ceremony

Certificates awarded during 13 edition of EADays in November 2016

Course Material

: Videos, Slides, Selected Papers, Chat on selected Ultrasound images, MCQ’s (Interim and Final Evaluation)

Additional Offers

: Enrolled Candidates are entitled to Vas Membership; For students interested to continue for the European Master in Angiology/Vascular Medicine , these hours of theoretical lessons and the cost will be subtracted from the European Master scheduled.

Certificate

: Certificate issued by University of Milan

Topics

:
The Process to the “European Citizen” in Medicine; Biomedical Ethics;
- The concept of Equity and the WHO prospective in Vascular and Cardiovascular Diseases;
- Changing Vascular Mortality in middle age;
- Multimoribility and Health Care; Global Burden of lower extremity artery disease : Update;
- PAD Clinical aspects and prognosis;
- Peripheral Arterial Occlusive Disease Diagnosis and Therapy; Physical Rehabilitation; Buerger's Disease;
- Amputation in PAD, other Vascular Amputations;
- Diabetes and Vascular Diseases; Cerebro Vascular Disease;
- Epidemiology of Stroke;
- Interventional Therapy in Arterial Diseases;
- Diagnostic Procedures in Microcirculation; Chronic Venous Insufficiency; Thermal ablation of varicose veins; US Guided foam sclerotherapy; Venous Ulcers;
- VTE Clinic, Diagnosis and Therapy;
- Polmonary embolism;
- New anticoagulants;
- Gastrointestinal side effects of anticoagulant treatment;
- Lung and Vasculitis; Vascular disorders of the gastrointestinal tract;
- Periodontitisand vascular diseases;
- Aging and older person’s management and care in Vascular Medicine;
- Arterial and Venous Thrombosis; Atherosclerosis: a systemic disease;
- Statistics and Clinical Trials, Therapeutic Market Arena.

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Molecular medicine is transforming the way we understand and treat human diseases, from cancers to neurodegenerative disorders. Read more
Molecular medicine is transforming the way we understand and treat human diseases, from cancers to neurodegenerative disorders. Combining contemporary medical studies with biochemistry and molecular biology, this rapidly advancing area creates a bridge between the subjects, and draws on other fields such as physics, chemistry, biology and medicine.

This course examines how normal cellular processes are affected by disease. You gain an understanding of the core foundations of molecular medicine, studying the topics most relevant to the real world, and how this science may be used in the prevention, diagnosis, and treatment of diseases.

You learn about and appraise the approaches that can be used to address global health problems, including cancer as well as genetic and infectious diseases. The foundations that support investigations of molecular disease mechanisms and the search for new diagnostic tools and treatments will be laid, as you explore topics including:
-Gene and protein technology.
-Synthetic biology
-Bioinformatics
-Genomics

This course has a very high proportion of practical and bioinformatic work that provides valuable experience for your career. This includes our optional module Creating and Growing a New Business Venture, which challenges you to think creatively and increases your value to organisations, including small enterprises, which are a growing part of the biopharmaceutical sector.

Your research project is a major component of your course, in which you perform novel laboratory and/or bioinformatic research in one of our academic laboratories or (subject to approval) carry out research in an industrial or hospital setting.

Two-thirds of our research is rated “world-leading” or “internationally excellent” (REF 2014), and you learn from and work alongside our expert staff.

Our expert staff

As one of the largest schools at our University, we offer a lively, friendly and supportive environment with research-led study and high quality teaching. You benefit from our academics’ wide range of expertise and research on important national and international problems using cutting-edge techniques.

The University of Essex has a Women's Network to support female staff and students and was awarded the Athena SWAN Institutional Bronze Award in November 2013 in recognition of its continuing work to support women in STEM.

Specialist facilities

Recent investment has provided modern facilities for functional genomics, computational biology and imaging biological systems. On our course you have the opportunity to:
-Work in an open and friendly department, with shared staff-student social spaces
-Conduct your research alongside academics and PhD students in shared labs
-Learn to use state-of-the-art research facilities, from protein purification, to cell culture and imaging, to molecular modelling

Your future

Contribute to a growing industry and gain the skills and knowledge to pursue a career in biomedical research and industry, or continue your studies further in postgraduate science and medical degrees.

Advances in molecular medicine will continue to drive growth of new services and products in health care, biomedical and pharmaceutical organisations and companies, and our graduates are well placed to take advantage of employment opportunities in the life science, biotech and pharmaceutical industries and hospitals.

Many of our Masters students progress to study for their PhD, and we offer numerous studentships to support our students in their studies.

We work with our university’s Employability and Careers Centre to help you find out about further work experience, internships, placements, and voluntary opportunities.

Example structure

-Research Project: MSc Molecular Medicine
-Protein Technologies
-Gene Technology and Synthetic Biology
-Professional Skills and the Business of Molecular Medicine
-Molecular Medicine and Biotechnology
-Genomics
-Advanced Medical Microbiology (optional)
-Human Molecular Genetics (optional)
-Cancer Biology (optional)
-Creating and Growing a New Business Venture (optional)
-Rational Drug Design (optional)
-Molecular and Developmental Immunology (optional)
-Cell Signalling (optional)
-Mechanisms of Neurological Disease (optional)

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