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Full Time Masters Degrees in Medicine, Glasgow, United Kingdom

We have 45 Full Time Masters Degrees in Medicine, Glasgow, United Kingdom

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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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University of Glasgow College of Arts
Distance from Glasgow: 0 miles
This programme provides you with thorough research training, an outstanding learning experience, and a wide set of transferable skills in the conception, design and execution of a research project. Read more
This programme provides you with thorough research training, an outstanding learning experience, and a wide set of transferable skills in the conception, design and execution of a research project.

Why this programme

-If you are looking to pursue a specialisation in the history of medicine, led and supported by internationally-regarded historians, this programme is ideal for you.
-Strong links with the University's Hunterian Museum, Anatomy Museum and Art Gallery, will give you access to primary source material including an enormous collection of anatomical and pathological specimens, coins, books, manuscripts and ethnography.
-The Centre for the History of Medicine has a reference library, computing facilities, and other equipment providing excellent support for research. We also run research seminars and workshops, and an annual research forum, all of which bring in speakers from throughout the world.
-Our researchers have access to rich archival materials held locally by the Greater Glasgow Health Board, the Royal College of Physicians and Surgeons of Glasgow, Glasgow University Archives, Glasgow City Archives and the Special Collections of the Glasgow University Library. Archives elsewhere in Scotland are also easily accessible.

Programme structure

You will take four core courses and two optional courses, you will then produce a dissertation on a topic related to the history of medicine.

Core courses
-Research resources and skills for historians
-Approaches to history
-History of medicine 1: studies in the history of medicine before 1850
-History of medicine 2: studies in the history of medicine from 1850 to 2000.

There are variations to the structure of the programme depending on your choice of an MSc or MLitt.

For the MSc you need to choose two optional courses from the social sciences training courses
-Quantitative methods
-Qualitative methods
-Introduction to social theory for researchers.

Other optional courses are taught in History, Economic and Social History (in the College of Social Sciences), and by related Subject Areas in the School of Humanities (Archaeology, Celtic, Classics) and the College of Arts (such as English Language and French).

You will be taught through a series of seminars and workshops. Internationally recognised historians give guest lectures throughout the year.

Career prospects

Apart from continuing to study a PhD, you can transfer the Arts research skills and methods you learn on this programme to positions in the modern public and private sectors, such as heritage, policy and projects, journalism and teaching.

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This taught MSc in Sports Science is designed to provide you with an advanced, research-led programme of study in sport and exercise science and medicine. Read more
This taught MSc in Sports Science is designed to provide you with an advanced, research-led programme of study in sport and exercise science and medicine. A key strength of this programme is its flexibility, which enables you to specialise in physical activity and health, sports performance, or sports medicine.

Why this programme

◾This is the only Msc in Sports Science in Scotland that merges Sport and Exercise Medicine and Sport and Exercise Science within a single degree programme providing a broad range of options across these disciplines.
◾You will benefit from access to the facilities and resources of the National Stadium Sports, Health and Injury Clinic at Hampden Park – a custom-built, state-of-the-art sports medicine facility.
◾We have exciting scholarship opportunities, find out more
◾You will develop and enhance your skills in literature searching and critically evaluating relevant scientific evidence; application of knowledge to novel concepts and situations; experimental design; research methods and ethics; data handling and statistics; interpretation and evaluation of experimental data; scientific writing; and oral presentations.
◾The University has state-of-the-art facilities to study performance and health aspects of sport and exercise science, from the whole body to the molecular level. These include advanced exercise laboratories, metabolic investigation suites and a molecular biochemistry lab. We are the best equipped exercise science group for laboratory facilities in Scotland, making the University of Glasgow the perfect place to study an MSc in Sports Science.
◾The University has close links with a number of regional/national sporting bodies and a number of professional sporting clubs. There may be opportunities for internships (in place of a research project) for some students.
◾You will have access to a number of guest lecture staff providing interactive sessions in their specialist fields.

Programme structure

You will attend lectures, seminars and tutorials and take part in lab classes, journal clubs, presentations and self-directed learning. The programme is made up of 60 compulsory credits and 3 x 20 credit options (X,Y and Z) plus a research project (60 credits)

Core Courses
◾Evidence Based Medicine (20 credits)
◾Medical Statistics (10 credits)
◾Physiological Exercise Testing 1 - Aerobics Fitness and Physical Activity (10 credits)
◾Physiological Exercise Testing 2 - Strength, power and intensity domains (10 credits)
◾Human physiological & metabolic assessment (10 credits)

Optional Courses

Choose one X option, one Y option and one Z option.

Option courses X
◾Physical activity and health: public health, policy & behaviour changes
◾Sports injuries: scientific basis of prevention and rehabilitation.
◾Clinical Sports Injuries

Option courses Y
◾Physical activity and health: biological mechanisms
◾Ergogenic Aids for Exercise Performance
◾Sport and Exercise Medicine in Practice

Option courses Z
◾Cellular and molecular exercise physiology
◾The world class athlete: nature, nurture and maximising performance.
◾Exercise in clinical populations

Dissertation/research project

Career prospects

The flexibility of this programme will provide you with many career opportunities. These include working in clinical exercise, health-promotion or in sports science support. A number of our graduates are employed in senior sports science positions with national sporting bodies and professional sports clubs. This programme also allows doctors and physiotherapists to aid their knowledge; for science graduates, there are opportunities in rehabilitation and higher education. It also provides an excellent basis if you wish to pursue PhD level research.

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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 and is being developed in conjunction with the industrial partners of the Stratified Medicine Scotland Innovation Centre (SMS-IC). 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

◾Students will be given the unique opportunity to undertake an industry placement as their main project. This fantastic opportunity will be offered by partner commercial organisations/companies and universities.
◾The programme will cover aspects of commercial innovation and entrepreneurial skills, together with the principles which underpin the emerging science at the interface between genetics and pharmacology.
◾Students on the programme will undergo theoretical and practical training in state-of-the-art research processes, enabling an appreciation of how to applynovel stratified approaches, together with clinical pharmacological, regulatory and ethical principles to the optimisation of future clinical research and therapeutic practice.
◾Students will also gain an understanding of statistical methods used to evaluate the efficacy and cost-effectiveness of new treatments, and direct experience of how all of these techniques are applied by academic and industrial researchers in the development of new medicines.
◾Following successful completion of the programme a joint master’s degree will be awarded.
◾The five stakeholder universities, Glasgow, Aberdeen, Strathclyde, Dundee and Edinburgh are internationally recognised as leaders in biomedical research, hosting highly collaborative and productive groups with the requisite expertise in pharmacology, clinical trial methodology, pharmacogenomics, and life sciences. This vibrant environment, coupled with Scotland’s tradition of excellence in clinical research and significant recent investment in the new science of Stratified Medicine make it the ideal place to acquire the transferrable skills required for a successful and fulfilling career in 21st century biomedicine.

Programme structure

This MSc degree is awarded jointly by the Universities of Glasgow, Aberdeen and Strathclyde. Courses included in this programme are delivered by these three institutions as well as the Universities of Dundee and Edinburgh. Students will be offered a choice of base institution, either Glasgow or Aberdeen. Each base campus has its own programme structure; however students from both campuses will study courses covering three themes totalling 120 credits. Sample course are included below. For the most up to date information on the courses available at each campus please contact

Scientific basis of stratified medicine
◾Small molecule drug discovery
◾Biological drug discovery
◾Pharmacogenomics and molecular medicine.

Commercialisation of science
◾Introduction to bio-business
◾Advanced bio-business
◾New venture creation
◾Regulation and governance of new therapies

Application of research and evaluation of new technologies
◾Clinical trials: principles and methods
◾Applied statistics with routine health datasets
◾Spatial epidemiology
◾Applied health economics

Project and Assessment

The project will account for the remaining 60 credits. All projects will either have an industrial placement or a project which addresses an industrial need. The programme will include an opportunity for all students to present the outcomes of their projects to an audience of other students, academics and industry representatives. Assessment will consist of submission of a dissertation and presentation

Career prospects

Graduates will be able to pursue careers in a variety of academic and industrial areas including clinical research, preclinical lab-based research, business development with expert knowledge in life sciences and bioinformatics/biostatistics.

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This Masters in Translational Medicine is the first year of a British Heart Foundation 4-Year PhD studentship. it is not offered as an individual programme of study. Read more
This Masters in Translational Medicine is the first year of a British Heart Foundation 4-Year PhD studentship: it is not offered as an individual programme of study.

Why this programme

◾The programme will provide you with the skills needed to assess critically recent advances in biology relevant to human disease.
◾It covers the areas of cardiovascular medicine, inflammation and immunology, neuroscience, mathematics, bioinformatics and cell biology, and advances in fundamental biomedical science relevant to integrative mammalian biology.
◾You will be taught the administrative procedures and ethical and project planning requirements for applying for statutory licenses (personal and project) for animal work as well as ethical aspects of gene and cell therapy.
◾The University is one of the few centres in the UK offering BHF 4-Year PhD studentships. Successful applicants accepted into the programme will be fully funded. For more information, see: BHF 4 year PhD programme.

Programme structure

The programme is part of a 4-year PhD with the first year being an MRes. The MRes is made up of three individual 12-week research placements after an intense two-week induction. Each project will be based on different themes with three different supervisors. Years 2-4 make up the PhD portion of the programme.

Induction

You will be required to attend an in-depth introductory programme, which will provide training in research ethics, statistics, project design, literature review and laboratory safety techniques.

Placements

The induction is followed by three individual research placements. These are at the core of this programme, providing three separate projects to allow you to define your areas of interest for your PhD studies. Each placement is a 12-week project and this will be with three different principal supervisors. You will be encouraged to choose placements beyond your undergraduate subject experience to maximise your exposure to new techniques and science. Supervisors are drawn from a wide range of academic disciplines, such as medicine, biomedical and life sciences, mathematics, electronics and electrical engineering, and veterinary medicine.

Career prospects

You will be taught the practical laboratory skills needed to pursue a career in basic translational medicine and applied science through research projects. After successfully completing year 1, you will be awarded an MRes, and progress to a PhD. The programme produces fully trained scientists ready for progression to academic or industrial careers.

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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 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.
◾This course is provided by world leading experts in the BHF Glasgow Cardiovascular Research Centre.
◾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 student’s 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.
◾Research is supported by the BHF, MRC, Wellcome Trust, CSO, BBSRC and the European Commission.
◾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.

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This Clinical Pharmacology degree programme offers focused training which integrates basic and clinical sciences, and equips students with the essential skills required to function effectively as a clinical pharmacologist in the 21st century. Read more
This Clinical Pharmacology degree programme offers focused training which integrates basic and clinical sciences, and equips students with the essential skills required to function effectively as a clinical pharmacologist in the 21st century. As a student on the MSc Clinical Pharmacology programme, you will acquire core skills, enabling an appreciation of how to apply clinical pharmacological, regulatory and ethical principles to the optimisation of therapeutic practice and clinical research. Crucially, in addition to a firm grasp of the principles of molecular pharmacology, you will also gain foundational knowledge in the emerging science of pharmacogenomics and personalised medicine.

Why this programme

◾This Clinical Pharmacology MSc is one of only a few UK postgraduate programmes that cover clinical pharmacology in sufficient detail to allow you to make an informed choice about pursuing clinical pharmacology as a career.
◾You will learn the basics of molecular genetics and population genetics as applied to pharmacogenetics and gene therapy.
◾You will have the opportunity to gain hands-on experience in molecular methods and analysis along with critical interpretation of genomic literature. This will enable you to analyse, synthesise and formulate an action plan for personalised patient care.
◾You will gain the knowledge and experience necessary to engage in and contribute to discussions about therapeutic issues in the commercial and academic research environments. As part of the MSc Clinical Pharmacology degree, you will undertake your own research project under expert supervision, which will allow you to consolidate your knowledge and apply the skills you have acquired.
◾At every stage of the MSc Clinical Pharmacology you will benefit from the close involvement of clinical academics and visiting lecturers from the pharmaceutical industry and national drug regulatory bodies: the programme is specifically designed to prepare graduate for future senior roles within the pharmaceutical medicine. Guest lecturers have recently included staff from Pfizer, Servier, Johnson & Johnson and the Scottish Medicines Consortium.

Programme structure

You will attend lectures, seminars and tutorials and take part in lab, project and team work.

Core courses
◾Principles of Pharmacology
◾Drug Disposition
◾Pharmaceutical Medicine
◾Topics in Therapeutics – General Topics and Cardiovascular Drugs
◾Topics in Therapeutics – Commonly Used Drugs
◾Medical Statistics 1
◾Medical Statistics 2
◾Pharmacogenomics & Molecular Medicine – Fundamentals of Molecular Medicine
◾Pharmacogenomics & Molecular Medicine – Applied Pharmacogenomics & Molecular Medicine

In addition you will undertake a dissertation/project.

Career prospects

Career opportunities include positions in academia, health care and the pharmaceutical industry; returning to more advanced positions within a previous clinical environment (eg pharmacicts, clinicians); and PhD study.

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Healthcare across the world faces major challenges from the increasing demands of ageing populations and the rise in non-communicable diseases. Read more
Healthcare across the world faces major challenges from the increasing demands of ageing populations and the rise in non-communicable diseases. Strong and effective primary care (also known as family medicine or community medicine) is a major part of the solution. This MSc in Primary Care will equip you with the knowledge and skills required to make a difference to primary healthcare in the 21st century.

Why this programme

-A unique programme to enable students to identify and implement strategies to enhance quality in primary care globally.
-Taught by outstanding, high profile primary care researchers and practitioners in the UK, you can follow a flexible curriculum - studying full-time or part-time, and work towards the full MSc degree or a postgraduate diploma or certificate.
-Internationally renowned guest speakers feature alongside University of Glasgow staff.
-Research interests are focussed on health inequalities, multimorbidity, chronic disease, treatment burden and migrant health, which are reflected in our teaching.
-Research project opportunities in novel and relevant areas of research for primary care, under the supervision of an academic.
-Students come from a wide range of primary care, family, community, and internal medicine disciplines, including doctors, nurses, pharmacists, podiatrists, managers and those working in healthcare and health policy.
-It is delivered within the Institute of Health and Wellbeing, one of the foremost research institutes in the UK focused on improving population health and wellbeing and reducing inequalities in health.
-The online programme has the potential to attract students from across the globe. Our on-campus course has attracted successful students from the UK and a wide range of other countries including Indonesia, Belarus, China, Hong Kong, Thailand, Saudi Arabia, Mexico, Japan, Pakistan and Oman.

Programme structure

This online MSc programme is modular in structure, with all teaching and interactions delivered online through our virtual learning environment (Moodle). During a course, from week to week you will interact with your teachers and fellow students using online discussion boards. Your teachers will direct and observe the discussion, and respond to student questions about the course content. A variety of teaching approaches will be used including lectures, group based activities, presentations and discussions.
-Three compulsory courses
-Three optional courses
-Research project.

The taught courses are delivered in 11-week blocks, running from September to November, January to March, and April to June. The research project runs across the academic year. Full-time students will complete the majority of their research project work when they have completed their taught components.

The selection of optional courses and the research project can be tailored to meet students’ own interests and career needs.

The postgraduate diploma and certificate require six (120 credits) and three (60 credits) successfully completed courses, respectively.

Core and optional courses

Core courses
-International Primary care principles and systems
-Epidemiology, evidence and statistics for primary care
-Research methods

Optional courses - Having the freedom to choose three optional courses gives you the opportunity to tailor your programme of study to your own special interests. Further optional courses are planned for 2017/18.
-Understanding Evidence for the Real World: Critical Appraisal for Healthcare
-Cardiovascular Disease Management in Primary Care
-Management of Long-term Conditions

Studying online

Online distance learning at the University of Glasgow allows you to benefit from the outstanding educational experience that we are renowned for -without having to relocate to our campus.
You do not need to have experience of studying online as you will be guided through how to access and use all of our online resources.

Virtual learning
You will connect with your fellow students and tutors through our virtual learning environment where you will have access to a multitude of learning resources including:
-Recorded lectures
-Live seminars
-Videos
-Interactive quizzes
-Journal articles
-Electronic books and other web resources

A global community
As an online student at the University you will become part of a global community of learners. Community building and collaborative learning is a key focus of our online delivery and you will be encouraged and supported to interact with your fellow classmates and tutors in a number of ways. For example, through the discussions areas on our virtual learning environment, by skype, during live seminars and in our virtual campus on Second Life.

Supported
Great emphasis is placed on making sure you feel well supported in your learning and that you have good interactions with everyone on the programme. Support is available in a number of ways and you will find out more about this during orientation. All you need to participate in our online programmes is a computer and internet access.

Career prospects

Graduates will have the capacity to take a lead role in primary care and family medicine development, whether in Scotland, the UK or internationally. Post-award opportunities include further study, leadership roles in primary care teams, secondment to positions within government, teaching positions, and sitting on editorial boards of academic journals.

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Accreditation. Institute of Physics and Engineering in Medicine (IPEM). The MSc is a modular conversion course which provides broad training in biomedical engineering to help you progress with a career in research, industry or in the NHS. Read more
Accreditation: Institute of Physics and Engineering in Medicine (IPEM)

Why this course?

The MSc is a modular conversion course which provides broad training in biomedical engineering to help you progress with a career in research, industry or in the NHS.

We bring together engineering, medicine and the life and physical sciences to enable the development of relevant clinical and industrial research.

The programme explores advances in technology and engineering to generate applications and solutions to clinically relevant problems.

As part of the course you’ll go on visits to local clinical centres and attend lectures from industrialists and visiting experts from the UK and overseas. You’ll also have the opportunity to meet our many industrial and clinical partners to help advise and further your career.

You’ll study

The first and second semesters consist of taught classes, laboratory demonstrations, practical exercises and clinical visits.

Following this, Diploma students complete a project dissertation and MSc students complete a research or development project reported by a thesis.

Facilities

The Department of Biomedical Engineering was formed in 2012 following the merger of the Bioengineering Unit and the National Centre for Prosthetics & Orthotics.

Accreditation

The MSc in Biomedical Engineering is accredited by the Institute of Physics and Engineering in Medicine (IPEM). An IPEM-accredited MSc is normally required for those wishing to pursue careers as Clinical Scientists in the National Health Service.

Learning & teaching

Instructional classes include:

-lectures
-laboratory demonstrations
-practical exercises
-clinical visits

You’ll also have the opportunity to visit local clinical centres and attend seminars given by visiting experts from the UK and overseas.

Assessment

This credit-based modular degree comprises assessed instructional modules and project work.

Careers

How much will I earn?

The starting salaries for entry level medical engineering technicians in the NHS range between £21,176 and £27,625 (Band 5)*.

Salaries for biomedical engineers in the private sector are comparable to those in the NHS, ranging between £21,000 and £45,000 depending on experience and level of responsibility*

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This MSc programme is designed to provide students with an in-depth working knowledge of the principles and practice related to Oral Sciences. Read more
This MSc programme is designed to provide students with an in-depth working knowledge of the principles and practice related to Oral Sciences. The major strength of this programme is that the programme is aligned to and delivered by internationally renowned members from the Oral Sciences Research Group located within Glasgow Dental School. Students will experience and participate in cutting edge research within the theme while learning techniques widely relevant to biomedical sciences. This programme will be of particular interest to those interested in pursuing or furthering careers in oral and dental related occupations, as well as laboratory scientists or academics. This programme also enables graduates to gain experience in research before applying to a doctoral programme.

Why this programme

◾If you are passionate about oral sciences and keen to learn through an in-depth, evidence based, critical approach, and enthusiastic about specialising in a particular area – oral disease pathogenesis or infection control and decontamination, then this programme is for you.
◾Our staff are internationally experienced researchers and academics with both clinician and science backgrounds, experts in biofilm infections, oral inflammation and infection control.
◾There is a long tradition of excellence in Oral Sciences at the University of Glasgow, with pioneering research by MacFarlane, Samaranayake and Bagg, and other current Glasgow academics continue to make important contributions in the field of Oral Sciences.
◾A range of transferable skills are integrated and embedded into this programme, which will improve possibilities in the job market.
◾You will undertake research alongside pre- and post-doctoral researchers and learn how to work as a team and improve technical skills and communication.
◾Students can learn first-hand within a dedicated oral sciences research laboratory infrastructure linked directly to clinical research facilities.
◾There is a direct link with our doctoral research programme.

Programme structure

◾Translational research approaches
◾Evidence based medicine and statistics
◾Laboratory techniques in oral sciences
◾Principles of oral sciences
◾Research methods in oral sciences
◾Research dissertation in oral sciences

Core and optional courses

Core

Statistics 1

Evidence based medicine

Translational medical research approaches

Medical research and ethics

Principles and critical interpretation of laboratory methodologies

Research methods

Research Dissertation

Optional

Microbes in medicine

Translational immunology

Pathogenesis in oral disease

Decontamination and infection control

Career prospects

Graduates are well placed for a variety of employment opportunities in the oral and dental industries, as well as a wide array of the biomedical science sectors. This course provides a sound basis from which to apply for employment in laboratory positions in industry or in academia, or to continue professional training in dentistry and oral hygiene, or for further doctoral-level research training for academic or teaching careers.

A high proportion of our graduates go on to complete PhDs in Glasgow or other high quality institutions across the world. Careers of some of our recent graduates include:
◾Clinical research scientist (NHS)
◾Senior clinical scientist (GlaxoSmithKline)
◾Laboratory scientist (BluTest Laboratories)
◾Assistant professor (Khyber Medical University)
◾Associate professor (University Sains Malaysia)
◾Postdoctoral research fellows (University of Glasgow)
◾Scientist (Scottish Environmental Protection Agency)

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This course will enhance your knowledge and understanding of cancer therapies and provide you with the skills to assess, analyse, critically appraise and evaluate current and emerging anti-cancer therapies and the drug discovery cascade, from target evaluation and engagement to clinical trials.. Read more
This course will enhance your knowledge and understanding of cancer therapies and provide you with the skills to assess, analyse, critically appraise and evaluate current and emerging anti-cancer therapies and the drug discovery cascade, from target evaluation and engagement to clinical trials.

The programme was developed in response to the increasing demand for a course which focuses on current and emerging cancer therapies. It is the only programme in the UK which combines a focus on cancer biology with the practical, ethical and economic implications of personalised cancer therapy, along with its biology and the discovery and development of drugs.

It has been constructed to produce world-class graduates with the skills to contribute to the global drive in advancing cancer treatment through research, teaching, industry and public sector employment.

What you'll study

You'll focus on anti-cancer treatment therapies, with a particular emphasis on personalised medicine, covering the therapeutic target and the biological mechanisms of current and emerging anti-cancer therapies. You'll also explore radiotherapy as a diagnostic and as a single or combinational treatment with drugs in anti-cancer therapy.

You'll be introduced to the discovery and development of new drugs and the challenges associated with this process. You'll be able to evaluate the drug discovery pipeline including medicinal chemistry, screening, secondary assays and other drug discovery and development technologies. Through a virtual drug discovery programme, you'll have the opportunity to develop anti-cancer agents and progress these through the drug discovery cascade, from target engagement to clinical trials.

The programme will equip you with a range of skills including scientific writing, critical analysis, problem-solving, teamworking, as well as advanced data set analysis and interpretation. You'll experience a wide range of scientific topics from molecular biology, to cell biology and genetics, medicinal chemistry to formulation and radiobiology to nuclear medicine. You'll have the opportunity to conduct independent research and working as part of a multidisciplinary team you'll gain an appreciation of the contributions other disciplines make to cancer drug discovery. 

Facilities

The Strathclyde Institute of Pharmacy and Biomedical Sciences is recognised as one of the foremost departments of its kind in the UK. It's a leading research centre in the search for new and improved medicines. You'll benefit from the advanced facilities of a new £36 million building. The Institute is ranked no 2 in the UK in the Complete University Guide 2018 and the University of Strathclyde has recently been one of the few UK institutes to be awarded the status of 'Emerging Centre of excellence for radiobiology research' in the UK.

Careers

Graduates will have a number of potential employment opportunities: large and small pharma companies, SMEs, within health services and providers, their home institutions and as academics in UK, EU or international Universities.

The course will enable careers in research, academia industry and the health sector and offers you a unique exposure to the entire drug discovery and development cascade while keeping patients' needs at the forefront of the learning process.

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Health Technology Assessment (HTA) is the assessment of relevant evidence and knowledge on the effects and consequences of healthcare technologies. Read more
Health Technology Assessment (HTA) is the assessment of relevant evidence and knowledge on the effects and consequences of healthcare technologies. It contributes to priorities and decisions in relation to prevention, diagnosis, treatment and rehabilitation. This Masters in HTA focuses on the production, critical appraisal and use of scientifically rigorous research evidence, applied to a range of health-related areas.

Why this programme

◾Our postgraduate taught courses provide a solid grounding in all the major disciplines within the field of Health Technology Assessment. This is unique within Scotland, and is one of few such programmes worldwide.
◾Our faculty are world-class experts in their fields, who are active not only in research and teaching, but also involved in HTA decision-making at a national level (e.g. through NICE, SHTAG).
◾Our teaching is research-led. The courses have been developed to reflect the latest academic research and up-to-date challenges in HTA decision-making.
◾You will gain a comprehensive understanding and hands-on experience of the interconnected disciplines that are core to Health Technology Assessment. These include health economics, statistics, evidence synthesis, modelling and patient-reported outcome measures.
◾During a course, from week to week you will interact with your teachers and fellow students using online discussion boards. Your teachers will direct and observe the discussion, and respond to student questions about the course content.
◾You will have the opportunity to collaborate on a research project under the supervision of a member of academic staff or an external supervisor.

Programme structure

Core courses
◾HTA: Policy and Principles (20 credits)
◾Statistical methods for HTA and evidence based medicine (20)
◾Health economics for HTA (20)

Optional courses
◾Foundations of decision analytic modelling (10)
◾Evidence synthesis (20)
◾Outcome measurement and valuation for HTA (10)
◾Analysis of linked health data (20)
◾HTA in a global context (20)
◾Survival analysis for HTA (10)
◾Qualitative research methods for HTA (10)

Optional course (delivered as face-to-face in Glasgow)
◾Decision analytic modelling methods for economic evaluation (20)

Career prospects

HTA has growing importance internationally for informing health care decision making and there is increasing demand for employees with HTA relevant skills. Outside of the field of HTA, students would be well equipped with qualitative and quantitative research skills for jobs in academia, the pharmaceutical industry, and Government Information Services/Statistical agencies.

Potential employers & roles
◾Academic/research centres or universities – undertake HTA research projects funded by HTA agencies, national research bodies or health technology companies to support reimbursement or develop HTA methods.
◾Private industry including pharmaceutical companies, bio-technology companies and health insurance companies – design and undertake evaluations (effectiveness and/or cost-effectiveness) for presentation to reimbursement agencies in support of health technology products.
◾Local or national government agencies, regulators, health service providers, international health organisations (e.g. WHO) – commission and review assessments submitted to support reimbursement of health technologies; undertake systematic reviews, evidence synthesis and evaluations to focus and direct health care policy; evaluate policy and programmes previously funded.
◾National or international consultancy companies – undertake HTA projects for governments, HTA agencies or industry clients.

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In response to the global epidemic in obesity and diabetes the University of Glasgow has developed this MSc in Diabetes. Read more
In response to the global epidemic in obesity and diabetes the University of Glasgow has developed this MSc in Diabetes. To address the immense challenge presented by this disease, it is essential that the researchers and medical practitioners of tomorrow understand the cutting edge advances and technologies to tackle diabetes.

Why this programme

◾This is one of the only MSc in Diabetes programmes focused entirely on research rather than health care management. You will be taught by clinicians and scientists known for their world-class research.
◾The University has state-of-the-art research facilities to study obesity, metabolic disease and diabetes from the whole body to the molecular level and students will undertake a research project/dissertation in this area.
◾The University of Glasgow is expert in establishing disease-specific bioresources linked with routinely-acquired anonymised data from the National Health Service in Scotland.
◾The collective expertise within the Institute of Cardiovascular and Medical Sciences spans a full range from molecular and biomarker/ “-omic” techniques through clinical investigation to population-level epidemiology, clinical trials and cardiovascular endpoint adjudication.
◾This Degree in Diabetes is ideal for those who aspire to build their future career in diabetes whether in the fields of basic research, medical practice, pharmaceutical industry, public health or nutrition. We aim to provide an excellent research training that will inspire and provide students with the confidence to join the global research effort in tackling diabetes.
◾Using world-leading experts and experienced and dedicated teaching staff, this programme aims to provide students with state-of-the-art knowledge of pathological mechanisms and methodologies used for studying diabetes as well as providing a firm grounding in generic research skills.
◾You will develop and enhance your skills in literature searching and critically evaluating relevant scientific evidence; application of knowledge to novel concepts and situations; experimental design; research methods and ethics; data handling and statistics; interpretation and evaluation of experimental data; scientific writing; and oral presentations.
◾The MSc Diabetes programme is taught predominantly at the new Teaching and Learning Centre on the Queen Elizabeth University Hospital Campus. This has state-of-the-art teaching facilities, Wi-Fi, computer clusters and cafe area. There is frequent convenient transport to this campus from the central University campus.

Programme structure

The MSc in Diabetes is a 12 month, full time programme. The programme is made up of eight compulsory courses, two are of 20 credits (one in each semester) and 6 are of 10 credits (four in the first semester and 2 in the second semester). In addition, students will select two optional 10 credit courses from a choice of six in the second semester. A dissertation/research project of 60 credits is undertaken to fulfil the requirements of a Masters degree. The taught courses will be undertaken in the period October to March during the academic session, with the dissertation commencing in June with submission in mid August.

Dissertation

To fulfil the requirements of a Masters degree, students must undertake an independent piece of research in the area of diabetes under the supervision of a project supervisor. Projects may take a number of different formats including a literature review, meta-analysis, data audit or secondary analysis, laboratory-based project, clinical/human volunteer based investigation. The student must then submit a report demonstrating an in-depth, critical understanding and evaluation of the project and deliver an oral presentation summarising their project.

Career prospects

Graduates may wish to pursue a career in diabetes clinical research entering clinical translational diabetes research or commercial industrial research. Other opportunities for diabetes specialists are available in education, public health and professions allied to medicine. The MSc Diabetes also provides an excellent basis to pursue PhD level research.

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This Masters programme is designed for dental graduates who wish to develop clinical and research skills in oral and maxillofacial surgery. Read more
This Masters programme is designed for dental graduates who wish to develop clinical and research skills in oral and maxillofacial surgery. It will provide you with a qualification which will enable you to extend your clinical diagnostic and treatment skills to a higher level. It will also provide you with a solid grounding in research methodologies.

Why this programme

◾You will have access to patients and opportunities to carry out oral and maxillofacial surgical procedures under supervision.
◾The University is well recognised as a centre of excellence for research in the fields of 3D imaging, bone bioengineering and orthognathic surgery.
◾Oral and Maxillofacial surgery are special interests in the surgical specialties, linked with the renowned oral and maxillofacial surgical service in the city and regional hospitals in the west of Scotland.
◾You will have the opportunity to attend all postgraduate lectures in the Dental School which includes invited speakers from the Royal College of Physicians & Surgeons in Glasgow and from dental companies.

Programme structure

You will take a core course consisting of basic sciences, health sciences and research sciences.

The clinical component is dedicated to didactic teaching, reflective learning, clinical procedures and hands-on training in oral surgery.

Clinical courses
◾Dentoalveolar surgery
◾Oro-facial infections
◾Oral pathology
◾Local anaesthesia, general anaesthesia, sedation
◾Maxillofacial trauma
◾Dentofacial deformities
◾Cleft and craniofacial deformities
◾Temporomandibular disorders
◾Head and neck surgery
◾Oral medicine.

Research component

You will be encouraged to carry out a concise research project using existing facilities alongside our well-established research themes.

Career prospects

Graduates are able to apply for senior house officer posts in the UK, or join a higher research programme leading to PhD qualification.

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Our rankings. No 1 on Research Power in Scotland and 4th in the UK. You'll receive the highest-quality teaching in the leading Institute of Pharmacy & Biomedical Sciences in Scotland. Read more
Our rankings: No 1 on Research Power in Scotland and 4th in the UK

Why this course?

You'll receive the highest-quality teaching in the leading Institute of Pharmacy & Biomedical Sciences in Scotland.

Strathclyde Institute of Pharmacy & Biomedical Sciences was ranked No 1 on Research Power in Scotland and 4th in the UK (REF 2014).

Our course will provide you with a comprehensive three-part postgraduate life sciences training.

Firstly, unlike many MSc courses, we offer you dedicated training in a broad suite of bioinformatics and practical laboratory skills. They will not only be great preparation for future research careers, but also a way to make the most of your summer research project.

Secondly, our taught classes capture the excitement of cutting-edge research fields.

The substantial choice of classes means that you'll get to select a clinical-oriented or basic life science research pathway to suit your future aspirations.

Together, the course provides the perfect springboard to future training at PhD level or gives you a range of experience that will prove attractive to employers from industry or the health-care provision sector.

You’ll study

This course will provide training on fundamental techniques for the four disciplines:

biochemistry
immunology
microbiology
pharmacology

Aligned with the taught component of this course, these disciplines will form the grounding for your summer project.

You'll also learn vital transferable skills in statistics, communication, ethics, science writing and critical analysis of data – the perfect way to prepare for any future career.

Facilities

The course is taught in the Strathclyde Institute for Pharmacy & Biomedical Sciences. It’s located in our new building with state-of-the-art laboratories.

Course content

This is a new course design and so there may be minor adjustments to content before September 2016.

Our aim is to provide you with classes that present the cutting-edge of our subject area, delivered using exciting and engaging teaching methods matched to the needs of postgraduate-level students. Please feel free to contact us if you want further details in the meantime.

Careers

Biomedical scientists work in healthcare to diagnose disease and evaluate the effectiveness of treatment through the analysis of fluids and tissue samples from patients.

They work at the heart of modern medicine, with 70% of diagnoses based on the pathology results provided by laboratory services.

After graduating you should be ideally qualified for positions in biomedical and pharmaceutical industries as well as hospitals and universities.

You may wish to continue studies for an MPhil or PhD.

This course provides the background training for a career in:

-clinical biochemistry
-pharmaceutical & biotechnology industry laboratory research posts
-laboratory technical support
-medical/pharmaceutical/life science sales
-academia – following a further PhD route

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