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Masters Degrees (Clinical Translation)

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This well-established and highly competitive MSc provides students with specialist training in the basic scientific principles of modern neuroscience, and in the application of these principles to the understanding of a wide variety of neurological disorders. Read more

This well-established and highly competitive MSc provides students with specialist training in the basic scientific principles of modern neuroscience, and in the application of these principles to the understanding of a wide variety of neurological disorders. Students benefit from studying in an internationally renowned and research-intensive environment at the UCL Institute of Neurology.

About this degree

Participants gain knowledge of the clinical features and scientific basis of both common and unusual neurological disorders including a study of: genetics of CNS disorders; brain metabolism, neurotransmitters and neurodegeneration; autoimmune disease and repair mechanisms; epilepsy; nociception and pain; motor control; basal ganglia/movement disorders; hearing, balance, vision and eye-movements; cognition and dementia.

Students undertake modules to the value of 180 credits.

The programme consists of five core modules (90 credits), either a library project or two optional modules (30 credits) and a research project (60 credits).

Core modules

  • Basic neuroscience and investigation of Nervous system
  • Epilepsy, Pain, Tumours and Special Senses
  • Research Methods: Critical Appraisal and Introduction to Statistics
  • Motor Systems and Disease
  • Higher Functions of the Brain

Optional modules

Students can choose to take two 15-credit options from the list below or the 30-credit Library Project

  • Library Project
  • Clinical neuroscience of neurodegenerative diseases
  • Skeletal Muscle and Associated Diseases
  • Peripheral Nerves and Associated Diseases
  • Clinical Manifestations of Stroke
  • Treatment (HASU and Service Delivery)
  • Neurorehabilitation

Dissertation/report

All students undertake an independent research project, which culminates in a dissertation of 10,000 words.

Teaching and learning

The programme is delivered through basic science and clinical lectures, and practical and interactive workshops. Lectures are supported by audio-visual aids and supplementary materials including handouts, reading lists and references to original papers. Assessment is through unseen and multiple-choice examination, essay, library project (if applicable), dissertation and oral examination.

Placement

All students will have the opportunity to attend lectures and meetings in the National Hospital for Neurology and Neurosurgery. Some students will have the opportunity to undertake clinical research projects.

International Students will bear any costs incurred in acquiring certification equivalent to DBS in their home country.

Further information on modules and degree structure is available on the department website: Clinical Neuroscience MSc

Careers

This programme offers an established entry route into both PhD studies in the UK and internationally, and to medicine at both undergraduate and graduate level.

Recent career destinations for this degree

  • Clinical Research Assistant, NHS National Institute for Health Research
  • PhD in Clinical Medicine, University of Oxford
  • MBBS (Bachelor of Medicine, Bachelor of Surgery) Graduate Entry, University of Warwick
  • PhD in Clinical Neuroscience, UCL

Employability

Students are given the opportunity to take an original research project in a world-renowned centre of excellence. Publications routinely result from the best MSc projects.

Careers data is taken from the ‘Destinations of Leavers from Higher Education’ survey undertaken by HESA looking at the destinations of UK and EU students in the 2013–2015 graduating cohorts six months after graduation.

Why study this degree at UCL?

The mission of the UCL Institute of Neurology is to carry out high-quality research, teaching and training in basic and clinical neurosciences. Together with our associated hospital, the National Hospital for Neurology and Neurosurgery, the institute promotes the translation of research that is of direct clinical relevance to improved patient care and treatment.

With its concentration of clinical and applied scientific activity the institute is a unique national resource for postgraduate training in neuroscience, and this MSc enhances the scientific skills of clinicians and provides non-clinical graduates with insight into clinical problems that will allow them to work alongside clinicians in clinical research projects.

Research Excellence Framework (REF)

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

The following REF score was awarded to the department: Institute of Neurology

83% rated 4* (‘world-leading’) or 3* (‘internationally excellent’)

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



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Students will study at the world-renowned Queen Square, and will be taught by internationally recognised experts in the field. Students have the opportunity to interact freely with our neurologists, and undertake a specialist attachment during the second six months of their programme. Read more

Students will study at the world-renowned Queen Square, and will be taught by internationally recognised experts in the field. Students have the opportunity to interact freely with our neurologists, and undertake a specialist attachment during the second six months of their programme.

About this degree

Students gain knowledge of the clinical features and scientific basis of the following neurological areas and disorders: nerve and muscle; epilepsy; pain; movement disorders and Parkinson's disease; neuro-otology and neuro-ophthalmology; stroke; neuropsychiatry and cognition; infections of the nervous system; multiple sclerosis and neuroimmunology; autonomic function and neuro-urology; neuro-oncology and ITU neurology.

Students undertake modules to the value of 180 credits.

The programme consists of five core modules (105 credits), one optional module (15 credits) and a research project (60 credits).

A Postgraduate Diploma (full-time six months is offered).

Core modules

  • Epilepsy, Pain, Tumours and Special Senses
  • Motor Systems and Disease
  • Higher Functions of the Brain
  • Practical Neurology
  • Theoretical Neurology

Optional modules include

Students can choose one 15-credit module from the available options below:

  • Clinical Neuroscience of Neurodegenerative Diseases
  • Skeletal Muscle and Associated Diseases
  • Peripheral Nerves and Associated Diseases
  • Clinical Manifestations of Stroke
  • Treatment (HASU and Service Delivery)
  • Neurorehabilitation

Dissertation/report

All MSc students undertake an independent research project, which takes the form of a scientific investigation and culminates in a dissertation of 10,000 words.

Teaching and learning

The programme is delivered through lectures, seminars, clinical teaching (including outpatients, inpatients, workshops, training for history taking and clinical examination and case demonstrations). Assessment is through written examination, MCQ, short case clinical examination, viva voce, continuous assessment and the research dissertation.

Placement

Students are offered the opportunity to undertake a clinical attachment with one or two consultants at the National Hospital for Neurology and Neurosurgery from April to September each year.

International Students will bear any costs incurred in acquiring certification equivalent to DBS in their home country.

Further information on modules and degree structure is available on the department website: Clinical Neurology MSc

Careers

This programme provides an excellent basis for a clinical or research career in clinical neurology and related disciplines. 

Recent career destinations for this degree

  • Doctor, Government of Cameroon
  • Doctor, Indraprastha Apollo Hospital
  • Specialist Registrar in Neurology, Tikrit Teaching Hospital
  • Neurologist, National Hospital for Neurology and Neurosurgery (NHS)
  • Neurology Resident, University of Missouri

Employability

For students starting out on their clinical careers the programme will give them skills and experience to move towards specialist training. For more established clinicians it is an opportunity to refresh and refine their clinical practice. All students benefit from exposure to the scientific underpinning of neurology, and the opportunity to undertake an original research project, and a specialist attachment, studying alongside the internationally renowned neurologists at Queen Square.

Careers data is taken from the ‘Destinations of Leavers from Higher Education’ survey undertaken by HESA looking at the destinations of UK and EU students in the 2013–2015 graduating cohorts six months after graduation.

Why study this degree at UCL?

The mission of the UCL Institute of Neurology is to carry out high-quality research, teaching and training in basic and clinical neurosciences. Together with our associated hospital, the National Hospital for Neurology and Neurosurgery, we form the world-renowned Queen Square and promote the translation of research that is of direct clinical relevance to improved patient care and treatment.

Students are given the opportunity to experience the full range of activities of a world-famous specialist hospital.

Research Excellence Framework (REF)

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

The following REF score was awarded to the department: Institute of Neurology

83% rated 4* (‘world-leading’) or 3* (‘internationally excellent’)

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



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Sign up to our. Postgraduate Open Evening. - 31 Jan 2018. New Master's Scholarships available. Find out more and apply. Read more

Sign up to our Postgraduate Open Evening - 31 Jan 2018

New Master's Scholarships available. Find out more and apply.

The aim of our Clinical Neuroscience MSc course is to give you a unique understanding of the principles underlying the clinical presentation and investigation of diseases affecting the brain. We place particular emphasis on the translation from basic science to clinical practice. Our course is suitable for students interested in neuroscience and its applications to neurological or psychiatric diseases.

Key benefits

  • Provides a deep and detailed understanding of brain diseases.
  • Emphasis on the translation from basic science to clinical practice.
  • Designed to introduce the basic scientific concepts which underlie clinical symptoms, signs and practice.

Description

Our Clinical Neuroscience course enables trainees in neurology, psychiatry and related health-care disciplines to study the anatomical, physiological and pathological basis of symptoms and signs of brain disorders. It will provide you with in-depth knowledge and skills related to specialist clinical practice and will systematically integrate advances in genetics, molecular neuroscience, electrophysiology and neuroimaging into clinical practice. You will have the opportunity to work independently within a multidisciplinary environment and at an advanced level develop and sustain evidence-based practice, appraise and conduct clinical research and audit.

Course format and assessment

You will be taught through a mix of lectures, seminars and tutorials.

You will be assessed through a combination of coursework and examinations.

Regulating body

King’s College London is regulated by the Higher Education Funding Council for England

Career prospects

Our graduates pursue clinical and non-clinical academic careers in neurology, psychiatry and allied health care professions.



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Would you like to enhance your already strong academic background to kick-start a career within the healthcare sector?. Read more
Would you like to enhance your already strong academic background to kick-start a career within the healthcare sector?

With a focus on the epidemiology and pathology of chronic diseases, the full-time MSc Clinical Exercise Physiology course will develop your understanding of the physiological and psychological factors associated with disease, and the role of exercise as a medicine in the prevention, treatment and management of conditions.

On completion of this course you will possess the necessary knowledge and skills to assess an individual’s physical status and quality of life to provide a bespoke solution to enhance their daily living.

Northumbria University is the only provider of this postgraduate physiology degree in the North East and boasts excellent links with key organisations to further support your development and knowledge.

Throughout the duration of your studies you will be based in our state-of-the-art, British Association of Sport and Exercise Sciences (BASES) approved facilities, allowing you to learn in a high quality and dynamic environment.

This course can also be taken part time - for more information please view this web-page: https://www.northumbria.ac.uk/study-at-northumbria/courses/clinical-exercise-physiology-msc-dtpcph6/

Learn From The Best

Our specialist team of teaching staff are internationally renowned within their individual disciplines, with many acting as advisors to industry and sitting on the boards of international federations.

The content of this course draws on their in-depth knowledge, delivering a learning experience that facilitates an advanced understanding of theory and practice that is at the forefront of this discipline.

Our reputation has also resulted in our department providing professional development and consultancy services to an array of organisations such as the Lawn Tennis Association, FIBA, Commonwealth Games, UK Deaf Sport and Newcastle United Football Club.

Teaching And Assessment

Incorporating all core areas of clinical exercise physiology, you will study a range of modules such as the translation of health research, epidemiology, aetiology and pathology of health disorders and special populations. You will also cover clinical competencies and assessment skills, exercise prescription for health disorders and special populations, exercise psychology and research methods. In your final year you will be required to complete a dissertation around a topic of physiology of your choice.

Teaching is delivered through a mix of lectures, seminars and practical elements such as laboratory and fieldwork. Assessments will be undertaken via a range of methods such as coursework, case studies, laboratory skills, reports, presentations, articles, posters, portfolios, public health campaigns and exams.

Learning Environment

When studying the MSc Clinical Exercise Physiology course at Northumbria University you will be based at our new £30 million purpose-built Sport Central.

Sport Central has been specially designed to enhance your learning experience thanks to its array of state-of-the-art facilities, which include a sprint track, nutrition kitchen and laboratory, as well as laboratories designed for assessing body composition, exercise physiology, integrated performance and biomechanics and gait.

Technology is embedded throughout all aspects of your degree and you will also receive ongoing support through our innovative e-learning platform, Blackboard, where you can access module handbooks, assessment information, lecture presentation slides and reading lists.

Research-Rich Learning

The course is delivered by a team of research-active staff who integrate their findings into their day-to-day teaching. Our team are responsible for pioneering research that helps to inform government policy and the strategies of renowned global businesses such as Berghaus, GlaxoSmithKline and Nova International.

Many of our team also work with organisations such as Cancer Research, MS Society, PD UK and the NIHR, which provides further benefit to you by ensuring you're learning from specialists with real-life expertise in the health field.

You are also encouraged to develop your own research skills and, in your final year, produce a dissertation under the supervision of one of our specialists. The dissertation gives you the opportunity to conduct applied research in a field of clinical exercise physiology that interests you most.

Northumbria is ranked in the top 30 for excellence in sport and exercise science research power, making it the best rated university in the North East in this discipline (REF 2014).

Give Your Career An Edge

Northumbria University is the only provider of the MSc Clinical Exercise Physiology course in the North East and our course is highly valued with employers.

We boast excellent links with the NHS and other organisations in the region thanks to the vast amount of work we do in partnership together.

Our state-of-the-art facilities will allow you to put your skills into practise in industry-standard facilities, meaning you leave with knowledge and understanding that can be applied to a real working environment.

You will leave this course equipped with a solid foundation in clinical exercise physiology, key practitioner skills and research skills that effectively prepare you for a career in this dynamic and rewarding industry.

Your Future

On graduation you can look forward to working within a number of health organisations such as the NHS, private hospitals or other health providers.

The roles that can be performed by you as a clinical exercise physician are varied and include cardiac rehabilitation, respiratory disorder rehabilitation, health screening and intervention, obesity management and exercise therapy for special populations.

A high percentage of students also progress onto further study or doctoral-level qualifications. The skills acquired during this course will ensure you are well prepared should you decide to progress down this route.

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This MSc offers specialised training in biomedical science with exposure to leading research scientists, biotechnologists and the pharmaceutical industry. Read more

This MSc offers specialised training in biomedical science with exposure to leading research scientists, biotechnologists and the pharmaceutical industry. It provides a foundation for a career in drug development and a comprehensive programme in research methodology, the translation of basic research into therapies and the governance and social implications of health research.

About this degree

Students develop practical understanding of research methods in biomedical science and knowledge of cutting-edge research alongside practical experience in laboratory, clinical or epidemiological research. They develop the ability to evaluate scientific literature and gain an appreciation of ethical and governance requirements of research, including 'Good Clinical Practice' principles. Graduates of this MSc go on to have successful careers in both academia and in industry.

Students undertake modules to the value of 180 credits.

The programme consists of six core modules (120 credits) and a research dissertation (60 credits).

A Postgraduate Diploma consisting of six core modules (120 credits) is offered.

A Postgraduate Certificate consisting of two core modules (60 credits) is offered.

Core modules

  • Drug Discovery I
  • Drug Discovery II
  • Statistical Methods in Research
  • Ethics and Regulation of Research
  • Clinical Pharmacology and Therapeutics
  • Advanced Pharmacology and Therapeutics

Optional modules

There are no optional modules for this degree.

Research project/report

All MSc students undertake an independent research project which culminates in a report of 10,000 words.

Teaching and learning

The programme is delivered through a combination of lectures, practicals, small-group seminars and laboratory work. Assessment is through presentations, essays, examination and the research project and dissertation.

Further information on modules and degree structure is available on the department website: Clinical Drug Development MSc

Careers

The programme provides an ideal foundation for graduates who wish subsequently to undertake a PhD in biomedical science, and provides key transferable skills for those wishing to pursue careers in drug development.

Recent career destinations for this degree

  • Clinical Trial Practitioner, Barts Cancer Institute
  • Clinical Research Assistant, Alberta Children's Hospital

Employability

This programme runs within the School of Life and Medical Sciences, one of the most highly rated medical research organisations in the UK. Close links with clinical colleagues in the UCLH group of hospitals provides cutting-edge medical expertise and links to world-leading clinical research. Graduates of the programme have pursued careers in the pharmaceutical industry and medicine, and a significant proportion go on to study for PhD degrees at UCL and other institutions worldwide.

Careers data is taken from the ‘Destinations of Leavers from Higher Education’ survey undertaken by HESA looking at the destinations of UK and EU students in the 2013–2015 graduating cohorts six months after graduation.

Why study this degree at UCL?

The Division of Medicine has as its mission the performance of innovative, high-quality biomedical research and excellence in graduate teaching.

This MSc programme provides an opportunity for students to develop theoretical knowledge, understanding and practical skills in research methodology. These include statistical methods applied to medical research, drug development in a specific biomedical area or health specialty, and the ethics and governance of applied health research.

Over the course of the year, students will have the opportunity to build a network of contacts from both academia and industry, improving their future career prospects.

Research Excellence Framework (REF)

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

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

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

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



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The aim of the MRes is to provide training at Masters level for intercalating medical undergraduates, medical and science graduates and career academics-in-training, so meeting regional and national demands for research oriented skills in these disciplines. Read more
The aim of the MRes is to provide training at Masters level for intercalating medical undergraduates, medical and science graduates and career academics-in-training, so meeting regional and national demands for research oriented skills in these disciplines.

A key element of the programme design is the development of relevant, appropriate research skills, in addition to a systematic understanding and critical awareness of the research process.

The programme prepares the student for doctoral research training and satisfies the criteria of the Research Councils for Master of Research training.

Programme objectives
Provide training in transferable skills, techniques, and knowledge appropriate to postgraduate research students at Masters level
Develop the capacity for individual work and teamwork in an interdisciplinary research environment
Conduct independent research through practical experience in formulating appropriate research strategies, methods, data collection and analysis via three 12-week research projects
Develop communication skills both oral and written to enable research debate (with scientific and lay audiences) and peer reviewed journal publications
Equip the student to take the first postgraduate steps leading to future roles in biomedical research in the clinical, industrial, and public sectors
Prepare the student for entry into a PhD programme.
The programme is built around the research interests of the Institutes of Ageing & Chronic Disease and Infection & Global Health and consists of eleven Programme Pathways (listed below) reflecting the world-class research being carried out in these areas within both Institutes.

Programme pathways
Clinical Infection & Global Health
Emerging & Zoonotic Infections
Eye and Vision Science
Infection Immunology
Microbial Pathogenesis
Musculoskeletal Biology
Neurological Infections
Obesity & Endocrinology
One Health
Translation Bacteriology
Veterinary Science
During the course you will undertake three 12-week research projects with academics (both clinical and non-clinical) from these Institutes. By carrying out three research projects linked to one of the pathways highlighted above, you will graduate with the pathway branding in your degree certificate, for example MRes in Clinical Sciences (Emerging & Zoonotic Infections) [or other appropriate pathway].

Alternatively, you are able to experience a broader range of research by carrying out projects across different pathways, and receive the qualification MRes in Clinical Sciences.

Further details of the academic members of staff who contribute to the MRes and the research interests of the Institutes can be found at the following websites: https://www.liv.ac.uk/infection-and-global-health/ and https://www.liv.ac.uk/ageing-and-chronic-disease/.

The programme has a modular structure and is delivered by lectures, tutorials, seminars, workshops and individual tuition for the research projects.

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The aim of the MRes is to provide training at Masters level for intercalating medical undergraduates, medical and science graduates and career academics-in-training, so meeting regional and national demands for research oriented skills in these disciplines. Read more

The aim of the MRes is to provide training at Masters level for intercalating medical undergraduates, medical and science graduates and career academics-in-training, so meeting regional and national demands for research oriented skills in these disciplines.

A key element of the programme design is the development of relevant, appropriate research skills, in addition to a systematic understanding and critical awareness of the research process.

The programme prepares the student for doctoral research training and satisfies the criteria of the Research Councils for Master of Research training.

Programme objectives

  • Provide training in transferable skills, techniques, and knowledge appropriate to postgraduate research students at Masters level
  • Develop the capacity for individual work and teamwork in an interdisciplinary research environment
  • Conduct independent research through practical experience in formulating appropriate research strategies, methods, data collection and analysis via three 12-week research projects
  • Develop communication skills both oral and written to enable research debate (with scientific and lay audiences) and peer reviewed journal publications
  • Equip the student to take the first postgraduate steps leading to future roles in biomedical research in the clinical, industrial, and public sectors
  • Prepare the student for entry into a PhD programme.

The programme is built around the research interests of the Institutes of Ageing & Chronic Disease and Infection & Global Health and consists of eleven Programme Pathways (listed below) reflecting the world-class research being carried out in these areas within both Institutes.

Programme pathways

  • Clinical Infection & Global Health
  • Emerging & Zoonotic Infections
  • Eye and Vision Science
  • Infection Immunology
  • Microbial Pathogenesis        
  • Musculoskeletal Biology
  • Neurological Infections
  • Obesity & Endocrinology
  • One Health
  • Translation Bacteriology
  • Veterinary Science

During the course you will undertake three 12-week research projects with academics (both clinical and non-clinical) from these Institutes. By carrying out three research projects linked to one of the pathways highlighted above, you will graduate with the pathway branding in your degree certificate, for example MRes in Clinical Sciences (Emerging & Zoonotic Infections) [or other appropriate pathway]. 

Alternatively, you are able to experience a broader range of research by carrying out projects across different pathways, and receive the qualification MRes in Clinical Sciences.



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Sign up to our. Postgraduate Open Evening. - 31 Jan 2018. New Master's Scholarships available. Find out more and apply. The MSc in Psychiatric Research provides in-depth training in how to perform and evaluate research across the psychiatric disorders. Read more

Sign up to our Postgraduate Open Evening - 31 Jan 2018

New Master's Scholarships available. Find out more and apply.

The MSc in Psychiatric Research provides in-depth training in how to perform and evaluate research across the psychiatric disorders. Emphasis is placed on building excellent academic skills, independent thinking and an evidence-based scientific approach to mental health research. During the MSc, students develop a deep understanding of what is currently known about psychiatric disorders and their treatment and how well performed research can enhance knowledge and ultimately improve clinical outcomes.

Key benefits

  • In-depth, practical and theoretical knowledge on performing, interpreting and applying psychiatric research in mental health.
  • Development of statistical, critical, creative and academic writing skills.
  • Taught by academics who perform world-leading psychiatric research.
  • Comprehensive transferrable skills training for career planning and progression.
  • Optional voluntary clinical placement scheme.

Description

Studying at the IoPPN, this course provides the opportunity to learn about psychiatric research from academics and clinicians working in the leading centre for mental health research in Europe.

Our optional, clinical placements provide opportunity to gain experience of working within clinical teams under expert supervision. Placements are provided through our close relationship with South London and the Maudsley (SLaM) NHS Foundation Trust, which provides the widest range of mental health services in the UK. Our placement opportunities cover a wide range of clients and clinical settings.

Our state-of-the-art research facilities include:

  • The Centre for Neuroimaging Sciences
  • MRC Social Genetic & Developmental Psychiatry Centre
  • Maurice Wohl Neuroscience Centre
  • IHR Biomedical Research Centre (the only Mental Health specific centre of its kind)
  • Wellcome Trust Clinical Research Facility.

Teaching on the MSc is delivered by expert academics and clinicians, including highly-cited IoPPN staff working at the forefront of their field internationally.

The MSc in Psychiatric Research develops knowledge and practical skills in cutting-edge research into the biological (eg brain neurotransmission, genetics), and environmental underpinnings (eg stress, drug use) of psychiatric disorders and on how this research can be applied to develop new therapeutic interventions (eg pharmacological and psychological interventions) through translation to clinical practice.

Students will learn about a comprehensive range of research methodologies, including epidemiological and cohort studies, clinical trials, neuroimaging and genetics. Rigorous training in statistical skills and theoretical knowledge is provided which is necessary for performing, interpreting and applying research.

Teaching is delivered through lectures, practical sessions, workshops and small group tutorials. The relatively small size of this MSc facilitates student participation, interactive learning, group work and personalised support. Our assessments are designed to support learning as well as the development of transferrable skills, such as academic writing and presentation. Assessments include exams, written coursework and oral presentation. These involve data analysis and interpretation, and writing information for patients, grants proposals and scientific articles for publication in academic journals.

During the dissertation project students perform their own original research, and have opportunity to collaborate in on-going research at the IoPPN. A list of publications arising from previous MSc Psychiatric Research students’ work is available on our departmental webpage 

Due to the emphasis on developing high-calibre academic skills, the MSc in Psychiatric Research is particularly well suited for students who wish to pursue a research PhD or Doctorate in Clinical Psychology. For students with a clinical background, the course is designed to equip students with the knowledge and skills required for a clinical academic career. Students are supported in attaining graduate positions through a series of careers seminars, including PhD/DClinPsy applications, research or clinical posts, preparing CV’s and professional networking. Indeed many current IoPPN staff and PhD students are MSc Psychiatric Research graduates!

This programme is also available as a PG Cert.

Course format and assessment

You will be taught through a mix of lectures, seminars and tutorials. 

You are assessed through a combination of coursework and examinations and may typically expect assessment by: 

MSc | Examination (40%) | Coursework (60%) 

PG Cert | Examination (75%) | Coursework (25%)  

Extra information

King’s College London is regulated by the Higher Education Funding Council for England.

Career prospects

Our graduates conduct further research (e.g. PhD) or enhanced careers in mental health and social care as clinicians and policy makers. 



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The course will enable biomedical & clinical students (including research midwives and nurses) to develop an academic and contemporary understanding of the biological and environmental influences that impact on pregnancy and the lifelong physical and mental wellbeing health of women and their infants. Read more

The course will enable biomedical & clinical students (including research midwives and nurses) to develop an academic and contemporary understanding of the biological and environmental influences that impact on pregnancy and the lifelong physical and mental wellbeing health of women and their infants

Students will gain insight and knowledge of how translation of basic science and clinical observation can lead to cutting edge research studies into new diagnostic and treatments both in the UK and in low resource settings globally. .

Students will develop scientific and clinical practical research skills, including statistics, so that they can confidently critically evaluate others research design and results, and apply these to their own research. They will also be given the necessary research knowledge and skills to design, plan, navigate research governance pathways, and conduct and analyse their own research project. Both scientific and clinical research projects are offered. 

Key Benefits

  • Substantial student-tutor contact time
  • Cross disciplinary teaching with a focus on translating research to the clinic and the global community
  • Research project in world class laboratories and research groups in Women’s, Perinatal and Child Health, Paediatric Allergy, Mental Health, Nutrition, Mental and Global Health.
  • Access to the latest leading cutting edge technologies housed at KCL and the NIHR Biomedical Research Centre including next generation sequencing, a range of ‘Omics and neonatal imaging, as well as dedicated clinical research units.
  • Lectures delivered by experienced and internationally recognised researchers and clinicians covering contemporary issues in Womens and Children’s health research 
  • Interactive tutorials and workshops on writing successful research grants, clinical study protocols and ethics applications.
  • The programme offers advanced practical experience and supervised training together with an in-depth research project
  • The programme prepares students for future MD and PhD study

Description

The MSc Women and Children's Health comprises three core taught modules, including ‘Fundamentals of Womens and Children’s Health’ which covers health and disease from the periconception period to birth and early childhood. Research led lectures will cover topics such as infertility, pre-pregnancy health, placentation, preeclampsia; immunology of pregnancy and autoimmune disease, metabolic disease in pregnancy, parturition and dysfunctional labour, miscarriage and preterm birth, lactation and infant nutrition, the developing brain and prematurity, childhood diet and dental health, premature infant and the neonatal lung, gut microbiome, obesity, childhood allergy, epigenetics and lifelong health, nutrition and global health and perinatal mental health.

The other required taught modules are Statistics and Research Governance, and Scientific and Clinical Research skills followed by an intensive six month core research projectwithin a lab or clinical research group.

Students can also select 1-2 optional taught module(s) to tailor the course to their developing interests, examples include Perinatal Mental Health, Ethics in Child Health, Regenerative Medicine, Principles of Implementation and Improvement, Science, Leadership and Management, Birth Defects, Assisted Conception, Regenerative Medicine and Global Women's Health.

The programme fosters intellectual skills of students through:

  • Critical assimilation and appraisal of the research literature pertaining to Womens and Children's Health.
  • Production of original pieces of written work that explain, review and evaluate primary research literature and using this evaluation to develop ideas and hypothesises.
  • Understand research governance and demonstrate compliance with research regulations.
  • Understand and apply scientific and clinical study design and statistical analysis principles.
  • Recognise the moral and ethical issues of investigations and appreciate the need for ethical standards and professional codes of conduct.
  • Think critically about their own work/research and to input into the synthesis and design of future hypotheses and experiments.
  • Use subject knowledge and understanding to explore and solve familiar and unfamiliar problems.
  • Collect, interpret and analyse data with a critical understanding of the appropriate contexts for their use through the study of primary research articles, and the student's own data.

Course format and assessment

Teaching

A typical week would be have approximately 10-15 hours teaching with the remaining hours dedicated to self-guided learning. In the final semester, research projects are full time with hours dedicated to practical and data collection, data analysis and writing.

You will study via a combination of lectures, journal clubs, group discussions, practicals, workshops and independent study.

Peer feedback, in course assignments such as data handling, research project and project report write-up, journal club, presentations and essays. All will be actively encouraged throughout the research project.

Typically, one credit equates to 10 hours of work.

Assessment

We will assess you through a combination of coursework, seen/unseen written exams, essays, problem directed learning exercises, case studies, ethical problem debate, data-handling, creation of clinical study materials such as patient information sheets and consent forms, research proposal, oral presentations, and a final research project report.

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.

Career prospects

The course will prepare scientists and clinicians for further research into Womens & Children’s Health



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Overview. Located within a European Centre of Excellence for Tissue engineering, and based on Keele’s University’s local hospital campus at the Guy Hilton Research Centre, the MSc in Cell and Tissue Engineering provides support and development to enhance your career within this rapidly expanding field. Read more

Overview

Located within a European Centre of Excellence for Tissue engineering, and based on Keele’s University’s local hospital campus at the Guy Hilton Research Centre, the MSc in Cell and Tissue Engineering provides support and development to enhance your career within this rapidly expanding field. The research centre is also an EPSRC Doctoral Training Centre for Regenerative Medicine, an Arthritis UK Centre and a UK Regenerative Medicine Platform Research Hub. This multidisciplinary environment enables close interaction with leading academics and clinicians involved in cutting-edge, and clinically transformative research.

Course Director: Dr Adam Sharples ()

Studying Cell and Tissue Engineering at Keele

Our MSc Cell and Tissue Engineering programme has tracked alongside the strongly emergent global Regenerative Medicine industry and will prepare you for an exciting future within a range of medical engineering areas, be that in academic or industrial research, medical materials, devices, or therapeutics sectors, or in the clinical arena. The modular structure to the course enables flexibility and personalisation to suit your career aspirations, build upon strengths and interests and develop new understanding in key topics.

Graduate destinations for our students could include: undertaking further postgraduate study and research (PhD); pursuing a university-based, academic research career; providing technical consultancy for marketing and sales departments within industry; working within biomedical, biomaterials, therapeutic, life science and regenerative medicine industries or working for a governmental regulatory agency for healthcare services and products.

See the website https://www.keele.ac.uk/pgtcourses/cellandtissueengineering/

‌‌The course provides support from the basics of human anatomy and physiology, through to development of novel nanotechnologies for healthcare. Due to the teaching and research involvement of clinical and academic staff within the department, there are exciting opportunities to be exposed to current clinical challenges and state-of-the-art developments. Clinical visits and specialist seminars are offered and students will be able to select dissertation projects that span fundamental research to clinical translation of technologies – a truly ‘bench to bedside’ approach.

Learning and teaching methods include lectures and demonstrations from medical and engineering specialists, practical classes using state-of-the-art facilities and seminars with leading national and international researchers. Full-time study will see the course completed in 12 months; part-time study will allow you to complete it over two years.

About the department

Delivered through the Keele School of Medicine and the Research Institute for Science and Technology in Medicine (ISTM), the course dates as far back as 1999, when it was established in partnership with Biomedical Engineering and Medical Physics at the University Hospital. Most teaching now takes place in the Guy Hilton Research Centre, a dedicated research facility located on the hospital campus. The medical school is one of the top-ranked in the UK, and the research institute has an international reputation for world-leading research.

The centre was opened in 2006 and offers state-of-the-art equipment for translational research including newly-developed diagnostic instruments, advanced imaging modalities and additive manufacturing facilities. Its location adjacent to the university hospital ensures that students experience real-world patient care and the role that technology plays in that. Students also have access to advanced equipment for physiological measurement, motion analysis and functional assessment in other hospital and campus-based laboratories. The School embraces specialists working in UHNM and RJAH Orthopaedic Hospital Oswestry, covering key medical and surgical subspecialties.

The course runs alongside its sister course, the MSc in Biomedical Engineering, and an EPSRC-MRC funded Centre for Doctoral Training, ensuring a stimulating academic environment for students and many opportunities for engaging with further study and research.

Course Aims

The aim of the course is to provide multidisciplinary Masters level postgraduate training in Cell and Tissue Engineering to prepare students for future employment in healthcare, industrial and academic environments. This involves building on existing undergraduate knowledge in basic science or engineering and applying it to core principles and current issues in medicine and healthcare.

Specifically, the objectives of the course are to:

- provide postgraduate-level education leading to professional careers in Cell and Tissue Engineering in industry, academia and a wide range of healthcare establishments such as medical organisations, medical research institutions and hospitals;

- provide an opportunity for in-depth research into specialist and novel areas of Biomaterials, and Cell and Tissue Engineering;

- expose students to the clinically translational environment within an active medical research environment with hands-on practical ability and supporting knowledge of up-to-date technological developments at the forefront of the field;

- introduce students to exciting new fields such as regenerative medicine, nanotechnology and novel devices for physiological monitoring and diagnostics.

Teaching and Learning Methods

The course is taught through subject-centred lectures and seminars, supported by tutorials and practical exercises. Collaborative learning and student-centred learning are also adopted giving widespread opportunity for group work and individual assignments. Students are required to conduct extensive independent study, and this is supported by full access to two libraries, online journal access and a suite of dedicated computers for exclusive use by MSc students on the course. In addition, students are supported by the guidance of a personal tutor within the department, as well as having access to university-wide support services. This includes English language support where appropriate.

Assessment

Modules will be assessed by a mixture of assessment methods, including lab reports, essays, and presentations, and final examination. This ensures the development of a range of transferrable employability skills such as time management and planning, written and verbal communication and numeracy as well as technical and subject-specific knowledge. The project dissertation forms a major component of the student’s assessed work.

Additional Costs

Apart from additional costs for text books, inter-library loans and potential overdue library fines we do not anticipate any additional costs for this postgraduate programme.

Find information on Scholarships here - http://www.keele.ac.uk/studentfunding/bursariesscholarships/



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This innovative distance-learning programme is taught online and will provide you with knowledge and understanding in the highly topical and exciting field of stem cell biology and regeneration. Read more
This innovative distance-learning programme is taught online and will provide you with knowledge and understanding in the highly topical and exciting field of stem cell biology and regeneration. You will be guided from the origins of this field through to its application (and potential applications) in treating human disease, covering the latest tools and technologies available for study in this area. Programme content is delivered by researchers active in the field, ensuring that the latest breakthroughs are communicated.

Using a creative distance-learning model, the programme delivers lectures, online discussions and assessments over the internet. This offers you more flexibility than traditional campus-based courses as you can study in your own environment. You will only be required to visit Bristol for your formal examinations at the end of the academic year. This distance-learning model, together with a part-time study option, makes the programme particularly appealing to those students who wish to combine full-time employment with study.

Programme structure

Core units
-Introduction to Stem Cells and Regeneration
-Neurodegeneration and Ophthalmic Disorders
-Molecular Tools in Stem Cells and Regeneration
-Peripheral Neuropathy and Spine
-Cell Signalling
-Biomaterials and their Use in the Skeletal System
-Stem Cells in Cardiac Systems
-Research Project/Dissertation

Careers

The programme can open up a number of different career opportunities. It can be used as a pathway to further studies (eg PhD) which in turn could lead to a research or academic career in the field. It can also open up opportunities in private industry, for example:
-Biotechnology sector research/sales
-Stem cell business development
-Stem cell banking
-Stem cell patents
-Stem cell clinical translation
-Charity research development
-Pharmaceutical industry
-Stem cell regulatory bodies

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Oxford’s new MSc in Nanotechnology for Medicine and Health Care builds on the world-leading research in nanomedicine at the University’s Institute of Biomedical Engineering and other departments in the Mathematical, Physical and Life Sciences (MPLS) Division and Medical Sciences Division. Read more
Oxford’s new MSc in Nanotechnology for Medicine and Health Care builds on the world-leading research in nanomedicine at the University’s Institute of Biomedical Engineering and other departments in the Mathematical, Physical and Life Sciences (MPLS) Division and Medical Sciences Division. This advanced modular course is delivered by leading scientists and experts in this rapidly developing field and has been specifically designed for those who would value a part-time modular learning structure, for example those in full-time employment, both in the UK and overseas.

The MSc is designed to be completed part-time, normally over a two- to three-year period, and so provides a path to career development that is flexible and recognised within academia and industry. The programme comprises three online modules exploring the fundamentals of science and materials characterisation at the nanoscale, three intensive five-day face-to-face modules describing the clinical and commercial application of such science, and a piece of original lab-based research leading to the submission of a dissertation. This modular structure provides an adaptable approach to learning, and each module may also be taken as an individual short course.

There are opportunities to access and learn about cutting-edge research and current practice in a wide range of nanotechnology and healthcare topics from experts with experience of taking nanotechnologies from basic concept through clinical validation to market realisation. The tutor-led approach lends cohesion to the modular experience which is tailored for busy people in full-time employment who wish to minimise time away from the workplace to study.

Visit the website https://www.conted.ox.ac.uk/about/msc-in-nanotechnology-for-medicine-and-health-care

The first deadline for applications is Friday 20 January 2017

If your application is completed by this January deadline and you fulfil the eligibility criteria, you will be automatically considered for a graduate scholarship. For full details please see: http://www.ox.ac.uk/admissions/graduate/fees-and-funding/graduate-scholarships.

Description

Nanotechnology is the production and application of devices and systems at the nanometre scale, which is of the order of one billionth of a metre. Developments in this area of technology are now coming to fruition, and increasingly impacting on our daily lives. In particular, nanotechnology is becoming a crucial driving force behind innovation in medicine and healthcare, with a range of advances including nanoscale therapeutics, biosensors, implantable devices and imaging systems. However, the pace with which this revolution is occurring has left even some of its leading practitioners lacking in aspects of the key fundamental knowledge or the information required to navigate the regulatory and clinical pathway to achieve market realisation.

The University of Oxford's MSc in Nanotechnology for Medicine and Health Care offers a detailed and cutting-edge education in this subject and builds on the successful Postgraduate Certificate in Nanotechnology, which was launched in 2006. The course is taken part-time as a mixture of online and face-to-face modules, meaning it can fit around the demands of those working full-time and can be studied by international students without the requirement to relocate. The course uses a blend of individual study of learning materials, together with group work during live online tutorials, conventional lectures and discussions and also requires the student to submit a dissertation reporting an original piece of nanomedicine-based research. The group sessions with tutors are particularly valuable because they offer highly focused learning and assessment opportunities.

Programme details

The MSc in Nanotechnology for Medicine and Health Care is a part-time course consisting of six modules and a research project and associated dissertation. The programme is normally completed in two to three years. Students are full members of the University of Oxford and are matriculated as members of an Oxford college.

The modules in this programme can also be taken as individual short courses. It is possible to transfer credit from up to three previously completed modules into the MSc programme, if the time elapsed between commencement of the accredited module(s) and registration on the MSc is not more than two years.

The course comprises:

- three online modules giving a thorough introduction to the fundamental science of nanotechnology and the behaviour and characterisation of nanoscale materials;

- three five-day modules taught face-to-face in Oxford explaining the scientific, regulatory, clinical and commercial aspects of the application of nanotechnology to medicine and healthcare

- an original research project of approximately 18 weeks to be written up as a dissertation

The course has a dedicated Course Director, Associate Director and administration team accustomed to supporting students undertaking distance learning and face-to-face courses. Students have access to staff at the University of Oxford’s Begbroke Science Park and Institute of Biomedical Engineering, particularly the Course Director, Professor Robert Carlisle and the Associate Course Director, Dr Christiane Norenberg.

Throughout the course, students can use the University of Oxford’s excellent electronic library resources to enable them to complete the assignment tasks.

Programme modules:

- Module 1: The Wider Context of Nanotechnology (online)
- Module 2: The Fundamental Science of Nanotechnology (online)
- Module 3: Fundamental Characterisation for Nanotechnology (online with two-day component in Oxford)
- Module 4: Introduction to Bionanotechnology (in Oxford)
- Module 5: Nanomedicine – Science and Applications (in Oxford)
- Module 6: Clinical Translation and Commercialisation of Nanomedicine (in Oxford)

To complete the MSc, students need to attend the six modules and complete the assessed written assignments for each module, and complete a research project with dissertation on a topic chosen in consultation with a supervisor and the Course Director.

Who is it for?

This is a part-time, modular course leading to a postgraduate qualification at the University of Oxford. The course is designed for students wishing to study part-time. It will appeal to those working in the commercial, research or healthcare sectors who use or develop nanotechnology in their work. Applications are welcome from biomedical engineers, materials scientists, biotech-entrepreneurs, medical practitioners, chemists, pharmacists, electrical engineers, project managers in related industries, patent agents, legislators, as well as those involved in commercial or academic research in this area of science.

Find out how to apply here - http://www.ox.ac.uk/admissions/graduate/applying-to-oxford

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Tissue engineering is an ever-emerging interdisciplinary field of biomedical research, which combines life, engineering and materials sciences, to progress the maintenance, repair and replacement of diseased and damaged tissues. Read more
Tissue engineering is an ever-emerging interdisciplinary field of biomedical research, which combines life, engineering and materials sciences, to progress the maintenance, repair and replacement of diseased and damaged tissues. The Cardiff Institute of Tissue Engineering & Repair (CITER) MSc in Tissue Engineering aims to provide graduates from life sciences and clinical backgrounds with an advanced knowledge, understanding and skills in the science and practice of tissue engineering; from theoretical science, through to research translation and clinical application. The Programme provides in-depth training in this branch of biomedical science, including stem cell biology, biomaterials and tissue/organ engineering. The MSc offers a balanced combination of theory and practice; and can serve either as preparation for a PhD or as a self-contained advanced qualification in its own right. The MSc in Tissue Engineering is both lecture- and laboratory-based, and includes a number of opportunities to visit relevant clinical settings and local industrial partners. Graduates from this Programme will have a broad spectrum of knowledge and a variety of skills, making them highly attractive both to potential employers and research establishments.

Distinctive features of this course include:

• The first course of its kind in the UK, created in response to demand in the field of tissue engineering for interdisciplinary teaching.

• Excellent clinical, academic and research facilities.

• High probability of further research study and careers in tissue engineering and repair, relevant to the CITER MSc remit.

• Opportunity to study at Cardiff University, one of the UK’s major teaching and research universities.

• Opportunity to join a vibrant postgraduate community.

Structure

The CITER MSc Programme commences in September each year with Stage 1, a 6-month, taught component.

Stage 1 is taught almost entirely at a small group teaching level, supported by laboratory sessions, interactive workshops and tutorials, in addition to visits to relevant hospital clinics and local companies involved in producing tissue engineering and repair therapies. Modules are assessed by various written assignments, presentations and formal examinations.

On completing Stage 1, students undertake a 5-month, laboratory-based research project within the CITER network, between April-September (Stage 2). Projects are chosen by students from topics supplied by academic supervisors within CITER. Previous student projects have been in research areas such as embryonic or mesenchymal stem cell biology; cartilage, bone, skin or oral tissue repair; fibrosis; and biomaterials and drug delivery. Stage 2 culminates in the submission of an MSc Dissertation, based on MSc Project findings.

Core modules:

Cellular & Molecular Biology
Tissue Engineering From Concept To Clinical Practice
Research Methods
Stem Cells and Regenerative Medicine
Dissertation

Teaching

Teaching is delivered via lectures, laboratory sessions, interactive workshops and tutorials, in addition to visits to relevant hospital clinics, such as orthopaedics, nephrology and dermatology, and local companies involved in producing tissue engineering and repair therapies.

This Programme is based within the School of Dentistry and taught by academic staff from across Cardiff University and by external speakers.

All taught modules within the Programme are compulsory and students are expected to attend all lectures, laboratory sessions and other timetabled sessions. Students will receive supervision to help them complete the dissertation, but are also expected to engage in considerable independent study. Dissertation topics are normally chosen by the students from a list of options proposed by CITER academic staff in areas relevant to the MSc in Tissue Engineering.

Assessment

The 4 taught Modules within the Programme are assessed through in-course assessments, including:

Extended essays.
Oral presentations.
Poster presentations.
Statistical assignments.
Critical appraisals.
Dissertation (no more than 20,000 words).

Career prospects

After successfully completing this MSc, you should have a broad spectrum of knowledge and a variety of skills, making you highly attractive both to potential employers and research establishments.

Since its introduction in 2006, 95% of our MSc graduates have progressed onto career paths highly relevant to the CITER MSc remit. These include PhDs within CITER and at other UK, EU and USA Universities, Graduate-Entry Medicine, Specialist Registrar Training, Teaching, and positions in Industry and Clinical Laboratory settings.

Placements

You will have the opportunity to attend clinical attachments, in areas such as orthopaedics, nephrology and dermatology. Furthermore, you will also have the opportunity to visit local companies involved in producing tissue engineering and repair therapies for clinical use. These include Cell Therapy Ltd., Reneuron plc, Biomonde Ltd., and MBI Wales Ltd.

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This is a one-year, full-time degree programme aimed at qualified dental clinicians looking to develop competency predominately in clinical oral medicine. Read more
This is a one-year, full-time degree programme aimed at qualified dental clinicians looking to develop competency predominately in clinical oral medicine. It focuses on the recognition, investigation, diagnosis and management of patients presenting with common oral and maxillofacial diseases and will provide a sound grounding in the fundamental principles of UK specialist practice. It also considers and incorporates the basic principles of research that are relevant to clinical and modern translational practice.

Contemporary educational methods will be used to determine and monitor knowledge base, as well as using workplace-based assessments for clinical competency. Students will be supervised by clinical, laboratory and academic staff within an established and integrated specialist clinical training and educational environment. There will be continuous verbal feedback and support to help develop skills for individual reflection and self-assessment. Students will undertake one of the following: a relevant laboratory-based research project, a clinical service review or a literature or data analysis project, leading to the submission of a dissertation.

The UHBristol NHS Trust and North Bristol Trust require those who are granted access to patients must have evidence of immunisation against infectious diseases and Disclosure and Barring Service (DBS) clearance prior to commencing the clinical sessions within the Trust premises.

International applicants will be required to provide a satisfactory police check/certificate of good conduct from their home country (with a certified translation into English if necessary). This requirement will be included in the conditions of any offer that is made, and will need to be satisfied before the applicant's place on the programme can be confirmed. Basic computer skills and access to a PC with internet connection are required.

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Medical statistics is a fundamental scientific component of health research. Medical statisticians interact with biomedical researchers, epidemiologists and public health professionals and contribute to the effective translation of scientific research into patient benefits and clinical decision-making. Read more

Medical statistics is a fundamental scientific component of health research. Medical statisticians interact with biomedical researchers, epidemiologists and public health professionals and contribute to the effective translation of scientific research into patient benefits and clinical decision-making. As new biomedical problems emerge, there are exciting challenges in the application of existing tools and the development of new superior models.

About this degree

The UCL Medical Statistics degree provides students with a sound background in theoretical statistics as well as practical hands-on experience in designing, analysing and interpreting health studies, including trials and observational studies. The taught component equips students with analytical tools for healthcare economic evaluation, and the research project provides experience in using real clinical datasets.

Students undertake modules to the value of 180 credits.

The programme consists of a foundation course, six core modules (90 credits) two optional modules (30 credits) and the research dissertation (60 credits).

Core modules

  • Foundation Course (not credit bearing)
  • Statistical Inference
  • Statistical Models and Data Analysis
  • Medical Statistics I
  • Medical Statistics II
  • Statistical Computing
  • Applied Bayesian Methods

Optional modules

  • At least one from:
  • Statistics for Interpreting Genetic Data
  • Bayesian Methods in Health Economics
  • and at least one from:
  • Epidemiology
  • Statistical Design of Investigations

Dissertation/report

All MSc students undertake an individual research project, culminating in a dissertation of approximately 10,000–12,000 words.

Teaching and learning

The programme is delivered through a combination of lectures, tutorials and classes, some of which are dedicated to practical work. External organisations deliver technical lectures and seminars where possible. Assessment is through written examination and coursework. The research project is assessed through the dissertation and a 15-minute presentation. 

Workshops running during the teaching terms provide preparation for this project and cover the communication of statistics, for example, the presentation of statistical graphs and tables.

Further information on modules and degree structure is available on the department website: Statistics (Medical Statistics) MSc

Careers

Medical statisticians enable the application of the best possible quantitative methods in health research and assist in the reliable translation of research findings to public and patients’ health care.

The National Institute of Health Research (NIHR) has identified medical statistics as one of the priority areas in their capacity building strategy and has awarded UCL two studentships annually for this MSc.

Recent career destinations for this degree

  • Biostatistician, Boehringer Ingelheim
  • Statistical and Epidemiological Modeller, University of Oxford
  • PhD in Statistical Science, UCL
  • Graduate Bio-Statistician, PRA International

Employability

There is an acute shortage of medical statisticians in the UK and employment opportunities are excellent. Recent graduates from this programme have been employed by clinical trials units, the pharmaceutical industry, NHS trusts and universities (e.g. London School of Hygiene & Tropical Medicine, UCL).

Why study this degree at UCL?

One of the strengths of UCL Statistical Science is the breadth of expertise on offer; the research interests of staff span the full range from foundations to applications, and make important original contributions to the development of statistical science.

UCL is linked with four NHS hospital trusts and hosts three biomedical research centres, four clinical trial units and an Institute of Clinical Trials and Methodology. Established links between UCL Statistical Science, the NIHR UCLH/UCL Biomedical Research Centre and the Clinical Trial Units provide high-quality biomedical projects for Master's students and opportunities for excellent postgraduate teaching and medical research.



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