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Masters Degrees (Blindness)

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This course provides ophthalmic professionals with the knowledge and skills required to reduce blindness and visual disability in their populations by developing an evidence-based public health approach for the control and management of blinding eye diseases. Read more
This course provides ophthalmic professionals with the knowledge and skills required to reduce blindness and visual disability in their populations by developing an evidence-based public health approach for the control and management of blinding eye diseases. It enables students to contribute effectively at a local, national and international level in research, training and service delivery.

The training will enable students to develop a public health oriented approach to eye care services and the control of blindness in keeping with the objectives of Vision 2020: The Right to Sight.

They will acquire and apply skills in epidemiological and operational research, critical analysis of strategies for the control of major blinding eye diseases, in programme planning, management and evaluation; facilitate a personal development, so enabling individuals to contribute more fully to their countries’ and societies’ eye health; engage with local, national and international networks of health professionals and systems, for the prevention of blindness worldwide.

Graduates from this course are expected to and encouraged to enter into careers with ministries of health, universities and NGOs involved in developing health services to prevent blindness and improve vision.

For further information on the International Centre for Eye Health (ICEH), visit http://www.lshtm.ac.uk/cru or http://www.iceh.org.uk.

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

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

Additionally for the MSc Public Health for Eye Care, students are expected to be health care professionals involved in eye care, or to have an appropriate technical qualification and work experience.

Any prospective student who does not meet the above minimum entry requirement, but who has relevant professional experience, may still be eligible for admission. Qualifications and experience will be assessed from the application.

Objectives

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

- describe the basic epidemiology of the major blinding eye diseases

- design and interpret studies to assess public health eye care needs using appropriate methods

- critically appraise and select appropriate public health intervention for the major blinding eye diseases

- design a comprehensive eye care programme for appropriate preventive and therapeutic measures for a community

- develop the skills necessary for resource mobilisation, management and evaluation of local comprehensive eye care programmes and integration in health systems

Structure

Term 1:
All students take the following compulsory modules:

Basic Epidemiology
Basic Statistics for Public Health and Policy
Epidemiology of Blinding Eye Diseases
Introduction to Health Economics
Public Health Programmes in Eye Care
Skills for Field Projects in Eye Care

Recommended optional modules can be taken after consultation with Course Director.

Term 2:
All students take the following compulsory modules:

Childhood Eye Disease and Ocular Infections
Non-Communicable Eye Disease
Implementing Eye Care: Skills and Resources
Global Disability & Health

Term 3:
All students take one optional module:

The choice will depend on the student’s interests in public health and health systems and should be discussed with their supervisor and the Course Director. The module can be selected from:

Applying Public Health Principles in Developing Countries
Principles and Practice of Public Health
Proposal Development

Project Report:
During the summer months (July - August), students complete a research project on an appropriate topic. Students undertaking projects overseas will require additional funding of about £1,500 to cover costs involved.

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

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Aspiring to contribute to the development of new therapies for metabolic, infectious and immunological diseases or cancer? Radboud University's internationally acclaimed Research Master's programme in Molecular Mechanisms of Disease provides an excellent foundation for a career in academic or commercial research. Read more

Understanding the molecular basis of disease

Aspiring to contribute to the development of new therapies for metabolic, infectious and immunological diseases or cancer? Radboud University's internationally acclaimed Research Master's programme in Molecular Mechanisms of Disease provides an excellent foundation for a career in academic or commercial research.

Only by dissecting the molecular mechanisms that trigger and advance diseases and dysfunctions can we design effective treatments and medicines. The Research Master's in Molecular Mechanisms of Disease (MMD) offers you an intensive two-year programme that provides you with in-depth knowledge and research experience of disease-related molecular mechanisms. In addition, you will acquire skills such as academic writing and presentation skills and learn how to successfully apply for grants and market yourself.

Passion for molecular biomedical research

As an MMD student you will be part of the unique research community that is found within the Radboud Institute for Molecular Life Sciences (RIMLS). Like you, RIMLS researchers have a strong passion for research. They will assist you throughout the programme with guidance and expertise, supporting you in acquiring knowledge and developing excellent research skills. The RIMLS is one of the research institutes of the Radboud university medical center, so their research is closely linked to the clinic and thus aimed at translating results into treatments for patients. Examples include the translation of insights into the biology of antigen-presenting cells into new immunological cancer therapies and understanding the mutations underlying blindness into the development of gene therapies for patients with inherited blindness.

See the website http://www.ru.nl/masters/mmd

Why study Molecular Mechanisms of Disease at Radboud University?

- You will follow a broad biomedical programme that allows you to specialise in your specific field-of-interest.
- You will have intense daily contact with established researchers.
- You will participate in group-oriented education and be part of a small group of highly motivated national and international students.
- A personal mentor will help you to reflect on your study programme and career perspective.
- You will do two 6-months research internships one of which will be abroad.
- There is a 92% pass rate of MMD students within the two years.
- International MMD students can apply for scholarships from the Radboudumc Study Fund.

Career prospects

There is considerable demand for experts in the molecular biomedical sciences as well as in their application to the development of treatments for diseases such as cancer, autoimmune and inflammatory disorders, and metabolic diseases.

Graduates in MMD are equipped with cutting-edge knowledge of multidisciplinary research in the mechanisms of disease and in state-of-the-art diagnostic methods and technologies. During the programme, you will develop a highly critical, independent approach to problem-solving. You will also acquire the basic management skills needed to lead R&D projects in the biotechnology and pharmaceutical industries.

Most of our graduates will enter an international PhD programme to continue with research in academia or industry.

PhD opportunities

The MSc Molecular Mechanisms of Disease aims to provide all skills and knowledge necessary to rapidly enter an international PhD programme. In the Netherlands and many places in Europe, it is impossible to start a PhD programme directly after obtaining a Bachelor's degree. This research Master’s programme seriously increases your chances for obtaining an excellent PhD training position by giving you a mature perspective and a broad range of experimental approaches. In fact, over 90% of our graduates has started a (funded) PhD project.

The Radboud Institute for Molecular Life Sciences (RIMLS) recruits about fifty PhD students a year. MMD graduates are excellent candidates for these positions. Furthermore, the Radboud university medical centre offers the opportunity for its research-oriented Master's students to write their own research project. The best candidates are awarded a fully funded four-year PhD studentship at the department of their choice.

Our approach to this field

The molecular regulation of cellular processes is crucial for human development, and maintenance of health throughout life. It's evident that cellular malfunction is the cause of common multi-factorial diseases such as diabetes, immune and inflammatory disorders, renal disease, cardiovascular, metabolic and neurodegenerative diseases as well as obesity and cancer.

The Radboud Institute for Molecular Life Sciences (RIMLS) Graduate School plays a key role in developing new therapies for the fight against such diseases. RIMLS aims to improve diagnostics and develop new treatments by generating basic knowledge in the molecular biomedical life sciences and translating it into clinical application and experimental research in patients.

The RIMLS – which is part of Radboud university medical center – offers an exclusive Master's programme in Molecular Mechanisms of Disease. Top researchers and clinicians teach the programme.

Key themes

The MMD programme is organised along three major educational themes which reflect the main research areas present in the RIMLS and which each include both a fundamental and a disease-related aspect:
- Theme 1 Infection, Immunity and Regenerative Medicine / Immunity-related Disorders and Immunotherapy
- Theme 2 Metabolism, Transport and Motion / Metabolic Disorders
- Theme 3 Cell Growth and Differentiation / Developmental Disorders and Malignancies

See the website http://www.ru.nl/masters/mmd

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Research profile. This programme is organised by Edinburgh Infectious Diseases (EID), which is hosted by the College of Medicine and Veterinary Medicine and the College of Science and Engineering. Read more

Research profile

This programme is organised by Edinburgh Infectious Diseases (EID), which is hosted by the College of Medicine and Veterinary Medicine and the College of Science and Engineering.

It provides an introduction to research methodology for biologists, medics and veterinarians. The training also provides an entry into PhD studies. Previous students have undertaken projects in the following areas:

antibiotic resistance and hospital-acquired infections

arthropod vector biology and vectorborne diseases

epidemiology and mathematical modelling of animal and human infections

functional genomics and bioinformatics

molecular diagnosis and point-of-care detection of infectious diseases

the immunology of bacterial and parasitic infections (including major tropical diseases such as malaria, lymphatic filariasis and river blindness)

the immunology of ruminant infections (for example Johne's Disease)

the pathogenesis of prion and viral diseases (animal and human, including herpes and HIV)

The learning process includes a one-year research project and during the study period students will be required to attend research seminars and lectures, including those on the related areas of immunology, microbiology and pathology. Training will also be given in generic skills including: statistics; project management and planning; oral and written presentational skills.

Depending on the project selected, students will learn how to apply modern molecular and biochemical techniques to the investigation of pathogenesis of infections, or the use of statistics and mathematical models to study the epidemiology of diseases.

Programme Structure

The learning process includes a one-year research project and during the study period students will be required to attend research seminars and lectures, including those on the related areas of immunology, microbiology and pathology. Training will also be given in generic skills including: statistics; project management and planning; oral and written presentational skills.



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This course is for doctors, nurses, allied health professionals and pharmacists with an interest in diabetes care. It aims to develop the scientific basis for improvement in diabetes clinical practice and public health using robust epidemiological, evidence based and social science methodologies. Read more
This course is for doctors, nurses, allied health professionals and pharmacists with an interest in diabetes care. It aims to develop the scientific basis for improvement in diabetes clinical practice and public health using robust epidemiological, evidence based and social science methodologies.

Diabetes is becoming an increasingly common condition among every population group, both in the developed and developing countries. It has a major impact on the physical, psychological and general wellbeing of individuals and their families. It can lead to disabilities, for example blindness, chronic morbidity, and mortality through heart disease, stroke and renal failure. Yet, there is evidence that effective treatment can increase life expectancy, reduce the risk of complications and even delay or prevent onset. This course will prepare you to take an evidence-based approach to diabetic care and will allow you to specialise in an area of your choice. It has been developed with clinical colleagues and blends the theoretical perspectives with practicalities of implementing an effective diabetic care programme. This course emphasises the effective use of multidisciplinary teams in problem solving and patient care.

Delivered through online learning, the course is ideal for international students who wish to study the international dimension of diabetes and apply the principles to care in developing countries.

Teaching, learning and assessment

A range of student-centred e-learning methods including online tutorials are utilised. Your performance will be assessed by systematic reviews, presentations and posters.

Teaching hours and attendance

Both the full-time and part-time routes are taught by distance e-learning. The fulltime route allows the student to complete the online programme over one year, and would probably be best suited for students in part-time employment. The part-time route allows you to space your studies out over a longer period of time to suit your needs and there is flexibility in which modules you undertake each year. On average you will be required to spend approximately 150 hours of study per module depending on credit rating.

Links with industry/professional bodies

Modules

Core modules
30 credits: Research Methods / Diabetes: Pathology, Physiology and Complications/ Management of Diabetes and its complications

Elective modules
30 credits: Tissue Vaibility
15/30 credits: Developing Professional Practice Work-Based Learning
15 credits: Digital Literacies/ Epidemiology

If studying for the MSc, you will also complete a dissertation (60 credits).

The modules listed here are correct at the time of posting (July 16), but are subject to change. In the event that modules have to change, QMU will seek to use reasonable endeavours to ensure that there is no detrimental impact to students.

Careers

Career prospects on completion of the course are likely to be within specialist teams, either within the acute or primary care sector. Opportunities also exist internationally.

The new Diabetes National Service Framework Standards will also influence the services provided to diabetic patients. Graduates of this course will be in an excellent position to lead specialist multi-professional teams. There will also be opportunities in education and pharmaceutical industries. Graduates may also like to apply for study at higher degree (Mphil or PhD).

Successful graduates have gone on to undertake PhD research, employment in pharmaceutical companies and have gained work place promotion as physicians, nurses and allied health professionals.

Quick Facts

- The course is taught by consultant physicians, allied health professionals and nurses.
- This is an evidence driven course.

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Designed to meet the professional development needs of teachers working with children and young people who have a visual impairment, this programme develops skills that will allow you to work in a variety of settings, ranging from specialised contexts to mainstream school placements. Read more

Programme description

Designed to meet the professional development needs of teachers working with children and young people who have a visual impairment, this programme develops skills that will allow you to work in a variety of settings, ranging from specialised contexts to mainstream school placements

Our Additional Support for Learning programmes are designed to meet the needs of practising teachers and other professionals.

You will learn to apply theory effectively and engage with and influence policy that relates to the role of a teacher of visually impaired children within an inclusive environment.

You will build on your existing skills, gaining knowledge and attitudes that you can apply in cooperation with colleagues, professionals, families and carers of learners, as well as the learners themselves.

On a more technical level, you will become familiar with the effects of a range of ocular and cerebral visual impairments and be able to apply structured observation or standardised tests to identify the thresholds of functional vision or blindness of pupils and plan and teach programmes appropriately.

Programme structure

Your learning will be in the form of lectures, seminars, small-group discussions and skill-development sessions.

Most courses are offered in e-learning or blended learning format, combining on-campus and online study.

All the courses are studied part time, and you can select individual courses for your CPD needs, complete 60 credits for a Postgraduate Certificate, or complete 120 credits for a Postgraduate Diploma.

Career opportunities



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Designing at the forefront of communication technology. The rapid expansion of digital networks such as YouTube, Wikipedia, Flickr and Facebook have changed user expectations. Read more
Designing at the forefront of communication technology.

Overview

The rapid expansion of digital networks such as YouTube, Wikipedia, Flickr and Facebook have changed user expectations. These advances have created a demand for graduates who understand social and participatory design principles and have the skills to design new interactive technologies.

The MSc in Social Media and Interactive Technologies provides an innovative mix of social and technical skills. You will gain an understanding of the social, political and economic factors that affect the use of interactive technologies, examining how technology is perceived and employed by the user, and you will develop the skills to design and create usable and accessible devices and applications.

Course content

Understand social media and interactive technologies through the key roles they play in society. Explore topics in human-computer interaction, user-centred design, social and cultural theory and human psychology and learn to apply them to the practical problems of designing interactive pages, devices and systems.

Modules for this social media degree are taught by experts from both the Department of Sociology and the Department of Computer Science.

The MSc in Social Media and Interactive Technologies includes eight core modules:
-Understanding Social Media
-Metrics and Society
-Themes and Issues in Contemporary Sociology
-Research Methods for Interactive Technologies
-User-centred Design for Interactive Technologies

You will develop, design, implement and manage your own original research project, supervised by a member of staff with the relevant experience for your topic. You will analyse the data and produce a 15,000-word dissertation based on your research project.

Examples of previous projects include:
-Accessibility of iPhone/iPad apps
-Democracy and participation in York City
-The use of social networking sites by the older generation
-Social robotics and companionship
-Living with the h-index?
-Investigating immersion in games with inattentional blindness
-Immersion and cognitive effort when playing videogames
-Immersion in audio-only games

Careers

You'll develop the skills and knowledge needed to play a leading role in the design and evaluation of interactive technologies in industry, commerce, academia and public service. This social media degree also provides an ideal basis to progress to further study at PhD level.

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International Ophthalmology aims to prevent blindness, promote eye health and rehabilitate those with a visual disability in the near island nations. Read more
International Ophthalmology aims to prevent blindness, promote eye health and rehabilitate those with a visual disability in the near island nations. The Master of International Ophthalmology focuses on, but is not limited to, the specific training needs of clinicians in developing countries of the Asia-Pacific region. Medical graduates in the Asia-Pacific interested in ophthalmology will benefit from this comprehensive course, which can lead to qualifications endorsed by their local health ministry. It will provide you with the skills to practise ophthalmology at the highest possible standard with an emphasis on the specific diseases and pathologies of developing countries.

Clinical and basic sciences are taught online, while local and visiting mentors provide clinical teaching and supervision in your working environment. You will gain practical skills that include knowledge of the prognosis and management of common eye conditions, diseases and injuries. The course will also provide you with the opportunity to complete extensive practical experience, including performing ophthalmic surgery and management of post-operative complications.

To ask a question about this course, visit http://sydney.edu.au/internationaloffice/

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Ophthalmic science aims to prevent blindness, promote eye health and rehabilitate those with a visual disability. The Master of Medicine (Ophthalmic Science) includes study in ocular anatomy, physiology, optics, genetics, pathology, practical ophthalmic science. Read more
Ophthalmic science aims to prevent blindness, promote eye health and rehabilitate those with a visual disability. The Master of Medicine (Ophthalmic Science) includes study in ocular anatomy, physiology, optics, genetics, pathology, practical ophthalmic science. You will complete a treatise in the field of ophthalmology as part of the requirements of this course.

To ask a question about this course, visit http://sydney.edu.au/internationaloffice/

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Our department is home to a world-renowned sensory neuroscience research group. Their projects provide the basis for teaching and research training on this MSc. Read more

About the course

Our department is home to a world-renowned sensory neuroscience research group. Their projects provide the basis for teaching and research training on this MSc.

The course covers molecular, cell and developmental biology of auditory and visual systems. Advanced imaging and behavioural analysis focus on information processing: from sensory transduction to the central nervous system and behaviour. You’ll also study animal models of sensory deficits and the development of therapeutic treatments for hearing loss and blindness.

Where your masters can take you

Graduates with skills in stem cell and regenerative medicine are in demand. Your degree will prepare you for a career in research in academia or industry, or in a clinical-related field. Our graduates are working all over the world – from the UK to China, India and the USA – and over half go on to doctoral study.

Learn from the experts

The 2014 Research Excellence Framework (REF) rates us No 1 in the UK for research in this field. Our international reputation attracts highly motivated staff and students. Sheffield is a vibrant place to take a masters based on pioneering research.

Regular seminars from distinguished international experts help you to connect your studies to the latest developments. We’re also part of collaborative research groups for developmental biology, cell biology, physiology, pharmacology, neuroscience, models of human disease, stem cell science and regenerative medicine.

Our three research centres focus on translating laboratory research to the clinical environment: Bateson Centre, the Centre for Stem Cell Biology, and the Centre for Membrane Interactions and Dynamics.

Leaders in our field

We have a long track record of groundbreaking discoveries. These include breakthroughs in human stem cells for hearing repair, and the generation of animal models for Parkinson’s disease, schizophrenia, muscular dystrophies and their use for therapeutic studies.

Labs and equipment

We have purpose-built facilities for drosophila, zebrafish, chick and mouse genetics and for molecular physiology. Other facilities provide all the tools you’ll need to examine and analyse a range of cellular structures. We have an electron and a light microscopy centre, a PCR robotics facility, a flow cytometry unit and an RNAi screening facility.

Teaching and assessment

There are lectures, practical classes, tutorials and seminars. In small group teaching classes you’ll discuss, debate and present on scientific and ethical topics. Laboratory placements within the department provide you with one-to-one attention, training and support to do your individual research project. Assessment is by formal examinations, coursework assignments, debates, poster presentations and a dissertation.

Our teaching covers ethics, practical scientific skills and an overview of the current literature. You’ll also develop useful career skills such as presentation, communication and time management.

Core modules

Literature Review; Practical Research Project; Analysis of Current Science; Ethics and Public Understanding.

Examples of optional modules

Integrated Mammalian Biology; Practical Developmental Genetics; Neuroscience Techniques; Sensory Neuroscience; Developmental Neurobiology; Computational Neuroscience.

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The Sensory Systems, Technologies & Therapies (SenSyT) MRes programme was devised in consultation with industry partners developing treatments for sensory disorders. Read more
The Sensory Systems, Technologies & Therapies (SenSyT) MRes programme was devised in consultation with industry partners developing treatments for sensory disorders. It is an innovative biomedical and translational sciences programme intended for students aiming to pursue a career in academia or to work in the pharmaceutical and biotechnology industrial sectors.

Degree information

Through a major year-long research project and supplemental coursework, students will learn to conduct cutting-edge research aimed at understanding fundamental principles of sensory systems function and/or developing novel technologies and therapies for sensory disorders, such as deafness and blindness.

Students undertake modules to the value of 180 credits.

The programme consists of three core modules (45 credits), one optional module (15 credits) and a research project with dissertation/report (120 credits).

Core modules
-Introduction to Sensory Systems, Technologies & Therapies
-Research in Practice
-Translating Science into the Clinic

Optional modules - one optional module can be chosen from a group of appropriate modules currently offered at the UCL Ear Institute or at the UCL Institute of Ophthalmology, to provide more in-depth knowledge and understanding of particular issues in sensory systems research. Examples include:
-Anatomy and Physiology of the Audiovestibular System
-Auditory Biophysics and Electroacoustics
-Ocular Cell Biology, Genetics and Epidemiology of Ocular Disease
-Ocular Development in Health and Disease
-Visual Neuroscience

Students may choose an alternative optional module from across UCL with prior approval of the Programme Director, provided that it aligns with the topic of the extended research project.

Dissertation/report
All students undertake a year-long independent research project which culminates in a dissertation of 15,000 words.

Teaching and learning
The programme is delivered through a combination of lectures, tutorials, practicals, seminars, workshops, journal clubs, and an extended research project. Assessment is through coursework, oral presentations, essays, practicals, unseen written examinations, and research dissertation.

Careers

The Sensory Systems, Technologies and Therapies MRes was devised in consultation not only with academic scientists pursuing cutting-edge research in sensory systems and therapies, but also with representatives from industries interested in developing new treatments for sensory disorders. The programme has therefore been designed with the intention of ensuring that successful graduates will be attractive candidates either for further PhD research or for jobs in the commercial sector (for example, in companies developing or marketing novel treatments for visual impairment or hearing loss).

Employability
Students will graduate with interdisciplinary training in sensory systems science; a good understanding of the clinical and commercial context for development of sensory systems technologies and therapies; and substantive experience with a cutting-edge research project.

Why study this degree at UCL?

UCL is among the world's top universities for biomedical research, with particular strength in neuroscience, sensory systems research, and translational studies. Students taking the Sensory Systems, Technologies and Therapies MRes will be based at the UCL Ear Institute, an internationally recognised centre for auditory research, and will also take core modules at the UCL Institute of Ophthalmology, one of the world's major centres for vision research.

MRes students will have access to potential research supervisors from across all UCL, and will benefit from interaction with students on the Sensory Systems, Technologies and Therapies MPhil/PhD introduced in 2014. The Sensory Systems, Technologies and Therapies MRes will therefore provide students with outstanding opportunities to learn from and network with scientists, engineers, clinicians and students throughout the UCL community.

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