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This MSc is provided jointly by the Department of Psychology and the York Neuroimaging Centre (YNiC), and recruits contributing faculty from other university departments such as The Hull-York Medical School. Read more
This MSc is provided jointly by the Department of Psychology and the York Neuroimaging Centre (YNiC), and recruits contributing faculty from other university departments such as The Hull-York Medical School. The overarching aim of the MSc in Cognitive Neuroscience at York is to provide a bridge between undergraduate study and PhD research in cognitive neuroscience, experimental psychology and imaging methods.

The course has been developed around training and research using neuroimaging techniques, and the experimental and analytical methods on which they depend. Through our specialist modules students are introduced the principles of neuroimaging, gaining hands on experience in functional magnetic resonance imaging (fMRI), magnetoencephalography (MEG), eletroencephalography (EEG) or transcranial magnetic stimulation (TMS), learning how to design, analyze and evaluate neuroimaging experiments, and how such experiments are contributing to our understanding of the brain mechanisms underpining cognition and behaviour. Along the way, students also receive training on generic statistical, writing and research skills, and are exposed to main research topics in cognitive psychology and cognitive neuroscience. Finally, students complete an extended empirical project, typically using a neuroimaging technique of their choice. The empirical project is supported by the state-of-the-art facilities at YNiC.

Content

Specialist modules place neuroimaging in the wider context of cognitive neuroscientific research and introduce students to the principles of neuroimaging the design of neuroimaging experiments and specialist methods required for the analysis of neuroimaging data. These include:
-Basic principles in neuroimaging
-Research Design and Analysis in Neuroimaging
-Topics in Cognitive Neuroscience
-Programming in Neuroimaging

Empirical project
Project enables students to participate in the design and implementation of a theoretically-motivated piece of pure or applied research in cognitive neuroscience providing hands-on training in advanced brain imaging methods, some of which are being developed at York. Topics are chosen so as to be timely and practicable within the relevant resource and time constraints. We regard it as important that the topic not only engages the interest and enthusiasm of the student, but is also a good match to the specialist expertise and knowledge of the supervisor.

Many of our students' projects are published. Each year we offer projects on a wide variety of topics linked to faculty research interests. For example students have used fMRI to investigate the processing of emotional and social cues, representation of semantic knowledge in the brain, disruption of visual cortex in patients with macular degeneration and brain mechanisms underpinning language understanding, face processing, number processing or anxiety and risky behaviour. Students have also used MEG and TMS to investigate brain mechanisms of memory for words and pictures, connectivity patterns between brain regions and auditory perception. Some of these projects are methodological in nature in that they aim to study the analytical strategies to apply in brain research, or they aim to develop the use of new imaging methods.

General research modules
These provide a solid grounding in contemporary issues in psychology and neuroscience, psychological research methods, professional and generic skills.

Assessment
Modules are assessed through a variety of different assignments and exams including practical reports, essays, multiple choice questions, critical analysis of published papers, short notes on a range of topics, dissertation on the Empirical Project, poster presentation.

Backgrounds

This challenging but rewarding course will best suit applicants who are:
-Interested in the brain and its workings (see What is cognitive neuroscience? in the overview)
-Interested in Psychology as a biological science
-Considering a career in research, especially in psychology, cognitive Neuroscience or imaging methods (many other career choices would be compatible with the general scientific, academic and professional training you will receive as part of the course)
-Comfortable with computers and statistics

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Our brain and its workings define who we are. Neuroscience is discovering how the nervous system functions in health and disease from the molecular to the behavioural level. Read more
Our brain and its workings define who we are. Neuroscience is discovering how the nervous system functions in health and disease from the molecular to the behavioural level. It is a vibrant area of science with regular exciting new breakthroughs, but there is still much to be discovered. UCL is the leading neuroscience institution in Europe, and students benefit greatly from a vast reservoir of expertise.

Degree information

In addition to providing experience and participation in cutting-edge neuroscience, delivered by internationally recognised researchers, the programme generates several transferable skills, notably advanced laboratory research methods, data analysis, computer literacy, oral presentation, critical appraisal of specialised literature, and time management.

Students undertake modules to the value of 180 credits. The programme consists of four core modules (75 credits), one optional module (15 credits) and a research project (90 credits).

Core modules
-Developmental Neurobiology
-Receptors and Synaptic Signalling
-Systems and Circuits Neuroscience
-Neuroscience Journal Club

Optional modules - students choose one of the following:
-Neurobiology of Degeneration and Repair
-Cognitive Systems Neuroscience

Research project/report
Students undertake an original research project which culminates in a 7,000-word dissertation.

Teaching and learning
The programme is delivered through a combination of lectures, seminars, tutorials and a laboratory project. Student performance is evaluated through formal examination, coursework, and the research project.

Careers

The majority (more than 80%) of our graduates take up PhD positions in neuroscience research, including some who stay on at UCL.

Top career destinations for this degree:
-Research Assistant, Toronto General Hospital
-Lab Scientific Officer, The Cyprus Institute of Neurology and Genetics
-MBChB (Bachelor of Medicine/Bachelor of Surgery), King's College London
-PhD in Biological Science, University of Cambridge
-PhD in Cognitive Neuroscience, UCL

Employability
The MSc in Neuroscience provides an introduction to a career in neuroscience. Around 80% of our students progress to a PhD and them onto careers in academia, industry and other allied biomedical professions. The remainder go into careers in the fields of healthcare, education and commercial scientific research.

Why study this degree at UCL?

The UCL Division of Biosciences is one of the largest and most active research environments for basic biological research in the UK, and UCL has one of the largest, most dynamic and exceptional neuroscience communities in the world.

UCL has over 450 principal investigators covering all aspects of neuroscience.

This MSc provides students with a broad knowledge of neuroscience, together with deep knowledge and hands-on experience in the area of their research project.

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The Drug Sciences MRes is for graduates wishing to pursue a career in research. The programme provides a flexible opportunity for high-level research-based training and acquiring a range of academic skills that will prepare students for PhD-level study or a career in biotech and pharmaceutical industries. Read more
The Drug Sciences MRes is for graduates wishing to pursue a career in research. The programme provides a flexible opportunity for high-level research-based training and acquiring a range of academic skills that will prepare students for PhD-level study or a career in biotech and pharmaceutical industries.

Degree information

This programme includes taught and research components and runs for 12 months. The research project begins immediately when students join their chosen laboratory. Project work continues throughout the whole year. The taught component is tailored to individual research programmes. Students select the appropriate modules for their chosen research discipline. There is also core training in research methods and transferable skills.

Students undertake modules to the value of 180 credits.

The programme consists of both a taught component (30 credits) and a larger research component (150 credits). The taught component will be drawn from a range of specialist options taught by the School of Pharmacy. Students will study either one 30-credit or two 15-credit modules. Not all modules will be available every year.

Core modules
-Dissertation

Optional modules - students select either one or two modules from a wide range including:
-Medicinal Natural Products
-New Drug Targets in the CNS
-Anticancer Personalised Medicines
-Modern Aspects of Drug Discovery
-Analysis and Quality Control
-Preformulation
-Formulation of Small Molecules
-Personalised Medicines
-Natural Product Discovery
-Adverse Drug Reactions and Biomarkers
-Advanced Structure Based Drug Design
-Pharmaceutical Biotechnology
-Clinical Pharmaceutics
-Nanomedicines
-Formulation of Natural Products and Cosmeceuticals
-Developmental Neurobioloy
-Neurobiology of Degeneration and Repair
-Cognitive Systems Neuroscience
-Systems and Circuit Neuroscience
-Medicinal Chemistry

Dissertation/report
All students undertake a programme of full-time research equivalent to approximately 10 months' duration. This research will be written up as a dissertation at the end of the period of study.

Teaching and learning
The programme is delivered through a combination of lectures and seminars, laboratory work, participation in the research training programme. Assessment is through written examination, research dissertation, oral presentation and viva voce examination.

Careers

Graduates of this programme can expect to become proficient research scientists equipped for a career in research, in the pharmaceutical industry, or with a government regulatory body.

Why study this degree at UCL?

This MRes in Drug Sciences is conducted primarily as an in-depth and novel research project at the forefront of research in the area of medical and pharmaceutical sciences within the internationally recognised UCL School of Pharmacy.

Thus students gain research experience and training in their chosen research laboratory and also importantly, they have the opportunity to interact with expert researchers in all aspects of the drug discovery and delivery process.

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The new Dementia MSc is offered jointly by the UCL Institute of Neurology and the Division of Psychiatry and tackles one of the biggest global health problems facing society today. Read more
The new Dementia MSc is offered jointly by the UCL Institute of Neurology and the Division of Psychiatry and tackles one of the biggest global health problems facing society today. It provides research-oriented and cutting-edge training in the study of dementia and its scientific basis, led by international leaders in the science and practice of dementia. Two specialised pathways, in neuroscience and in mental health, are offered.

Degree information

The neuroscience pathway brings the latest bench-top research findings to the bedside, develops and integrates basic and clinical neuroscience skills, and equips students for future careers in the clinical practice or basic neuroscience of dementia. More information about the Mental Health pathway is also available.

Students undertake modules to the value of 180 credits.

The programme consists of six core modules (90 credits), two optional modules (30 credits) and a dissertation/report (60 credits).

Core modules
-Clinical Neuroscience of Neurodegenerative Diseases
-Current Research in Dementia
-Neurobiology of Degeneration and Repair
-Higher Functions of the Brain
-Research Methods and Critical Appraisal
-Practical Neuroscience of Dementia

Optional modules
-Advanced Neuroimaging
-Advanced Treatment and Management of Dementia
-Statistical Methods in Mental Health
-Introduction to Biological Research in Mental Health
-Quality Improvement in Health Care

Dissertation/report
All students undertake an independent research project which may take the form of a critical literature synthesis or collection and analysis of original data, depending on project availability and student background. The project culminates in a dissertation of approximately 10,000 words and a viva voce examination.

Teaching and learning
The programme is delivered through a combination of lectures, tutorials, seminars, journal clubs, workshops, masterclasses and patient-based teaching sessions supplemented by self-directed learning. Assessment is through ongoing formative assessments, for example interactive discussions and timetabled summative assessments (including short-answer and multiple-choice unseen examinations), essays, posters, oral presentations, and a research project and a final report in the format of a journal paper.

Careers

This is a new programme and no information on graduate destinations is currently available. For scientists and psychologists, the programme can lead to future placements in clinically oriented research environments or clinical training. For clinicians, this is an excellent opportunity to gain a higher qualification at a world-leading centre of excellence in neurodegeneration research, which could be tailored to a variety of future roles in clinical, research and management fields. Many students will go on to pursue PhDs and research careers in the fields of dementia and neurodegeneration.

Employability
This unique programme will equip graduates with in-depth knowledge of dementia diseases and their treatments; strong, practical research skills that could facilitate doctoral or postdoctoral research in the field; and transferable scientific communication skills. Students will harness the expertise of scientists and clinicians who are currently setting the neuroscience research agenda in dementia internationally. This experience could support further doctoral studies and applications for nationally funded fellowships. For clinicians, the programme will provide research perspectives and practical skills that could inform subspecialty practice in dementia. We aim to train the next generation of neuroscientific and clinical leaders in dementia.

Why study this degree at UCL?

This programme is unique in linking neuroscientific foundations with specialist clinical skills and knowledge in dementia.

The programme integrates the expertise of UCL Institute of Neurology with affiliated departments at the forefront of the global mission to defeat dementia, and is taught by international leaders working closely together to link bench and bedside as part of UCL's Dementia Strategy.

The programme builds on UCL's global perspective, targeting students in developing as well as developed countries to drive future training opportunities. The programme emphasises active student participation and enquiry, develops practical skills, and offers unparalleled exposure to laboratories and patients.

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The new Dementia MSc is offered jointly by the UCL Institute of Neurology and the Division of Psychiatry and tackles one of the biggest global health problems facing society today. Read more
The new Dementia MSc is offered jointly by the UCL Institute of Neurology and the Division of Psychiatry and tackles one of the biggest global health problems facing society today. It provides research-oriented and cutting-edge training in the study of dementia and its scientific basis, led by international leaders in the science and practice of dementia. Two specialised pathways, in neuroscience and in mental health, are offered.

Degree information

The neuroscience pathway brings the latest bench-top research findings to the bedside, develops and integrates basic and clinical neuroscience skills, and equips students for future careers in the clinical practice or basic neuroscience of dementia. More information about the Mental Health pathway is also available.

Students undertake modules to the value of 180 credits.

The programme consists of six core modules (90 credits), two optional modules (30 credits) and a dissertation/report (60 credits).

Core modules
-Clinical Neuroscience of Neurodegenerative Diseases
-Current Research in Dementia
-Neurobiology of Degeneration and Repair
-Higher Functions of the Brain
-Research Methods and Critical Appraisal
-Practical Neuroscience of Dementia

Optional modules
-Advanced Neuroimaging
-Advanced Treatment and Management of Dementia
-Statistical Methods in Mental Health
-Introduction to Biological Research in Mental Health
-Quality Improvement in Health Care

Dissertation/report
All students undertake an independent research project which may take the form of a critical literature synthesis or collection and analysis of original data, depending on project availability and student background. The project culminates in a dissertation of approximately 10,000 words and a viva voce examination.

Teaching and learning
The programme is delivered through a combination of lectures, tutorials, seminars, journal clubs, workshops, masterclasses and patient-based teaching sessions supplemented by self-directed learning. Assessment is through ongoing formative assessments, for example interactive discussions and timetabled summative assessments (including short-answer and multiple-choice unseen examinations), essays, posters, oral presentations, and a research project and a final report in the format of a journal paper.

Careers

This is a new programme and no information on graduate destinations is currently available. For scientists and psychologists, the programme can lead to future placements in clinically oriented research environments or clinical training. For clinicians, this is an excellent opportunity to gain a higher qualification at a world-leading centre of excellence in neurodegeneration research, which could be tailored to a variety of future roles in clinical, research and management fields. Many students will go on to pursue PhDs and research careers in the fields of dementia and neurodegeneration.

Employability
This unique programme will equip graduates with in-depth knowledge of dementia diseases and their treatments; strong, practical research skills that could facilitate doctoral or postdoctoral research in the field; and transferable scientific communication skills. Students will harness the expertise of scientists and clinicians who are currently setting the neuroscience research agenda in dementia internationally. This experience could support further doctoral studies and applications for nationally funded fellowships. For clinicians, the programme will provide research perspectives and practical skills that could inform subspecialty practice in dementia. We aim to train the next generation of neuroscientific and clinical leaders in dementia.

Why study this degree at UCL?

This programme is unique in linking neuroscientific foundations with specialist clinical skills and knowledge in dementia.

The programme integrates the expertise of UCL Institute of Neurology with affiliated departments at the forefront of the global mission to defeat dementia, and is taught by international leaders working closely together to link bench and bedside as part of UCL's Dementia Strategy.

The programme builds on UCL's global perspective, targeting students in developing as well as developed countries to drive future training opportunities. The programme emphasises active student participation and enquiry, develops practical skills, and offers unparalleled exposure to laboratories and patients.

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The Centre for Neuroregeneration (CNR) conducts research at the cellular and molecular levels. If you apply for one of the programmes listed on the right, you should have already been in contact with your potential future supervisor and have agreed on a research proposal. Read more

Research profile

The Centre for Neuroregeneration (CNR) conducts research at the cellular and molecular levels.

If you apply for one of the programmes listed on the right, you should have already been in contact with your potential future supervisor and have agreed on a research proposal. Otherwise please go to the MSc by Research in Integrative Neuroscience website. This is a programme that will match you up with supervisors and there is no need for a research proposal at this point.

We actively collaborate with clinical neuroscientists as well as computational neuroscientists working in neuroinformatics.

The Edinburgh neuroscience community maintains the highest standards of research training and a long tradition of research publication in international journals.

The division has several interdisciplinary research groups studying the degeneration and repair of neurons and the mechanisms that underlie human neurological diseases.

Training and support

We normally have about 20 PhD students.

Students are assigned to the relevant research group. Each student's progress is monitored by a thesis committee convened from members within these groups. Students participate in a weekly graduate seminar programme, presenting their analysis of original research papers assigned by an expert member of the Edinburgh neuroscience community.

All students are encouraged to present their findings at national and international conferences and to publish their findings in international journals, in advance of submission of their PhD theses for examination.

Facilities

The CNR has state-of-the-art laboratories in the Chancellor’s Building.

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This practical course is based on a single research project under the training and supervision of one of our Academic researchers. Read more
This practical course is based on a single research project under the training and supervision of one of our Academic researchers. Topics tend to be interdisciplinary and range from laboratory-based fundamental science to field-based applied agriculture and ecology. The course will give you hands-on experience of your chosen specialism and can be used in preparation for a PhD. It also prepares you for careers in science administration, business where the products sold involve advanced technology, and as a consultant in many highly skilled sectors.

Research areas include

-Animal Health and Welfare
-Biogeochemical Cycles
-Brain Function and Neuro-Degeneration
-Cell Biology
-Developmental Systems and Ageing
-Environmental Microbiology
-Environmental Resource Management and Ecosystems
-Epidemiology and Modelling
-Food Security
-Gene Expression
-Genomics and Bioinformatics
-Host-Pathogen Interactions
-Molecular Systems Biology
-Infectious Disease
-Molecular Structure and Mechanism
-Network Reengineering
-Neuroscience
-Pathogenesis Mechanisms
-Plant Science
-Signalling Pathways
-Synthetic Biology and Biotechnology

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Our MSc course in Investigative Ophthalmology and Vision Sciences brings together the research expertise in vision from The University of Manchester and Manchester Royal Eye Hospital. Read more
Our MSc course in Investigative Ophthalmology and Vision Sciences brings together the research expertise in vision from The University of Manchester and Manchester Royal Eye Hospital.

This course will provide you with a firm grounding in the knowledge needed to pursue a higher degree and to conduct high quality research in ophthalmology, optometry or vision sciences. It also gives an opportunity for vision-related professionals to advance their knowledge of the scientific foundations of ophthalmology and vision sciences.

The course is aimed at optometrists, ophthalmologists, orthoptists and nurses from the UK and overseas. It is suitable for:
-Individuals who are considering undertaking a research degree in the vision sciences
-Those interested in professional development
-Those interested in conducting research as part of their clinical training
-Ophthalmologists wishing to expand and extend their training into specialist areas
-Optometrists considering a career in the hospital eye service

Teaching and learning

The course has two different pathways:
1. Six taught units (15 credits each) and a project dissertation (90) credits.
2. Four taught units (15 credits each), a literature review (30 credits) and a dissertation (90 credits).

The six units are Research Methods, Cornea, Contact Lens, Vascular Disease, Macular Degeneration and Glaucoma.

In each of the units, learning will be based on a series of formal lectures on topics relating to ocular disease and treatments, and a series of more informal tutorials on current research. You will receive copies of presentations and direction to relevant literature for personal study.

Many projects have led to peer reviewed publications in the ophthalmic literature. Recent titles include the following:
-Optical coherence tomography measures of the retinal nerve fibre layer
-Development of a model cell assay to investigate the cellular processing of ARB mutant bestrophin-1
-Risk factors for late presentation of patients with primary open angle glaucoma
-Molecular analysis of autosomal recessive retinal dystrophies
-In vivo analysis of the wettability of silicon hydrogel contact lenses
-Can corneal densitometry be used to assess the treatment outcome after corneal transplantation
-A contact lens based technique delivering cultured stem cells onto the human corneal surface
-The use of corneal imaging to assessing treatment outcomes of LASIK and LASEK
-Addressing the physiological cues needed for trans-differentiation of dental pulp stem cells into limbal stem cells

Coursework and assessment

Assessment is via:
-Written examinations in January and May
-Coursework set during the taught units
-A research project dissertation

Career opportunities

This course is aimed at optometrists, ophthalmologists, orthoptists and nurses from the UK and overseas.

It is considered suitable for:
-Individuals interested in vision sciences
-Those interested in conducting research as part of their clinical training
-Optometrists considering a career in the hospital eye service
-Those interested in an academic career in ophthalmology/optometry/vision sciences
-Optometrists interested in professional development

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