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Masters Degrees (Cognitive Brain Imaging)

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Over the last decades, improvements in technology have led to a rapid increase in the use of neuroimaging to study human brain function non-invasively in health and disease. Read more
Over the last decades, improvements in technology have led to a rapid increase in the use of neuroimaging to study human brain function non-invasively in health and disease. In particular, functional magnetic resonance imaging (fMRI), electro-encephalography (EEG), magneto-encephalography (MEG) and transcranial magnetic stimulation (TMS) are now routinely used by neuroscientists to study brain-behaviour relationships. Our MSc in Brain Imaging showcases Nottingham’s multi-disciplinary environment and offers a comprehensive programme that will provide you with the theoretical knowledge and practical skills required to conduct high-quality neuroimaging work and neuroscience research. Translational in vivo neuroscience approaches in animal models will also be considered, and interested students will have the opportunity to receive research training in this area.

The MSc in Brain Imaging has a flexible course structure and offers four pathways with core modules alongside a choice of optional modules that permits tailor-made study. The options are:

MSc Brain Imaging (Cognitive Neuroscience)
MSc Brain Imaging (Neuropsychology)
MSc Brain Imaging (Integrative Neuroscience)
MSc Brain Imaging (Developmental Science)

Graduating from the University of Nottingham opens up a wide range of career options. Many of our students use this programme as a preparation for PhD study or other advanced degree positions. Others opt for science-related jobs. Our graduates are highly regarded by employers in private and public sector organisations because of the solid academic foundation and transferable skills they gain during their degree course such as analytical evaluation, data management, statistical analysis as well as presentation and writing skills. In the past, graduates of this programme have taken-up career opportunities in university, hospital and industry settings.

Please email for more information or visit the PG prospectus. Given the breadth of training available, the MSc is recommended to students with a background in psychology, neuroscience or a bioscience discipline as well as those with training in physics, engineering, mathematics, or computer sciences.

Upcoming Open Days: Wednesday 29 June and Wednesday 6 July (1.30-3 pm). Please contact us if you have specific questions about the programme. Phone: +44 (0)115 951 5361 or email:

Key facts

• Programme delivered through lectures, practicals and research project resulting in a dissertation
• Core and optional modules according to specific pathways
• Four pathways with applications in Cognitive Neuroscience, Developmental Science, Neuropsychology, and Integrative Neuroscience
• Taught by active and internationally renowned research scientists
• Interdisciplinary approach with specialist lectures and/or project supervision by scientists from: the School of Psychology; Sir Peter Mansfield Magnetic Resonance Centre; Department of Academic Radiology

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Take advantage of one of our 100 Master’s Scholarships to study Research Methods in Psychology and Cognitive Neuroscience at Swansea University, the Times Good University Guide’s Welsh University of the Year 2017. Read more
Take advantage of one of our 100 Master’s Scholarships to study Research Methods in Psychology and Cognitive Neuroscience at Swansea University, the Times Good University Guide’s Welsh University of the Year 2017. Postgraduate loans are also available to English and Welsh domiciled students. For more information on fees and funding please visit our website.

This Master's degree in Research Methods in Psychology and Cognitive Neuroscience aims to equip students with the skills necessary for research careers across a range of scientific areas.

Key Features of Research Methods in Psychology and Cognitive Neuroscience

Performance:

- One of four Psychology departments to achieve a 100% 4* rating (maximum score possible) for the reach and significance of its work in the Research Excellence Framework (REF) 2014. Based on this measure Psychology at Swansea was ranked 14th (out of 82) in the UK
- Top third ranking for UK Psychology Departments (2016 Complete University Guide)
- Joint 12th UK ranking for Psychology (Graduate prospects)
- The MSc Research Methods in Psychology and Cognitive Neuroscience is unique and novel in the range of modules and techniques the programme offers

Teaching and Employability:

- Teaching is carried out by highly-respected, research active, professionals conducting research across a range of cognitive neuroscience research areas and publishing in top international journals
- Students benefit from state-of-the-art technology with over twenty general purpose research rooms and numerous specialised testing facilities
- Ability to offer international students mentoring throughout the course

Research Methods in Psychology and Cognitive Neuroscience is at the intersection of cognitive science, brain imaging, and clinical neuroscience.

It is considered one of the most significant areas of contemporary science and it is beginning to transform the understanding of both normal and damaged brain function.

The importance of cognitive neuroscience has been recognised by the Welsh Government which created the multi-centre Wales Institute of Cognitive Neuroscience, drawing together the psychology departments at Swansea, Cardiff and Bangor Universities.

A core aspect of the provision for MSc Research Methods in Psychology and Cognitive Neuroscience will also be collaboration with the College of Medicine at Swansea University.

Modules

Modules on the Research Methods in Psychology and Cognitive Neuroscience may include:

Theoretical Issues in Cognitive Neuroscience
Practical Applications in Cognitive Neuroscience
Statistical Methods
Computing skills
Generic Research Skills
Special Research Skills
Neuropsychology
Introduction to Research Programming
Psychology of Ageing

Research Methods in Psychology and Cognitive Neuroscience Course Structure

The full-time master's degree for Research Methods in Psychology and Cognitive Neuroscience is studied over one year and involves attending University for two full days a week (Monday and Tuesday).

The part-time degree in Research Methods in Psychology and Cognitive Neuroscience, which is studied over two years, normally involves attending the University for one full day a week.

Taught modules are provided in the first two semesters, with a final high credit-bearing empirical research project with a strong cognitive neuroscience component typically undertaken over the summer.

Sessions may be arranged occasionally on other days of the week (e.g. visiting clinician talks/workshops and employability sessions).

Who should apply?

The Research Methods in Psychology and Cognitive Neuroscience course is suitable for:

- anyone looking for a valuable academic foundation for future doctoral training
- anyone looking to demonstrate their employability across a range of disciplines within cognitive neuroscience and related fields, including psychology, computing, neuroscience, medicine and computer science
- UK and international psychology graduates seeking positions as researchers in psychology, cognitive neuroscience or related fields.
- psychology graduates aiming to secure a PhD by research in a psychology, cognitive neuroscience, or a related discipline
- graduates from other disciplines such as Biology, Neuroscience, and Medicine who wish to develop further skills related to psychology and cognitive neuroscience

Career Prospects

Students have successfully used the Research Methods in Psychology and Cognitive Neuroscience qualification to gain positions on PhD research programmes. Others have successfully gained employment as Research Associates/ Officers, as well as working in Teaching positions, the Business Sector and in Administration.

On completion of the Research Methods in Psychology and Cognitive Neuroscience course students should also be able to demonstrate their employability across a range of disciplines within cognitive neuroscience and related fields, including psychology, computing, neuroscience, medicine and computer science.

Staff Expertise

Many of the College of Human and Health Sciences team are leaders in their specialist fields of research. They undertake novel and original research in a variety of areas, including clinical and health psychology, brain injury, sleep, cognition, neuroscience and developmental psychology.

Postgraduate Community

The College of Human and Health Sciences has a vibrant postgraduate community with students drawn from a variety of backgrounds and nationalities. The College is known for its friendly, welcoming and supportive environment, which combined with its extensive facilities, state-of-the-art technology and superb beachside location, helps to ensure that students benefit from an exceptional student experience.

In addition, students have access to a wide range of excellent facilities and equipment for realistic workplace experiences.

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As Psychology and Neuroscience reach out to tackle the big questions facing society today, skills and experience in new and emerging techniques in brain imaging as they relate to cognitive neuroscience are in demand. Read more
As Psychology and Neuroscience reach out to tackle the big questions facing society today, skills and experience in new and emerging techniques in brain imaging as they relate to cognitive neuroscience are in demand.

The MSc in Brain Imaging and Cognitive Neuroscience is an exciting course that offers students the flexibility to develop specific interests, whilst at the same time an excellent opportunity to develop the technical and transferable skills needed to succeed in a wide range of research-related jobs.

The course uses a range of taught modules, a major research placement module and an independent research project leading to a dissertation.

Key features of the course are:

- One to one contact with research active staff
- An opportunity to specialize in Cognitive Neuroscience, gaining specific skills in neuroimaging and programming
- Find out what’s really hot or not in contemporary Cognitive Neuroscience
- Learn transferable skills that enhance employability

This course offers an excellent opportunity for advanced learning in Brain Imaging and Cognitive Neuroscience. For many students this course helps them to develop a more focused set of interests and skills within Cognitive neuroscience so that they can choose the next career step that is best for them. For others, who have already identified the sub-specialty that fires their career aspirations, the course allows them to delve more deeply into their subject and to gain more specific skills and knowledge needed to build their chosen career. An aim of the course is to give students a boost in securing an interesting and exciting job in the workplace or a place on a high quality PhD course after graduation.

About the School of Psychology

The School of Psychology is one of the strongest and most active psychology departments in the country. We are ranked among the top five psychology departments for research and have a reputation for excellent teaching.

With around 800 undergraduates, 250 postgraduates including 100 PhD students, and 140 research and teaching staff we are one of the largest psychology departments in the UK.

The School currently has a live research grant portfolio of £14.1m generating an annual income of around £3.8m. Of our 140 staff, 63% are core funded, and 37% are research funded.

The School hosts four specialist research centres:

- Centre for Human Brain Health
- Centre for Applied Psychology
- The Cerebra Centre for Neurodevelopmental Disorders
- Centre for Computational Neuroscience and Cognitive Robotics

Staff and students benefit from our extensive links with local hospitals and clinics, other universities, schools and nurseries, industrial companies and local and national government departments.

Funding and Scholarships

There are many ways to finance your postgraduate study at the University of Birmingham. To see what funding and scholarships are available, please visit: http://www.birmingham.ac.uk/postgraduate/funding

Open Days

Explore postgraduate study at Birmingham at our on-campus open days.
Register to attend at: http://www.birmingham.ac.uk/postgraduate/visit

Virtual Open Days

If you can’t make it to one of our on-campus open days, our virtual open days run regularly throughout the year. For more information, please visit: http://www.pg.bham.ac.uk

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This programme involves studying the interaction between and within groups of neurons in the brain, and how they affect our interactions with the outside world. Read more
This programme involves studying the interaction between and within groups of neurons in the brain, and how they affect our interactions with the outside world.

The brain is no longer considered a passive response device but rather as a network in which we consider ongoing activity before, during, and after a stimulus. The specialisation Brain Networks and Neuronal Communication deals with brain networks; ranging from the smallest scale, the communication between individual neurons, to the largest scale, communication between different brain areas. Using advanced mathematical tools, this specialisation prepares students for cutting-edge neuroscience research.
Students interested in this specialisation are expected to already have a high level of mathematical skills and/or training in physics, engineering or computer science in their Bachelor’s studies.

A large majority of our graduates gain a PhD position, while other graduates find jobs in the commercial sector or at research institutes. Graduates of this specialisation may more readily find a position within a government institution or specialised companies (e.g. in the pharmaceutical industry).

See the website http://www.ru.nl/masters/cns/brain

Why study Brain Networks and Neuronal Communication at Radboud University?

- Researchers in Nijmegen combine new techniques for electrophysiological and anatomical measurements of connectivity and activation with data analysis and the experimental application of these techniques. This is done in studies of cognition in not just humans but also non-human primates and rodents.
- Exceptional students who choose this specialisation have the opportunity to do a double degree programme with either Neuroscience or Artificial Intelligence. This will take three instead of two years.
- This competitive programme provides a sound balance of theory and practice. Our selective approach guarantees excellence, especially during the research training period.

Career prospects

If you have successfully completed the Master’s programme in Brain networks and neuronal communication, you will be able to conduct independent neuroimaging and neurobiological research. You will have ample knowledge of the anatomical and neurophysiological aspects of networks in the human brain and the techniques for the computational analysis and modeling of brain networks. This will enable you to conduct independent research into the neurofunctional architecture of key cognitive functions, such as perception, attention, memory, language, planning and targeted actions and develop technologies to measure, characterise and model networks at the whole brain and/or the local cortical circuit level. With this educational background you should be able to find a position with one of the research institutes in the Netherlands or abroad, government institutions or specialised companies (e.g. in the pharmaceutical industry).

Our approach to this field

Research in the field of cognitive neuroscience is one of the spearheads in the research policy of Radboud University. Here, in Nijmegen, hundreds of scientists from various faculties and top institutes have joined forces to unravel the workings of the human brain, step by step . They work together closely, exchange expertise and share state-of-the-art research equipment.

Nijmegen is one of the foremost centres of cognitive neuroscience in the world. We have a high admission threshold to ensure that all of our students are highly motivated and have the ability to work at an advanced level. Top scientists screen all applications to make sure the new students meet our stringent entry criteria and can maintain the current standards of excellence. Once admitted to the programme, you can expect to be trained as a multidisciplinary scientist in the following two years. The research you will undertake addresses crossdisciplinary challenges. The teachers and supervisors you will meet are all experts in their own disciplines. We hope that with this programme, you will outperform your teachers by being able to combine knowledge from different domains. Alongside language processing and perceptuomotor systems, you may also help improve brain/computer interfaces, a hot topic with applications in medicine and information technology. Apart from being very exciting, it is also logical that various disciplines are merging. After all, everything that happens in the brain is interconnected. In Nijmegen we develop sophisticated cognitive models which we test by means of state-of-the-art imaging techniques, thanks to which you can participate in cutting-edge research that will hopefully lead to new insights into the way the human brain and mind work. Finally, we offer our best CNS students excellent career opportunities in challenging PhD projects.

- Unique multi-disciplinary Master’s programme
Are you also interested in the human brain? Would you like to conduct research into the workings of the brain and join an enthusiastic, international group of top researchers? The Radboud University offers a multi-faculty Master’s programme in Cognitive Neuroscience. The programme takes two years and is of a scientific orientation. There is a strong emphasis on experimental research. This Master’s programme is unique in Europe.
The Master’s programme in Cognitive Neuroscience is primarily focused on training you as a researcher because research institutes and businesses around the world desperately need highly qualified and motivated young researchers. Moreover, since cognitive neuroscience is a rather young discipline, much in this field has not yet been explored. There are many challenging questions that need to be answered. So there is plenty of room for new discoveries!

This competitive programme provides a sound balance of theory and practice. We enrol about 50 students per year. Our selective approach guarantees excellence, especially during the research training period.

See the website http://www.ru.nl/masters/cns/brain

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Over the last two decades there has been an explosion of interest in brain science across academia, industry and the media. Read more
Over the last two decades there has been an explosion of interest in brain science across academia, industry and the media. The integration of cognitive brain imaging with neuroscience will play a central part in discovering how the brain functions in health and disease in the 21st century, as illustrated by the Human Brain Project in Europe and The Brain Initiative in the USA. The taught Brain Sciences Degree will help you gain interdisciplinary knowledge “from molecules to mind” and enable you to develop research skills in cognitive brain imaging, fundamental neuroscience and brain disorders.

Why this programme

◾You will study the Brain Science Degree in an Institute that strives to understand the brain at multiple levels of function, from cells to cognition using approaches ranging from molecular, cellular and systems level investigations to brain imaging o
◾Lectures will be given by staff who are international research leaders and who publish cutting edge research at the forefront of brain sciences.
◾You will attend seminars on a wide range of topics given by eminent external speakers visiting the Institute from around the world as part of our Current Research Topics course.
◾You will carry out a research project working in labs equipped with technology and expertise at the forefront of brain science research, including: ◾3 Tesla fMRI system to image human brain function
◾Magnetoencephalography and electroencephalography to study neural activity
◾Transcranial magnetic stimulation for non-invasive brain stimulation
◾7 Tesla experimental MRI scanner for studying models of disease
◾Confocal microscopy for high resolution cellular imaging
◾Models of disease for pharmcolgical, gene and stem cell therapies

◾You will receive in depth training in research design and statistical analysis
◾The brain science programme allows student choice and flexibility. Through your choice of optional taught courses you can develop in-depth specialist knowledge to enhance further academic research as well as transferable skills for a career outside academia.
◾You will join a vibrant community of masters students from other programmes and for your research project you will be based in laboratories alongside PhD students, postdocs and senior researchers.
◾Through the range of teaching methods and assessments used you will gain skills in critical appraisal, independent working, presentations, writing scientific documents and time management.

Programme structure

The programme will consist of compulsory taught courses, selected optional courses and a research project spread over 11-12 months.

Core courses and Research Project

◾Fundamentals for neuroscience research
◾Cognitive brain imaging
◾Statistics and research design
◾Current research topics in brain sciences
◾Neuroscience: animal models of disease and function
◾Designing a research project
◾Brain sciences research project

Optional courses

◾Introduction to Matlab for biologists
◾Neuroscience: in vivo models
◾In vitro and analytical approaches in neuroscience
◾Bioimaging for life sciences
◾Current trends and challenges in biomedical research and health
◾Technology transfer and commercialisation of biomedical research
◾Neuroinflammation

Teaching and Learning Methods

Taught courses are delivered by lectures, tutorials, problem-based learning and computer-based sessions supplemented by a wide range of electronic resources for independent or group study. You will use the primary scientific literature as an information resource and through project work will develop skills in team-working, experimental design and data interpretation. Through assessment of coursework you will gain skills in oral and written communication.

Career prospects

The University of Glasgow MSc in Brain Sciences provides you with many career opportunities.

Research: MSc students can enter a research career, mainly by undertaking further postgraduate research studies towards a PhD, or by working in research laboratories in academic settings.

Industry: Other options include going on to work in a wide range of commercial sectors including the pharmaceutical or biotechnological industries and scientific publishing.

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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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Studying the cognitive and neural basis for diverse brain functions such as perception, action, language, attention and memory. Thanks to advanced brain-imaging techniques, scientists are now able to observe the human brain in action. Read more

Overview

Studying the cognitive and neural basis for diverse brain functions such as perception, action, language, attention and memory.

Thanks to advanced brain-imaging techniques, scientists are now able to observe the human brain in action. Cognitive neuroscientists therefore no longer have to rely solely on patients with brain damage to ascertain which parts of the brains are involved in which tasks and functions. They can now conduct targeted experiments on healthy persons. As a result, the discipline has gained tremendous momentum over the past twenty years.

This research Master’s programme is open to students with Bachelor’s degrees in Linguistics, Physics, Biology, Medicine, Mathematics, Behavioural Sciences, Artificial Intelligence or a related discipline. It offers an in-depth theoretical background by internationally renowned scientists in the first year. The second year is dedicated to elaborate practical training in setting up, conducting and reporting research in cognitive neuroscience. A large majority of our graduates gain a PhD position, while other graduates find jobs in the commercial sector or at research institutes.

Why study Cognitive Neuroscience at Radboud University?

- This Master’s programme is located within the world-renowned Donders Institute for Brain, Cognition and Behaviour, located on the campus of the Radboud University, with a research staff of over 500 scientists.

- Nijmegen is one of the foremost centres of cognitive neuroscience in the world. Hundreds of scientists from various faculties and top institutes have joined forces on the Radboud University campus. Besides the Donders Institute there is the Radboud university medical centre and the Max Planck Institute for Psycholinguistics. Their researchers work together very closely, exchange expertise and share state-of-the-art research equipment to unravel the workings of the human brain.

- This competitive programme provides a sound balance of theory and practice. Our selective approach guarantees excellence, especially during the research training period.

- The Radboud University campus holds a large array of state-of-the-art equipment, like labs with fMRI, MEG, EEG and eye-tracking equipment. Master’s students are free to use these, enabling you to do any type of research in this field you’d want to.

- The programme has its own, student-driven, scientific journal; based on the Stanford Exchange: Proceeding of the Master’s Programme Cognitive Neuroscience.

Specialisations

The research Master’s programme offers four specialisations that coincide with the research themes of the Donders Institute:
- Language and Communication
Studies the acquisition, understanding and production of language, and their biological underpinning.

- Perception, Action and Control
Studies basic sensorimotor aspects as well as the cognitive, contextual and social components of perception-action coupling.

- Plasticity and Memory
Studies the mechanistic underpinnings and behavioural consequences of long-term changes in neural structure and function.

- Brain Networks and Neuronal Communication
Studies the interaction between and within groups of neurons, and with the outside world

Quality label

This programme was recently rated number one in the Netherlands in the Keuzegids Masters 2015 (Guide to Master's programmes).

Our approach to this field

We have deliberately created a high admission threshold to ensure that all our students are highly motivated and have the ability to work at an advanced level. All applications are screened individually to make sure the new students meet our stringent entry criteria and help maintain the current standards of excellence.

- Multidisciplinary
Once admitted to the programme, you can expect to be trained as a multidisciplinary scientist. We offer a multi-disciplinary programme that closely involves scientists from various faculties and research institutes on campus, who come from all over the world. Their research has gained national and international recognition for its high quality. In the Master’s programme you’ll attend lectures by these top scientists. They will also supervise your practical training and the writing of a Master’s thesis in the second year.

The research you’ll become a part of addresses cross-disciplinary challenges. Besides studying the basic topics of your specialisation, you may also choose to help improve brain-computer interfaces, a hot topic with applications in medicine and information technology. Apart from being very exciting, it’s also logical that various disciplines are merging.

Our research in this field

A unique multi-disciplinary Master’s programme
Are you interested in the human brain? Would you like to conduct research into the workings of the brain and join an enthusiastic, international group of top researchers? Radboud University offers a multi-faculty Master’s programme in Cognitive Neuroscience. The programme takes two years and is of course of a scientific orientation. There is a strong emphasis on experimental research. After all, what counts is hands-on research experience. This Master’s programme is unique in Europe.

The Master’s programme in Cognitive Neuroscience is primarily focussed on training you as a researcher and if possible, a top researcher, because research institutes and businesses around the world desperately need highly qualified and motivated young researchers. Moreover, since cognitive neuroscience is a rather young discipline, much in this field has not yet been explored. There are many challenging questions that need to be answered. So there is plenty of room for new discoveries!

This competitive programme provides a sound balance of theory and practice. We enrol about 50 students per year. Our selective approach guarantees excellence, especially during the research training period.

Career prospects

This Master's programme will give you the qualifications you need to go on to get a PhD position. About 80-90% of our graduates take on a PhD project in Nijmegen or in other parts of the world. Others find jobs in the commercial sector or in research institutes.

Each year there are, on average, about 12 PhD positions available at the graduate schools Donders Graduate School for Cognitive Neuroscience (DGCN) and the International Max Planck Research School (IMPRS).

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

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This programme provides an opportunity to undertake intensive training in human cognitive neuropsychology by working closely with our Human Cognitive Neuroscience Research Unit, a group of internationally recognised cognitive psychologists, clinical and academic neuropsychologists including Dr Sharon Abrahams and Professors Sergio Della Sala and Robert Logie. Read more

Programme description

This programme provides an opportunity to undertake intensive training in human cognitive neuropsychology by working closely with our Human Cognitive Neuroscience Research Unit, a group of internationally recognised cognitive psychologists, clinical and academic neuropsychologists including Dr Sharon Abrahams and Professors Sergio Della Sala and Robert Logie.

Teaching follows an integrated approach with courses on neuropsychology, cognitive psychology, clinical neuropsychology and brain imaging. You will also receive training in generic research methods within psychology.

Programme structure

This programme comprises two semesters of taught compulsory and optional courses, followed by a dissertation. Optional courses within the area of human cognitive neuroscience can be selected to tailor the programme to your interests. You may also choose your optional courses from a range in associated disciplines, such as individual differences, informatics and psycholinguistics, with permission from the programme director.

Compulsory courses

Psychological Research Skills
Univariate and Multivariate Statistics and Methodology using R
Specialist techniques in psychological research
Current topics in psychological research

Option courses

Brain Imaging in Cognitive Neuroscience
Clinical Neuropsychology
Consciousness and Perceptual Awareness
Disorders of Language Functions
Eye Movements and Visual Cognition
Frontal Lobe Functions
Human Cognitive Neuroscience
Multisensory Integration
Working Memory
Imaging Mind and Brain
Dissertation

The dissertation involves conducting a research project under staff supervision. You will produce a written report, which describes your research and interprets your findings.

If you are looking to complete a research dissertation in clinical based environments (interacting with NHS patients) or schools / nurseries, you may be asked to apply for a Research Passport by your supervisor, or you may select a clinical research project that is already in progress within the University.

Research Passports

Learning outcomes

On successful completion of this programme, you will have gained:

specialist knowledge within the fields of human cognitive neuropsychology and integrated areas of study, in addition to training in psychological research methods
an understanding of clinical neuropsychology (assessment and rehabilitation of patients with neurological disorders), brain imaging, cognitive psychology, and cognitive neuropsychology and critical awareness of cognitive and neuropsychological research and its application to clinical practice
a foundation for advanced research within human cognitive neuropsychology
a comprehensive understanding of the basic principles of research design and application
competency in applying a range of methods and research tools
skills in research management, including managing data and conducting and disseminating research in ways consistent with both professional practice and the normal principles of research ethics

Career opportunities

The programme is suitable for graduate psychologists or those who have studied or worked in related disciplines who wish to pursue a research-oriented career within cognitive neuropsychology (providing the foundations for later application to a doctoral training programme) or a clinically oriented career in neuropsychology.

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The Cognitive Neuroscience MSc at UCL is a research-led, state-of-the-art degree programme on mental processes in the human brain. Read more
The Cognitive Neuroscience MSc at UCL is a research-led, state-of-the-art degree programme on mental processes in the human brain. The programme brings together some of the world's leading researchers in cognitive neuroscience and cognitive neuropsychology.

Degree information

Students learn about the relationship between the mind and the brain in patients and healthy individuals, alongside the ideas, methodology, and current state of knowledge in cognitive neuroscience. They receive case demonstrations of brain-damaged patients, insights into transcranial magnetic and direct current stimulation, and gain experience with functional neuroimaging techniques.

Students undertake modules to the value of 180 credits.

The programme consists of eight core modules (120 credits) and a research dissertation (60 credits). There are no optional modules for this programme.

Core modules
-Communication Skills in Cognitive Neuroscience
-Current Issues in Cognitive Neuroscience I: Fundamental Processes
-Current Issues in Cognitive Neuroscience II: Elaborative and Adaptive Processes
-Current Issues in Cognitive Neuroscience III: Translational Research
-Methods in Cognitive Neuroscience I: Lesion Approaches
-Methods in Cognitive Neuroscience II: Neuroimaging
-Research Methods (Statistics)
-Structure and Function of the Brain

Dissertation/report
All students undertake an empirical research project in the area of cognitive neuroscience, which culminates in a dissertation of 10,000–12,000 words.

Teaching and learning
The programme is delivered through a combination of lectures, tutorials, problem classes, laboratory classes and student presentations. Depending on the chosen taught modules, it includes case demonstrations of neuropsychological patients, hands-on experience with the analysis of neuroimaging data, critical analyses of published scientific papers, and discussion seminars. Assessment is through examinations, essays, practical exercises, reports and the research dissertation.

Careers

The MRes is a very selective programme that develops key research skills in the field of cognitive neuroscience and serves as a basis for PhD study in an academic setting or a research career in industry or business. The MRes also promotes key skills that prepare students for more general careers in clinical psychology, marketing, teaching, and consultancy.

Top career destinations for this degree:
-Research Analyst, Chinese University of Hong Kong
-Research Assistant, UCL
-Research Worker, King's College London Institute of Psychiatry
-Assistant Psychologist, NHS Great Ormond Street Hospital
-Honorary Assistant Psychologist, The Tavistock and Portman

Employability
Students will have the opportunity to study and conduct cutting-edge research alongside some of the leading researchers in the field of cognitive neuroscience. Students will be immersed in this research environment and will learn directly from experts in the field rather than just text-books.

Why study this degree at UCL?

UCL is among the principal research centres in the world in this area and offers an ideal environment to study cognitive neuroscience.

Our work attracts staff and students from around the world. Together they create an outstanding and vibrant environment, taking advantage of cutting-edge resources such as a behavioural neuroscience laboratory, a centre for brain imaging, and extensive laboratories for research in speech and language, perception, and cognition.

Opportunities for graduate students to work with world-renowned researchers exist in all areas of investigation. The division offers a supportive environment including numerous specialist seminars, workshops, and guest lectures.

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Learn how different brain functions contribute to cognition, mediate social interaction, and determine mental health, well-being and psychiatric illness. Read more
Learn how different brain functions contribute to cognition, mediate social interaction, and determine mental health, well-being and psychiatric illness.

Who is it for?

This Masters is ideal for those who have an undergraduate degree in Psychology or a related discipline and would like to build more knowledge and skills highly valued both in academic research and the clinical professions. The MSc is an ideal platform from which to progress to PhD studies, particularly in Cognitive or Social Neuroscience. Students will also be well-equipped should they wish to undertake further professional training in Clinical Psychology, or a related discipline.

Objectives

This Masters degree bridges three research and clinical disciplines:
-Cognitive neuroscience (the study of human brain functions such as memory, perception and language).
-Clinical neuroscience (the understanding of neurological, psychological or psychiatric illness via their neural and cognitive antecedents).
-Social neuroscience (the investigation of brain processes that help us communicate, feel, learn and interact with others).

The major aim of this programme is to provide you with a thorough grounding in the neuroscience that underpins human cognitive brain function, clinical, social and affective interaction, and neuropathology.

Teaching will comprise of seminars, lectures, computing and statistics classes, and supervision of an individual research project. Your learning experience during the programme will be enhanced by an invited speaker’s programme of external experts who work in clinical, social or cognitive neuroscience.

Academic facilities

You will have access to all the facilities and laboratories in the Psychology Department. Our members have experience with a wide range of neuroscientific techniques, including neuropsychological testing, psychophysics and functional Magnetic Resonance Imaging (fMRI).

We have particular strengths in the use of Electroencephalography (EEG), Transcranial magnetic stimulation (TMS) and Transcranial Electric Stimulation (a weak current applied to the scalp), in addition to measures of human behaviour (e.g. response times, response errors, and eye movements) and physiological measures (e.g. galvanic skin response and heart rate).

We test neurologically normal individuals, special populations (e.g. people with synesthesia) and people with expertise or acquired skills (e.g. dancers, musicians, athletes), as well as people with brain damage (e.g. neglect or split-brain patients), psychiatric diagnoses (e.g. schizophrenia), sensory deficits (e.g. visual and hearing impairments) and developmental disorders (e.g. dyslexia or autism).

Placements

We help facilitate Clinical placements and are able and offer Research placements within our department.

Clinical placements: Center for Psychological Wellbeing and Neuroscience (CPWN) in collaboration with City and Hackney Mind (CHM).

Teaching and learning

Teaching will be comprised of lectures, seminars, group work and discussions, workshops and tutorials, reports, computing and statistics classes and the individual research dissertation.

You will undertake independent study, supported by the teaching and learning team, and will receive detailed feedback on your coursework. You will be provided with assessment and grade-related criteria which will outline your intended learning outcomes, along with the skills, knowledge and attitudes you are expected to demonstrate in order for you to complete an assessment successfully. You will also be assigned a personal tutor as your primary contact, who will advise you on academic matters and monitor your progress through the programme.

You will find a supportive vibrant research environment in the Department. The course is taught by academics, who are internationally recognised experts in their field with different backgrounds in clinical, social and cognitive neuroscience.

Assessment

Your learning will be assessed through essays, examinations, oral presentations, research methods projects and interpretation of statistical analyses, formal research proposals and a dissertation.

Modules

The programme consists of eight taught modules worth 15 credits each with around 30-34 hours of face-to-face contact, supported by online resources and an empirical research project (worth 60 credits).

You will learn about the latest advances in clinical, social and cognitive neuroscience and develop an appreciation of the reciprocal nature of research and practice in these domains. For example how insights from functional neuroimaging inform our understanding of neurological disorders and how clinical observations inform neurocognitive modelling.

Course structure
-Principles of Neuroscience: Brain anatomy, techniques and paradigms
-Developmental Cognitive Neuroscience
-Mental Health, Well-being and Neuroscience
-Fundamental Processes in Cognitive Neuroscience & Neuropsychology I
-Fundamental Processes in Cognitive Neuroscience & Neuropsychology II
-Social Cognition and the Social Brain
-Statistical models and Research Methods and Programming
-Research Dissertation
-Invited speakers programme

Career prospects

This course will provide you with knowledge and skills highly valued both in academic research and the clinical professions. The MSc is an ideal platform from which to progress to PhD studies, particularly in Cognitive or Social Neuroscience. You will also be well-equipped should you wish to undertake further professional training in Clinical Psychology, or a related discipline.

The knowledge and skills you will acquire in this programme are highly valuable, whether you choose to pursue further research or an applied occupation. They will enhance your employability prospects in a wide range of sectors including the pharmaceutical industry, neuromarketing, the computing industry, science and the media, science and the arts, business or education.

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There is increasing international demand for high-quality research training on mental processes in the healthy and diseased human brain. Read more
There is increasing international demand for high-quality research training on mental processes in the healthy and diseased human brain. This MRes brings together some of the world's leading researchers in cognitive neuroscience and cognitive neuropsychology, offering students an ideal environment to prepare for independent research careers in this fast-developing field.

Degree information

Students learn about the relationship between the mind and the brain in patients and healthy individuals, alongside the ideas, methodology, and current state of knowledge in cognitive neuroscience. In addition to specialised, research-oriented training, the programme develops key transferable skills. These include project management, logical thinking, oral and written communication, and independent learning. The MRes has a greater emphasis on the research project than the Cognitive Neuroscience MSc.

Students undertake modules to the value of 180 credits.

The programme consists of two key skills modules (30 credits), two optional modules (one from Group One and one from Group Two to a total value of 30 credits) and a substantial research project (120 credits).

Core modules
-Key Skills Module: Generic Research Skills – Statistics
-Key Skills Module: Communication Skills in Cognitive Neuroscience

Optional modules - students choose one optional module from group one* and one module from group two**
-Structure and Function of the Brain*
-Methods in Cognitive Neuroscience I: Lesion Approaches*
-Methods in Cognitive Neuroscience II: Neuroimaging – Designing and Analysing fMRI Experiments*
-Current Issues in Cognitive Neuroscience I: Fundamental Processes**
-Current Issues in Cognitive Neuroscience II: Elaborative and Adaptive Processes**
-Current Issues in Cognitive Neuroscience III: Translational Research**

Dissertation/report
All students undertake an empirical research project in the area of cognitive neuroscience, which culminates in a dissertation of 15,000–17,000 words.

Teaching and learning
The programme is delivered through a combination of lectures, tutorials, problem classes, laboratory classes and student presentations. Depending on the chosen optional modules, it includes case demonstrations of neuropsychological patients, hands-on experience with the analysis of neuroimaging data, critical analyses of published scientific papers, and discussion seminars. Assessment is through examinations, essays, practical exercises, reports and the research dissertation.

Careers

The MRes is a very selective programme that develops key research skills in the field of cognitive neuroscience and serves as a basis for PhD study in an academic setting or a research career in industry or business. The MRes also promotes key skills that prepare students for more general careers in clinical psychology, marketing, teaching, and consultancy.

Top career destinations for this degree:
-Proofreader, Akademie věd České republiky (The Czech Academy of Sciences)
-DPhil in Psychiatry, University of Oxford
-PhD in Psychology, Cardiff University (Prifysgol Caerdydd)
-PhD in Psychology, University of Cambridge

Employability
Students have the opportunity to study and conduct cutting-edge research alongside some of the leading researchers in the field of cognitive neuroscience. Students will be immersed in this research environment and will learn directly from experts in the field rather than just text-books.

Why study this degree at UCL?

The UCL Institute of Cognitive Neuroscience (ICN) is among the principal research centres in the world in this area and offers an ideal environment to study the subject.

Our work attracts staff and students from around the world. Together they create an outstanding and vibrant environment, taking advantage of cutting-edge resources such as a behavioural neuroscience laboratory, a centre for brain imaging, and extensive laboratories for research in speech and language, perception, and cognition.

Opportunities for graduate students to work with world-renowned researchers exist in all areas of investigation. The division offers a supportive environment including numerous specialist seminars, workshops, and guest lectures.

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Learn how to create artificial information systems that mimic biological systems as well as how to use theoretical insights from AI to better understand cognitive processing in humans. Read more
Learn how to create artificial information systems that mimic biological systems as well as how to use theoretical insights from AI to better understand cognitive processing in humans.
The human brain is a hugely complex machine that is able to perform tasks that are vastly beyond current capabilities of artificial systems. Understanding the brain has always been a source of inspiration for developing artificially intelligent agents and has led to some of the defining moments in the history of AI. At the same time, theoretical insights from artificial intelligence provide new ways to understand and probe neural information processing in biological systems.
On the one hand, the Master’s in Computation in Neural and Artificial Systems addresses how models based on neural information processing can be used to develop artificial systems, probing of human information processing in closed-loop online settings, as well as the development of new machine learning techniques to better understand human brain function.
On the other hand it addresses various ways of modelling and understanding cognitive processing in humans. These range from abstract mathematical models of learning that are derived from Bayesian statistics, complexity theory and optimal control theory to neural information processing systems such as neural networks that simulate particular cognitive functions in a biologically inspired manner. We also look at new groundbreaking areas in the field of AI, like brain computer interfacing and deep learning.

See the website http://www.ru.nl/masters/ai/computation

Why study Computation in Neural and Artificial Systems at Radboud University?
- Our cognitive focus leads to a highly interdisciplinary AI programme where students gain skills and knowledge from a number of different areas such as mathematics, computer science, psychology and neuroscience combined with a core foundation of artificial intelligence.

- Together with the world-renowned Donders Institute, the Behavioural Science Institute and various other leading research centres in Nijmegen, we train our students to become excellent researchers in AI.

- Master’s students are free to use the state-of-the-art facilities available on campus, like equipment for brain imaging as EEG, fMRI and MEG.

- Exceptional students who choose this specialisation have the opportunity to study for a double degree in Artificial Intelligence together with the specialisation in Brain Network and Neuronal Communication. This will take three instead of two years.

- This specialisation offers plenty of room to create a programme that meets your own academic and professional interests.

- To help you decide on a research topic there is a semi-annual Thesis Fair where academics and companies present possible project ideas. Often there are more project proposals than students to accept them, giving you ample choice. We are also open to any of you own ideas for research.

- Our AI students are a close-knit group; they have their own room in which they often get together to interact, debate and develop their ideas. Every student also receives personal guidance and supervision from a member of our expert staff.

Our research in this field

The programme is closely related to the research carried out in the internationally renowned Donders Institute for Brain, Cognition and Behaviour. This institute has several unique facilities for brain imaging using EEG, fMRI and MEG. You will be able to use these facilities for developing new experimental research techniques, as well as for developing new machine learning algorithms to analyse the brain data and integrate them with brain-computer interfacing systems.

Some examples of possible thesis subjects:
- Deep learning
Recent breakthroughs in AI have led to the development of artificial neural networks that achieve human level performance in object recognition. This has led companies like Google and Facebook to invest a lot of research in this technology. Within the AI department you can do research on this topic. This can range from developing deep neural networks to map and decode thoughts from human brain activity to the development of speech recognition systems or neural networks that can play arcade games.

- Brain Computer Interfacing
Brain computer interfaces are systems which decode a users mental state online in real-time for the purpose of communication or control. An effective BCI requires both neuro-scientific insight (which mental states should we decode?) and technical expertise (which measurement systems and decoding algorithms should be used?). A project could be to develop new mental tasks that induce stronger/easier to decode signals, such as using broadband stimuli. Another project could be to develop new decoding methods better able to tease a weak signal from the background noise, such as adaptive-beam forming. Results for both would assessed by performing empirical studies with target users in one of the EEG/MEG/fMRI labs available in the institute.

Career prospects

Our Artificial Intelligence graduates have excellent job prospects and are often offered a job before they have actually graduated. Many of our graduates go on to do a PhD either at a major research institute or university with an AI department. Other graduates work for companies interested in cognitive design and research. Examples of companies looking for AI experts with this specialisation: Google, Facebook, IBM, Philips and the Brain Foundation. Some students have even gone on to start their own companies.

Job positions

Examples of jobs that a graduate of the specialisation in Computation in Neural and Artificial Systems could get:
- PhD researcher on bio-inspired computing
- PhD researcher on neural decoding
- PhD researcher on neural information processing
- Machine learning expert in a software company
- Company founder for brain-based computer games
- Hospital-based designer of assistive technology for patients
- Policy advisor on new developments in neurotechnology
- Software developer for analysis and online visual displays of brain activity

Internship

Half of your second year consists of an internship, giving you plenty of hands-on experience. We encourage students to do this internship abroad, although this is not mandatory. We do have connections with companies abroad, for example in China, Sweden and the United States.

See the website http://www.ru.nl/masters/ai/computation

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The MSc in Developmental Cognitive Neuroscience is particularly suited to students interested in the relationship between the development of the mind and the brain. Read more
The MSc in Developmental Cognitive Neuroscience is particularly suited to students interested in the relationship between the development of the mind and the brain. It combines theoretical and empirical grounding in the cognitive and biological mechanisms of developmental change with training of the analytical and practical skills required for undertaking research into cognitive development and its neural bases. The course provides perspectives from developmental cognitive neuroscience and cognitive psychology as well as hands-on training in imaging methods. Topical issues in developmental cognitive neuroscience will be covered, including the neural bases of perceiving and acting in the physical and social world and Neuroeducation.

This programme is particularly suitable for students from Psychology, Biology, Neuroscience or related disciplines who:
-Are keen to combine and integrate their interest in cognitive development and in brain development
-Wish to receive hands-on training in neuroimaging methods relevant for developmental research
-Want to conduct research into cognitive development and/or cognitive neuroscience
-Would like to get experience of working with children

Course content

The programme combines specifically focused modules relevant for Developmental Cognitive Neuroscience with courses teaching general principles of psychological research design, statistics and key transferable skills.
-Advanced Developmental Cognitive Neuroscience
-Basic Principles in Neuroimaging
-Topics in Cognitive Neuroscience
-Research Design and Analysis in Neuroimaging
-Current Questions in Developmental Research

Empirical Projects
As part of this programme, you will be given the opportunity to undertake a novel piece of empirical work, on a topic at the cutting-edge of research in developmental psychology and/or cognitive neuroscience. You will be supervised by faculty with relevant expertise in fields including language and literacy development, numerical cognition, perception, learning and memory.

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

Careers

This MSc course prepares students to go on to PhDs in developmental neuroscience, neuroimaging and developmental psychology. Most others opt for research and clinical assistantships to gain further experience before undertaking a PhD or training in Clinical or Educational Psychology. In both cases, the distinctive skills they gain through the MSc are highly sought after.

Other career options include business, industry, academia and administration.

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- The connection between the brain and cognition. Read more

Master's specialisation in Plasticity and Memory

- The connection between the brain and cognition
How does your brain enable you to remember a certain event? What happens in your brain when you listen to music? How does your brain adapt itself to certain changes, such as a haemorrhage or other form of damage? How do you distinguish between important and relatively unimportant information in the world around you? How do you focus your attention on a playing child? How does our consciousness work? These are just a few of the questions that neurocognitive scientists would like to see answered.

- Neurocognition in Nijmegen: the cutting edge
The Radboud University has an outstanding reputation in the field of neurocognition. In 2002, the ultramodern Donders Centre for Cognitive Neuroimaging (DCCN) was officially opened on campus. This centre draws many young researchers from all over the world and to a large extent determines the nature of the Plasticity and Memory specialisation. In 2008 the DCCN formed together with the Donders Centre for Cognition (formerly NICI) and the Donders Centre for Neuroscience the Donders Institute for Brain, Cognition and Behaviour.

General requirements:

- Bachelor's degree
The graduation date of the last attained BA/BSc degree relevant for this programme must be within five years of applying to the programme.

- English skills
The Cognitive Neuroscience Master's programme (MSc CNS) is an English programme: all courses and examinations are taught in English. For the general language requirements of the Radboud University click here. Foreign students please note that the MSc CNS programme requires the following minimum scores: TOEFL: 600 (paper-based test), 250 (computer-based test), 100 (internet-based test); IELTS 7.0 or higher.

- Mathematics & Physics
Students who did not follow physics in their highschool curriculum and/or who have not been trained in mathematics at level B (including concepts such as matrix algebra, differentation, integration, complex numbers), are advised before the start of the programme to work on the assignment in Chapters 1, 2, 7, 8 and 11 (three chapters on physics and two on mathematics) of R.K. Hobbie: "Intermediate Physics for Medicine and Biology", Springer Verlag, New York, 1997; third edition, ISBN 1-56396-458-9).

Career prospects

If you have successfully completed the Master’s programme in Plasticity and Memory, you will be able to conduct neuroimaging and neurobiological research. You will have ample knowledge of the anatomical and neurophysiological aspects of the human brain and theoretical cognition/neurocognition models. This will enable you to conduct independent research into the neurofunctional architecture of cognitive key functions, such as perception, attention, memory, language, planning and targeted actions. With this educational background you should be able to find a position with one of the research institutes in the Netherlands or abroad, government institutions or specialised companies (e.g. in the pharmaceutical industry).

Our approach to this field

Research in the field of cognitive neuroscience is one of the spearheads in the research policy of Radboud University. Here, in Nijmegen, hundreds of scientists from various faculties and top institutes have joined forces to unravel the workings of the human brain, step by step and bit by bit. They thereby work together very closely, exchange expertise and share state-of-the-art research equipment.

Nijmegen is one of the foremost centres of cognitive neuroscience in the world. We have deliberately created a high admission threshold to ensure that all our students are highly motivated and have the ability to work at an advanced level. Top scientists screen all applications to make sure the new students meet our stringent entry criteria and help maintain the current standards of excellence. Once admitted to the programme you can expect to be trained as a multidisciplinary scientist in the following two years. The research of which you will become a part addresses crossdisciplinary challenges. The teachers and supervisors you will meet are all experts in their own disciplines. We hope that with this programme you will outperform your teachers by being able to combine knowledge from different domains. Alongside language processing and perceptuomotor systems, you may also help improve brain/computer interfaces, a hot topic with applications in medicine and information technology. Apart from being very exciting, it is also logical that various disciplines are merging. After all, everything that happens in the brain is interconnected. In Nijmegen we develop sophisticated cognitive models which we test by means of state-of-the-art imaging techniques, thanks to which you can participate in cutting-edge research that will hopefully lead to new insights into the way the human brain and mind work. Finally, we offer our best CNS students excellent career opportunities in challenging PhD projects.

- Unique multi-disciplinary Master’s programme
Are you also interested in the human brain? Would you like to conduct research into the workings of the brain and join an enthusiastic, international group of top researchers? The Radboud University Nijmegen offers a multi-faculty Master’s programme in Cognitive Neuroscience. The programme takes two years and is of course of a scientific orientation. There is a strong emphasis on experimental research. After all, what counts is hands-on research experience. This Master’s programme is unique in Europe.

The Master’s programme in Cognitive Neuroscience is primarily focussed on training you as a researcher and if possible, a top researcher, because research institutes and businesses around the world desperately need highly qualified and motivated young researchers. Moreover, since cognitive neuroscience is a rather young discipline, much in this field has not yet been explored. There are many challenging questions that need to be answered. So there is plenty of room for new discoveries!

This competitive programme provides a sound balance of theory and practice. We enrol about 50 students per year. Our selective approach guarantees excellence, especially during the research training period.

See the website http://www.ru.nl/masters/physicsandastronomy/physics

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This MRes is an innovative research-led programme which brings together expertise from across the Faculty of Brain Sciences and offers you the opportunity to work and train with leading researchers at one of the most highly regarded centres of excellence in brain science in the world. Read more
This MRes is an innovative research-led programme which brings together expertise from across the Faculty of Brain Sciences and offers you the opportunity to work and train with leading researchers at one of the most highly regarded centres of excellence in brain science in the world.

Degree information

Students will gain an understanding of the human brain and its disorders from the molecular to systems level that will reflect the interdisciplinary breadth of cutting-edge research in brain sciences conducted at UCL. Students will gain theoretical and practical knowledge of core personal and professional skills that underpin excellence in research.

Students undertake modules to the value of 180 credits.

The programme consists of three core modules (45 credits), one optional module (15 credits) and an extensive empirical research project (120 credits).

Core modules
-Research Methods I
-Research Methods II
-Contemporary Topics in Brain Sciences Research

Optional modules - students choose one of the following 15-credit optional modules:
-Cellular and Molecular Mechanisms of Disease
-Introduction to the Brain and Imaging the Brain
-Structure and Measurement of the Human Brain
-Introduction to Cognitive Science
-Principles of Cognition
-Molecular Pharmacology
-Developmental Neurobiology
-Receptors and Synaptic Signalling

Dissertation/research project
All students undertake an independent research project which culminates in a dissertation in the form of a journal article and an oral examination.

Teaching and learning
The programme is delivered through a combination of lectures, seminars, independent study, journal clubs, independent and collaborative problem-based tasks, practical demonstrations and classes, computational work, and a supervised empirical research project. Assessment is through online tasks, unseen written examinations, essays, oral presentations, research-based tasks and a primary research article.

Careers

This programme will prepare students for research careers in academia, industry or business, nationally or internationally. The first cohort of students on the Brain Sciences MRes will graduate after 2014, therefore no information on graduate destinations is currently available.

Employability
The programme provides a broad understanding of brain sciences. The aim is to give students the best chance of obtaining a place on a relevant PhD programme. In addition the programme includes taught elements that will enhance employability. Transferable skills include statistical training, communication skills, training in research ethics, research governance and in enterprise.

Why study this degree at UCL?

This comprehensive programme will provide core knowledge and skills, and ensure that prospective PhD candidates are thoroughly acquainted with the background as well as with the expanding scope of the field.

The unique curriculum will develop knowledge and insight into the broad and interdisciplinary scope of brain science through practical experience and exposure to contemporary topics in brain sciences research delivered through a series of innovative masterclasses led by internationally renowned researchers at UCL.

With an empirical research project encompassing two-thirds of the programme, quantitative and qualitative tools for research will be developed including core skills in the implementation, management and dissemination of research.

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