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Masters Degrees (Cognitive Neuro)

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Work alongside world leading researchers. Get hands-on experience with our specialist facilities and gain the skills required to pursue a PhD or research career in cognitive neuroscience or related disciplines. Read more
Work alongside world leading researchers. Get hands-on experience with our specialist facilities and gain the skills required to pursue a PhD or research career in cognitive neuroscience or related disciplines.

See the website http://www.anglia.ac.uk/study/postgraduate/cognitive-and-clinical-neuroscience

Our psychology research has been classified as world-leading and internationally excellent in the Government’s 2014 Research Excellence Framework (REF).

On our course you’ll learn how to interpret and analyse structural and functional neuroimaging (MRI and fMRI), electroencephalography (EEG) and other datasets, while gaining experience in neuropsychological assessment for clinical and research purposes.

Lectures, seminars and practical workshops will introduce you to current theoretical issues in clinical and cognitive neuroscience. We will explore neuro-anatomy and connectivity and how multiple converging approaches can strengthen the research process.

Your dissertation allows you to independently research an area you are passionate about. Supported by lecturers who are prominent researchers and longstanding members of Cambridge’s world-renowned research community.

On successful completion of this course you'll be able to:
• understand the principles of research design and strategy within the fields of cognitive and clinical neuroscience
• understand how to formulate researchable problems and develop an appreciation of alternative approaches to research
• understand a range of research methods and tools, including structural and functional neuroimaging (MRI and fMRI), electroencephalography (EEG) and neuropsychological assessment
• understand current theoretical issues in clinical and cognitive neuroscience and the ways in which different methods are employed to address them
• manage research, including the process of research and its dissemination in a way that is consistent with both professional practice and the normal principles of research ethics

Full-time - January start, 15 months. September start, 12 months.
Part-time - January start, 33 months. September start, 28 months.

See the website http://www.anglia.ac.uk/study/postgraduate/cognitive-and-clinical-neuroscience

Careers

You could pursue further postgraduate study or research, work for universities, hospitals or research units active in cognitive psychology and/or the brain sciences. You’re also in the perfect position to continue your academic career and move up to our Psychology PhD.

Core Modules

Imaging and Diagnostics in Cognitive Neuroscience
Current Theoretical Issues in Cognitive Neuroscience
Issues in Scientific Research
Quantitative Research Methods
Dissertation

Assessment

We’ll assess your theoretical and applied understanding using essays, portfolios, exams, computer-based processing of brain imaging data, statistical data analysis and your dissertation.

Specialist facilities

You can use several dedicated, sound attenuated research laboratories, equipped with networked computers, as well as: an observation laboratory, including a two-way mirror; an electroencephalography (EEG) laboratory; an eye-tracking laboratory; a psycholinguistics laboratory; a psychometrics laboratory and a psychoneuroimmunology laboratory.

Your faculty

The Faculty of Science & Technology is one of the largest of five faculties at Anglia Ruskin University. Whether you choose to study with us full- or part-time, on campus or at a distance, there’s an option whatever your level – from a foundation degree, to a BSc, MSc, PhD or professional doctorate.

Whichever course you pick, you’ll gain the theory and practical skills needed to progress with confidence. Join us and you could find yourself learning in the very latest laboratories or on field trips or work placements with well-known and respected companies. You may even have the opportunity to study abroad.

Everything we do in the faculty has a singular purpose: to provide a world-class environment to create, share and advance knowledge in science and technology fields. This is key to all of our futures.

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A flexible and interdisciplinary programme, which challenges you to use your specific knowledge to unravel the workings of the human brain. Read more
A flexible and interdisciplinary programme, which challenges you to use your specific knowledge to unravel the workings of the human brain.

Our brain contains many ingenious networks of millions of interconnected neurons. Together, they have a storage capacity and flexibility that far exceed modern supercomputers, or any artificial intelligent system. The Master’s specialisation in Neuroscience aims at unravelling the neuro-biological and neuro-computational mechanisms of this fascinating, complex system. We study the full spectrum from molecule to man, and from experiment to advanced theory and models.

The brain, as part of the human body, may at a first glance seem the exclusive domain of Biology. However, as the communication between neurons involves neurotransmitters and electrical ionic currents, understanding these mechanisms calls for knowledge of Chemistry and Physics. Moreover, studying mechanisms of coding and encoding of neural signals, requires advanced concepts from Mathematics and Informatics. By working together, our students learn to view complex issues from all these different sides.

Choose your own angle

Neuroscience at the Science Faculty ranges from biology to physics and mathematics, and will thus appeal to students from different Master’s programmes. The programme can be readily adapted to your individual academic background – whether that is in the field of Biology, Mathematics, Physics or Computing Science. Apart from fundamental knowledge of the brain, the Neuroscience specialisation also provides you with a general background in the principles of complex systems, and of intelligent behaviour of living and artificial systems.

Why study Neuroscience at Radboud University?

- Radboud University is the only university in the Netherlands that covers the complete research field of Neuroscience, from cognition to behaviour, and from sub-cellular processes, to single cell analysis and big data.
- The specialisation is closely connected to the world-renowned Donders Institute for Brain, Cognition and Behaviour (DI). You will get the chance to work with DI researchers during your internship, and build up a high profile network for your future career.
- The courses have a strong focus on research: they will cover the latest developments in brain research and technology, and train you the essential academic skills.
- You will work with students and researchers from different backgrounds in the natural sciences and become acquainted with a wide variety of research methods and scientific approaches.

Change perspective

The brain, as part of the human body, may at a first glance seem the exclusive domain of Biology. However, as the communication between neurons involves neurotransmitters and electrical ionic currents, understanding these mechanisms calls for knowledge of Chemistry and Physics. Moreover, studying mechanisms of coding and encoding of neural signals, requires advanced concepts from Mathematics and Informatics. By working together, our students learn to view complex issues from all these different sides.

Career prospects

Master’s specialisation in Neuroscience
The Master’s specialisation in Neuroscience gives you the chance to work at the Donders Institute for Brain, Cognition and Behaviour, and build up your own network of international renowned scientists who are working on the human brain: an excellent preparation for a future career in science. Neuroscience will also provide you with general skills that are required for any other job you aspire:
- the ability to structure complex problems
- excellent social skills for working in a multidisciplinary team
- extensive experience in presentations
- academic writing skills

Our approach to this field

At Radboud University, all branches of Neuroscience are accounted for, and strongly intertwined through the Donders Institute for Brain, Cognition and Behaviour (DI). This unique combination of expertises is a real advantage for Neuroscience students: it gives you absolute freedom to develop your knowledge in your field of interest and a high profile network for your future career.

- Science faculty
In this specialisation at the Science faculty, you will use your background in the natural sciences to unravel neurobiological processes. When completed, you will receive a Master’s degree in Medical Biology, Molecular Life Sciences, Physics & Astronomy or Science. For highly talented students it is possible to obtain a second Master’s degree at the selective Research Master’s in Cognitive Neuroscience of the DI, which has a more cognitive approach. This extra Master’s degree takes one additional year (60 EC) to complete.

- Themes
The Master’s specialisation in Neuroscience focuses on three of the four research themes of the Donders Institute for Brain, Cognition and Behaviour:

- Perception, Action and Control
Focus: Studying sensorimotor mechanisms, their cognitive and social components, their clinical implications, and their relevance for robotics.

Research: Researchers use theoretical analysis, psychophysical and behavioural studies, neurophysiological techniques, neuroimaging, clinical and pharmacological interventions, developmental and genetic approaches.

- Plasticity and Memory
Focus: The development and decay of the healthy and the maladaptive brain.

Research: Researchers in this field study the mechanistic underpinnings and behavioural consequences of long-term changes in neural structure and function. Genetic, molecular and cellular methods, animal models, as well as human neuroimaging and cognitive neuropsychology are used.

- Brain Networks and Neuronal Communication
Focus: Complex neural networks, ranging from the very smallest – communication between individual neurons – to the largest: communication between different brain areas and the outside world.

Research: The research groups combine the development of new techniques for measurements of connectivity and activation, with the experimental application of these techniques in studies of cognition in humans, non-human primates and rodents. Computational modelling is an important component.

- Custom approach
The specialisation programme depends on the Master’s programme that you will follow. In this way, it will perfectly fit to your current knowledge and practical skills. However, as all neuroscience research topics are interdisciplinary, you will become acquainted with other disciplines as well. This will help you to develop a common ground that is necessary to communicate in a multi-faceted (research) team.

See the website http://www.ru.nl/masters/medicalbiology/neuro

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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 Music, Mind and Brain is a truly interdisciplinary programme that attracts students from diverse backgrounds who want to complement their knowledge on music research, neuroscience or cognitive psychology. Read more
The MSc in Music, Mind and Brain is a truly interdisciplinary programme that attracts students from diverse backgrounds who want to complement their knowledge on music research, neuroscience or cognitive psychology. This unique programme combines music psychology with neuroscience, focusing on both the biological and cognitive aspects of musical behaviour- http://www.gold.ac.uk/pg/msc-music-mind-brain/

The MSc in Music, Mind and Brain (MMB) is highly interdisciplinary and draws on expertise from leading figures in the field, in areas ranging from music cognition, cognitive neuroscience, computational modelling, music education and music therapy.

As a student on the MSc, you will learn about topics in music psychology (from perception to cognition) and the cognitive neuroscience of music, and will acquire all the necessary skills to pursue your own high-quality research.

The programme benefits from good links with institutions such as the Institute of Education, the Royal College of Music, and the National Hospital for Neurology and Neurosurgery.

Teaching staff

Programme director Dr Daniel Müllensiefen and deputy directors Prof Lauren Stewart and Dr Maria Herrojo-Ruiz are joined by an expert teaching faculty, all of whom have international profiles within the fields of music psychology and/or the neuroscience of music.

Our Eminent Invited Speaker Series brings world-leading researchers to Goldsmiths to present their latest research to our students.

What kind of project can I do?

We offer a range of research projects, drawing on a variety of approaches: behavioural, computational, neuroscientific. Students are also invited to propose a project of their own choice, providing appropriate supervision can be offered.

If a student has a contact with an external supervisor, it may be possible to arrange for project supervision outside Goldsmiths with the involvement of a faculty member as co-supervisor. Examples of previous projects include:

Exploring Absolute Pitch in Children and Young People with Visual Impairment
An fMRI Study Investigating how Music Impacts on the Perception of Emotion
The Influence of Native Language on Rhythmic Grouping
Neural Correlates of Melodic Expectancy

Further information

This journal article from Psychomusicology outlines the focus and contents of the programme.

Keep up to date with our research via our facebook page.

Contact the department

If you have specific questions about the degree, contact Val West.

Research Skills (15 credits)

This module provides you with the core skills needed to become a successful researcher. This is achieved via two complementary strands; the first strand covers fundamental research skills: seminars on bibliographic searching, essay writing, research report writing, oral presentation skills and career planning and lab sessions in which students conduct, analyse and write up an experiment from the field of music psychology. The second strand exposes students to cutting edge research in the field of music cognition and neuroscience via the Eminent Speaker Series and involves the opportunity to produce a collaborative report from the series for the Music, Mind and brain blog.

Research Project (60 credits)

This module provides you with the chance to design and pursue a substantial, independent research project on a topic of their choosing, with expert input from a nominated supervisor. You will be offered a selection of possible projects but are also encouraged to generate their own ideas. External supervision may also possible, in cases where students have links to outside institutions. As well as producing a written dissertation, you will have take produce and present a poster of your work to classmates and teachers from the programme.

Assessment

Written examinations; written coursework (essays); oral presentations; research dissertation.

Careers

The programme will appeal to you if you are interested in pursuing doctoral research in this area or if you are already a music professional wishing to approach music scientifically.

Graduates from the Music, Mind and Brain programme have gone on to work in one of the following areas:

-Academia: Either pursuing a PhD, working in research position or engaged with university-level teaching
-Music and media industry
-Music practitioner or performer
-Music teacher

Other careers that would be informed by this programme include music therapy, neuro-rehabilitation, music consultancy and music and advertising.

Other entry requirements

IELTS 6.5 (with a minimum of 6.5 in the written test and no individual test lower than 6.0).

Funding

Please visit http://www.gold.ac.uk/pg/fees-funding/ for details.

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- Aims. It is our aim to develop in our students the skills required to submit a satisfactory MPhil thesis at the end of their chosen duration (1 year full time or 2 years part time). Read more

Overview

- Aims
It is our aim to develop in our students the skills required to submit a satisfactory MPhil thesis at the end of their chosen duration (1 year full time or 2 years part time). In order to achieve this, a student will have acquired the essential skills required to design and conduct experiments (including applying for ethics approval where necessary), to analyse results, and to communicate these both in writing and orally. These skills will include those that can be transferred successfully to their choice of academic or other career.

- Support
The MPhil at the CBU is achieved by supervised research and is under the jurisdiction of the Degree Committee for the Faculty of Biology. The provision of supervision and teaching is overseen by the Graduate School of Life Sciences. Within the CBU, the internal Graduate Committee is responsible for all aspects of the running of the degrees. A suitable project falling within the interests of the supervisor, and sustainable within the limits imposed by the facilities available at the CBU, is agreed by both student and supervisor, and endorsed by the Graduate Committee. Each graduate student has a primary Supervisor, who will supervise the main body of their research, and an Advisor who acts as a supplementary source of advice and support. We also have two pastoral tutors who offer personal support and counselling throughout a student’s time at the Unit.

- Seminars
Students attend a variety of Unit Seminars given by distinguished scientists. They are able to draw from the CBU’s panels of research volunteers, both normal and clinical, and enjoy the benefits of superb computing facilities and support staff, including a Graphics/Multimedia Officer.

- The Cambridge Graduate Programme in Cognitive and Brain Sciences
CBU students are full members of the Cambridge Graduate Programme in Cognitive and Brain Sciences, which has been jointly established by the Unit and the Departments of Psychology and Psychiatry. This consists of a weekly series of theoretical seminars presented by senior researchers from the CBU and from the University. Lectures will be held on Mondays 4-5.30pm in the West Wing Seminar Room at the MRC Cognition and Brain Sciences Unit, 15 Chaucer Road, Cambridge, CB2 7EF (unless otherwise specified), or at the Psychology department on the Downing Site in Cambridge city centre. Seminars are held during Michaelmas and Lent terms only.
All public talks are publicised on the University talks website, which also contains an archive of older lectures. All scientists at the CBU are expected to attend the two public talk series, held on Wednesdays and Thursdays.

- Facilities and Linkages
The CBU has excellent facilities for experimental behavioural studies involving normal populations and patients with brain damage, as well as institutional links with Addenbrooke’s hospital giving access to various types of patient populations, including stroke and progressive neural degenerative diseases. There is a 3 Tesla MRI scanner on the premises, as well as MEG and EEG facilities. Through its partnership with the University of Cambridge Wolfson Brain Imaging Centre, the CBU has excellent access to PET and additional fMRI (3 Tesla) facilities. The CBU also offers state of the art computing facilities, supporting Unix, PC, and Mac platforms, and handling the large volumes of neuro-imaging data as well as extensive computational modelling. All students have their own networked desktop computer, with internet access through JANET.
The Unit’s close links with the University Department of Psychology and the Department of Psychiatry are strengthened through the Cambridge Graduate Programme in Cognitive and Brain Sciences, a joint programme of termly Seminars given by members of each Department and attended by all graduate students.
The CBU is also an active member of the wider neuroscience community in Cambridge, supported by the Cambridge Neuroscience network.

- Completion on time
For MPhil students a personalised training and research programme will be agreed during the early weeks of the degree.

See the website http://www.graduate.study.cam.ac.uk/courses/directory/blcbmpbsc

Learning Outcomes

By the end of the programme, students will have:
• a comprehensive understanding of techniques, and a thorough knowledge of the literature, applicable to their own research;
• demonstrated originality in the application of knowledge, together with a practical

understanding of how research and enquiry are used to create and interpret knowledge in their field;
• shown abilities in the critical evaluation of current research and research techniques and methodologies;
• demonstrated some self-direction and originality in tackling and solving problems, and acted autonomously in the planning and implementation of research.

Continuing

There is no automatic progression from a CBU MPhil degree to a CBU PhD. MPhil students will need to apply to be considered for a PhD place alongside all other candidates.

Teaching

We offer a variety of theoretical and skills based training to support our wide range of topics and streams of research. A personalised training programme will be agreed for each incoming student in the first few weeks of the degree period. This will cover an agreed timetable of attendance at the various seminars, the research project planned, amd the formal review points throughout the degree.

- Feedback
Continuous assessment and supervision. Students can expect to receive an online feedback report each term.

Funding Opportunities

For eligible applicants, several MRC funded studentships are available, which pay the University Composition Fee, and a small but liveable stipend (currently £13,726 p.a.), however it should be noted that this money has never been allocated to an MPhil student as we always have excellent eligible PhD students whose funding takes priority. In reality a MPhil would almost certainly need to be self-funded or have external funding. Hence, independently funded applications are very welcome, and we will also always nominate successful applicants for the various Cambridge University scholarships available, depending on individual eligibility.

General Funding Opportunities http://www.graduate.study.cam.ac.uk/finance/funding

Find out how to apply here http://www.graduate.study.cam.ac.uk/courses/directory/blcbmpbsc/apply

See the website http://www.graduate.study.cam.ac.uk/courses/directory/blcbmpbsc

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The Institute for Neuroscience has clinicians and scientists working together to understand the brain and behaviour. Read more
The Institute for Neuroscience has clinicians and scientists working together to understand the brain and behaviour. From the basic biology of neurons through to complex processes of perception and decision-making behaviour, we address how the mind, brain, and body work together and translate this knowledge into clinical applications for patient benefit.

We offer MPhil supervision in the following research areas:

Motor systems development, plasticity and function

We conduct clinical and preclinical studies of normal and abnormal development and plasticity of the motor system. We run functional studies and computer modelling of motor system activity throughout the neuraxis. We also research the development and assessment of novel therapies for motor disorders/lesions including stem cell and brain-machine interface.

Visual system development, plasticity and repair]]
We research the development and assessment of novel neuro-technological approaches to retinal dystrophy repair including brain-machine interface and stem cells. We use in vitro approaches to look at retinal development and visual system wiring.

[[Neural computation and network systems
We conduct experimental and theoretical (computational) studies aimed at understanding how neurones throughout the brain interact in localised networks to compute complex tasks. Our research looks at the role of network activity in a wide range of neurological, neurodegenerative and psychiatric disorders.

Auditory neuroscience

We conduct clinical and preclinical studies aimed at understanding the brain mechanisms involved in detection, discrimination and perception of sound. We are interested in how these mechanisms are affected in individuals with brain disorders, including dementia, autism and stroke.

Pain

Our research focuses on:
-Understanding mechanisms underlying pain, analgesia, and anaesthesia
-The development of methods to assess pain and to alleviate pain in animals and humans

Psychobiology

We conduct studies in laboratory animals, healthy volunteers and patient populations investigating the mechanisms underlying mood, anxiety and addiction disorders and their treatment. Allied research looks at normal neuropsychology, and the physiology and pharmacology of neurotransmitter and endocrine systems implicated in psychiatric disorders.

Neurotoxicology

Our research focuses on delineating the effects and understanding the mechanisms of action of established and putative neurotoxins, including environmental and endogenous chemicals, and naturally occurring toxins.

Forensic psychiatry and clinical psychology

Our research covers:
-The assessment, treatment and management of sex offender risk
-Development and assessment of cognitive models
-Cognitive behavioural therapy (CBT) treatment for bipolar disorder, psychosis, anxiety and developmental disorders
-Developmental disorders of perception and cognition

Systems and computational neuroscience

We conduct theoretical (computational) and experimental studies aimed at understanding the neuroanatomy, neuropharmacology of vision, visual attention and episodic memory.

Behaviour and evolution

Many research groups take an evolutionary and comparative approach to the study of brain and/or behaviour, comparing brain function and behaviour among such disparate groups as insects, birds and mammals, and studying the ecological and evolutionary functions of behaviour. Much of our work is at the forefront of the fields of neuroethology, behavioural ecology and comparative cognition, and has important implications for the study and practice of animal welfare.

Visual perception and human cognition

We research:
-Colour and depth perception - perception of natural scenes
-Psychophysics and attention - memory
-Word learning in children
-Body image dysfunction
-Visual social cognition and face processing
-Advertising and consumer behaviour

Pharmacy

Our new School of Pharmacy has scientists and clinicians working together on all aspects of pharmaceutical sciences and clinical pharmacy.

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This full-time MSc course aims to equip graduate students from a wide range of backgrounds, including psychology, engineering, physical and biological sciences, with the methodological tools to undertake neuroimaging research at the highest level. Read more
This full-time MSc course aims to equip graduate students from a wide range of backgrounds, including psychology, engineering, physical and biological sciences, with the methodological tools to undertake neuroimaging research at the highest level.

Understanding the human brain in health and disease is one of the key research challenges of our time. Meeting this challenge depends on progress at multiple-levels, from investigations of single neurons through to studies of human cognition and perception. Bridging the gap between these levels is not easy, but recent advances in non-invasive neuroimaging and neurophysiology techniques seem to offer such a bridge, by providing a window on brain structure and function at the regional level. However, no single technique offers a complete picture – each has its own strengths and weaknesses. It is for this reason that much recent effort has been in multi-modal integration of several different imaging approaches.

You will be taught by international experts in both multimodal methods Semester 1 and applications of these methods in several domains Semester 2. Depending on your background and interests, you may then choose to specialise in either methodology or applications-based research for your project in Semester 3.

The course aims to put you in a competitive position for a PhD studentship or research position in neuroimaging methodology, cognitive neuroscience or translational neuroscience applied to human health and disease.

The hub of the MSc is the Cardiff University Brain Research Imaging Centre (CUBRIC), which is part of the School of Psychology at Cardiff University. CUBRIC is one of only a handful of research-dedicated centres in the world that contain multiple neuroimaging techniques in one building: Magnetic Resonance Imaging (MRI), Magnetoencephalography (MEG), Electroencephalography (EEG) and Trans-cranial Stimulation (TMS/TDCS). A key feature of this course is that you can gain hands-on experience using all of these techniques.

Distinctive features

• Hands-on experience using multiple neuroimaging techniques.
• Based in Cardiff University Brain Research Imaging Centre (CUBRIC), a world-leading centre of its kind.
• Taught by international experts.

Structure

This one-year full-time course starts in September and is a mixture of two taught semesters and a research project in the final semester.

Each Module must be completed with a mark of 50% or greater. All 12 taught modules must be passed before the research project dissertation can be submitted at the end of Semester 3.

Core modules:

Research Design and Statistics I
Research Design and Statistics II
fMRI Physiology and Methods
MEG and EEG: Physiology and Methods
Human Brain Stimulation: Technology and Methods
Neuroimaging Methods - State of The Art
Memory: Functions and Failures
The body in the brain: neuroimaging of pain, touch and emotions
Neuroimaging of Perception & Action
Clinical Neuroimaging Research
Neuroimaging Applications - State of the Art
MRI: Technology & Methods
Neuroimaging Research Project

Teaching

You will attend lectures, participate in seminars and tutorials, and gain experience in the MRI, MEG, EEG and TMS labs. Learners play the leading role in their own training.  The School facilitates learning by identifying appropriate reading and organising practicals.  Depending on their background and interests, students may then choose to specialise in either methodology or applications-based research, or a mixture of both, for their projects in Semester 3.

Career Prospects

This course can prepare students for a range of career options, including:

• A research and academic career in cognitive/clinical neuroscience or methods development
• Industry applications such as research in pharma companies or neuro-marketing
• Supporting the use of advanced neuroimaging techniques in healthcare environments.

Graduates in this programme will also be in a strong position to apply for PhD positions.

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This unique programme is designed to provide an education in the underlying scientific principles of physical therapy - physiotherapy, osteopathy, sports therapy - and an opportunity to experience the clinical application of specialist rehabilitation techniques with expert clinicians at the Royal National Orthopaedic Hospital (RNOH). Read more
This unique programme is designed to provide an education in the underlying scientific principles of physical therapy - physiotherapy, osteopathy, sports therapy - and an opportunity to experience the clinical application of specialist rehabilitation techniques with expert clinicians at the Royal National Orthopaedic Hospital (RNOH).

Degree information

Students can expect to acquire a broad and deep understanding of the science underpinning a physical therapy approach to the treatment of musculoskeletal pain and dysfunction. In addition, the MSc builds on cognitive skills, and students will become creative in their thinking and highly skilled in analysis and evaluation, and thus ideally placed to become innovative leaders within their field.

Students undertake modules to the value of 180 credits.

The programme consists of eight core modules (120 credits), and a research project (60 credits).

Core modules
-Clinical Aspects of Musculoskeletal Medicine
-Movement Science and Pain
-Musculoskeletal Biomechanics and Application in Physical Therapy
-Musculoskeletal Tissue Biology - Disease and Dysfunction
-Musculoskeletal Tissue Biology - Form and Function
-Rehabilitation and Multi-Dimensional Patient Management
-Research Governance
-Research Methodology and Generic Skills

Teaching and learning
The programme is delivered through a combination of lectures, seminars, tutorials, case-based studies, workshops and practical classes. Assessment is through MCQ examinations; coursework, including narrative reviews, structured questions and case studies; and poster presentation. The research project is assessed by a written dissertation and viva examination.

Careers

On successful completion of this programme, students can expect to assume leadership positions in clinical practice in the NHS, or in private practice for those with a prior clinical qualification. Graduates will also be well placed to enter academic or clinical research or a biomedical/healthcare-related position in industry.

Employability
Graduates are likely to be highly attractive to prospective employers; not only will they have gained multidisciplinary knowledge of the musculoskeletal system and treatments for musculoskeletal disease and dysfunction, but importantly they will have developed their skills in analysis and evaluation of information and creation of new ideas. These higher-level cognitive skills are highly sought after by employers.

Why study this degree at UCL?

This programme is unique in that it covers the basic science informing a physical therapy approach to treatment. The programme encourages students to integrate knowledge across modules and to use a multi-dimensional approach to patient management.

The programme is delivered through a partnership between internationally renowned UCL academics and world-leading specialist clinicians at the RNOH, providing students with excellent networking opportunities with academics, clinical professionals and like-minded peers.

UCL was rated as the best university for research strength in the UK in the latest Research Excellence Framework (December 2014). The RNOH has a worldwide reputation for ground-breaking neuro-musculoskeletal healthcare and specialist rehabilitation.

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In the two-year international Research Master's programme in Clinical Linguistics, you will study Linguistics and Neuroscience. You will explore subjects such as neuro-imaging, language processing and developmental language disorders. Read more
In the two-year international Research Master's programme in Clinical Linguistics, you will study Linguistics and Neuroscience. You will explore subjects such as neuro-imaging, language processing and developmental language disorders.

The programme is meant for talented students who aspire to do research in the field of Clinical Linguistics. After finishing the degree, you will have acquired essential research skills and fundamental knowledge of Clinical, Neuro- and Psycholinguistics.

The two-year training is currently part of the prestigious international Erasmus Mundus programme in Clinical Linguistics. It is offered by the Universities of Groningen, Potsdam (Germany) and Eastern Finland (Joensuu). In the first year, you will start the programme at the university of Eastern Finland (Joensuu) during the first term. You will continue your training in Potsdam during the second term. During the third term all students will study in Groningen. You will finish your studies by writing a Master's thesis during your fourth term.
After finishing this programme you will receive a joint degree.

[[Job perspectives]
After graduation, you are well prepared for a career in research. In fact, this programme is an ideal steppingstone to a PhD-position in the field of Clinical Linguistics.

Speech and language therapists who take this programme, will be better equipped to assess and treat people with a language impairment.

Importantly, the programme is not meant to train students to become speech and language therapists.

Job examples

- Research oriented career

The Clinical Linguistics/EMCL programme in Groningen, which is offered by the Graduate School for the Humanities, is linked to excellent, multidisciplinary research which is carried out at the Centre for Language and Cognition Groningen (CLCG) and the Groningen Research School for Behavioral and Cognitive Neuroscience (BCN).

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The course is aimed at professionals working with children and young people with mental health issues. The course has been developed by a multi-professional team to provide new insights into working with complex family mental health issues in the community. Read more

The course is aimed at professionals working with children and young people with mental health issues. The course has been developed by a multi-professional team to provide new insights into working with complex family mental health issues in the community. The perspectives of practitioners from health, social care and education is integrated into the delivery of both modules.

The first module provides you with the framework for assessment of children and young people and the factors which impact on their emotional health. During this module attachment, family dynamics, concepts of risk and resilience are examined in depth.

The second module presents the aetiology of mental disorders and their management and treatment. You build your knowledge and skills in diagnostic tools, cognitive behavioural therapy, motivational interviewing, solution focused therapy, family therapy, sensory assessment/integration and psychotherapy through role play and personal research.

All practitioners are required to demonstrate extended specialist knowledge in their chosen speciality when they are applying for career progression. Completing this course allows you to demonstrate your extended knowledge in caring for children, adolescents and families with mental health issues. This course enables you to contribute to the workforce transformation agenda as you apply these skills in your workplace.

Course structure

Core modules

  • Early intervention in child, adolescent and family mental health (30 credits)

Focused upon early years: neuro/cognitive/physical development; attachment; family relationships; risk/resilience, parenting; etc.

  • Enhancing practice in child, adolescent and family mental health (30 credits)

Focuses on disorders and interventions/strategies that arise from childhood into adolescence, and how these impact upon the whole family and the community at large.

Modules can be undertaken as stand-alone, or as part of the PgCert and the credits awarded can then be transferred to further awards (PgDip, MSc Advanced Professional Practice) as appropriate.

Assessment

Written assignments and production of health promotion resource

Employability

Upon completion of a postgraduate certificate, you are able to complete your postgraduate study to Masters level, via PgDip and Masters route, through the Advancing Professional Practice MSc.

The MSc Advancing Professional Practice is an existing flexible route offered in the Faculty of Health and Wellbeing that provides the opportunity for students to transfer their postgraduate credit while continuing to advance their practice through completion of modules that are relevant to their practice context. 



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Why Surrey?. Our unique MSc Research Methods in Psychology programme allows you to study theory while benefitting from hands-on research experience. Read more

Why Surrey?

Our unique MSc Research Methods in Psychology programme allows you to study theory while benefitting from hands-on research experience.

It covers the breadth of contemporary psychological research methods and allows you to develop research approaches to studying psychology, from the level of social groups through to neuro-imaging of brain activity.

Programme overview

Our MSc Research Methods in Psychology programme is designed to provide you with expertise in psychological research methods appropriate for the behavioural sciences.

You will develop the skills necessary for critically evaluating research, formulating innovative research questions, conducting empirical research, and analysing, interpreting and reporting research results.

The programme covers the breadth of contemporary psychological research methods, allowing you to develop research approaches that combine multiple methods in unique ways. By the end of the programme, you will have developed an individual profile of research skills.

The programme also provides an ideal stepping stone for research at PhD level.

Programme structure

This programme is studied full-time over one academic year and part-time students must study at least two taught technical modules per academic year. It consists of eight taught modules and a dissertation.

Example module listing

The following modules are indicative, reflecting the information available at the time of publication. Please note that not all modules described are compulsory and may be subject to teaching availability and/or student demand.

Career prospects

Students who have completed the Psychology programmes have progressed to a range of careers in areas such as local government, management, research posts in universities and commercial organisations, healthcare and clinical psychology, and many have progressed on to study for a PhD.

Research

We believe in involving all postgraduate students in the research life of the School through active participation in one of the research groups, attendance at research seminars and, where possible, an attachment to ongoing research projects.

As a student of the Department of Psychology, you will also have access to a number of conferences, seminars and workshops hosted throughout the year.

Educational aims of the programme

  • To provide postgraduate students with expertise of current psychological research methods appropriate for the behavioural sciences
  • To provide postgraduate students with the skills necessary for research at PhD level and/or making transition to the world of work
  • To provide postgraduate students with the skills necessary for formulating appropriate research questions, conducting empirical research and analysing and reporting research results

Programme learning outcomes

The programme provides opportunities for students to develop and demonstrate knowledge and understanding, skills, qualities and other attributes in the following areas:

Knowledge and understanding

  • Of the basic principles of research design and strategies
  • Of psychology as an evidence-based science and the historical and theoretical issues underlying the discipline
  • Of psychological concepts and methodologies and how to evaluate the range of alternative research methods
  • Of quantitative/qualitative techniques to manage and analyse psychological data
  • Of different methods to present and communicate the results
  • Of ethical considerations when undertaking research

Intellectual / cognitive skills

  • Critically assess and comment on both published and unpublished sources of research
  • Critically weigh up the contributions and limitations of psychological theories and methods in addressing research problems
  • Critically compare methods and research findings to develop, where appropriate, integrative theoretical frameworks to understand research methodologies
  • Design, conduct and evaluate psychological research including a rationale for choice of methods employed;
  • Reflect on the mutual interaction between theory development, practice and application.

Professional practical skills

  • Communicate work in a professional manner for academic and non-academic audiences in written and verbal formats
  • Apply problem solving techniques to psychological research topics effectively
  • Use effective learning strategies
  • Analyse and interpret quantitative and qualitative empirical evidence in a competent and critical manner

Key / transferable skills

  • Communicate theories and methods in relation to psychology research by oral and written means
  • Use information technology effectively
  • Manage own personal development

Global opportunities

We often give our students the opportunity to acquire international experience during their degrees by taking advantage of our exchange agreements with overseas universities.

In addition to the hugely enjoyable and satisfying experience, time spent abroad adds a distinctive element to your CV.



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This course will enable you to gain a university qualification that we believe will enrich your knowledge and skills. Compassion Focused Therapy is a rich integrative model rooted in evolutionary, neuro and psychological science models. Read more

Why choose this course:

• This course will enable you to gain a university qualification that we believe will enrich your knowledge and skills. Compassion Focused Therapy is a rich integrative model rooted in evolutionary, neuro and psychological science models. There are also influences from Buddhist philosophy. The CFT approach pays particular attention to the key role of the therapeutic relationship and examines the skills and competencies required to enhance those skills in detail both in terms of the theory base as well as the skills base.

• You will receive training with experts in the field of Compassion Focused Therapy including Professor Paul Gilbert PhD FBPs OBE. Paul will be delivering the three day workshop that begin the course and will be delivering live presentations at various points throughout the course.

• You will receive weekly supervision from experts in the field of Compassion Focused Therapy.

• You will have access to a rich source of learning materials via our online course resources, as well as weekly live online contact.

• You will attend two five day intensive training blocks at the University of Derby.

• The course is delivered via blended learning which allows flexibility and reducing the need to travel.

About the course:

Compassion focused therapy is a psychological approach that was originally developed to help people with high shame and self-criticism, and this course will introduce you to the basic ideas and interventions that are used. This course is for you if you are in a mental health profession, for example psychiatry, psychology, nursing or occupational therapy and you are trained to form and develop psychotherapeutic relationships. Also, if you have basic counselling and cognitive behavioural therapy skills and you would like to develop your skills when working with clients who experience shame and self-criticism thoughts, then this course is for you.

By studying this course, you will develop your clinical and theoretical knowledge in compassion focused therapy. You'll have the opportunity to network with likeminded, dynamic individuals and be taught by leading academics and professionals in your field of expertise. There is also the opportunity for you to experience expert clinical and academic supervision to develop your practical skills and ensure you can provide proficient therapy to your future clients.

Throughout this course you will learn to focus on the forms and functions of shame and self-criticism and how to treat them by developing self and other directed compassion. Compassion focused therapy aims to develop care and affiliative-focused motivation, attention, emotion behaviour and thinking in clients, and the key skills that are used include Socratic questioning, guided discovery behaviour experiments and multiple chair work. You will also look at the use of compassion focused imagery during this course, which includes building the compassionate self and using the sense of a compassionate self to engage with areas of personal difficulty.

You will study this course for 36 weeks based on studying for one day a week. You will learn through a combination of e-learning, personal study, workshops and case provision where you will need to identify suitable clients to work with. For your supervision sessions, you will be video recorded, which is a fundamental part of this course and will help to transfer you from a learning environment into practice and help to refine compassion focused practice.

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This programme will provide a world-class education for advanced training in translational research, from preclinical discovery through to first-time-in-man studies in human and clinical trials in healthy volunteers and patients across neurology and neurodegeneration. Read more
This programme will provide a world-class education for advanced training in translational research, from preclinical discovery through to first-time-in-man studies in human and clinical trials in healthy volunteers and patients across neurology and neurodegeneration.

Degree information

The programme combines theoretical and practical teaching on both the breadth of, and complexity in conducting clinical research. Topics include clinical pharmacology, pharmacokinetics, research governance, medical statistics and the fundamental principle for using the correct enabling technologies within the context of medical research and drug development.

Students undertake modules to the value of 180 credits. The programme consists of four core modules (60 credits), and a dissertation/report (120 credits). There are no optional modules for this programme.

Core modules
-Cellular & Molecular Mechanisms of Disease (15 credits)
-Experimental Neurology (30 credits)
-Research Skills & Statistics (15 credits)
-MRes Translational Neurology Research Project (120 credits)

Dissertation/report
Students will have the opportunity to work with internationally recognised researchers from the UCL Institute of Neurology, and the Leonard Wolfson Experimental Neurology Centre as they undertake their research projects, which culminates in a dissertation of 15,000 words.

Teaching and learning
The programme will combine lectures, workshops and tutorials. Practicals will focus on the role of surrogate markers and emerging technologies in drug development e.g. pre-clinical discovery, first time in man studies, and early phase clinical trials in healthy volunteers and patients. Assessment is through short answer unseen exams, coursework, simulated grant applications and written clinical abstract as well as a small component with a short answer exam.

Careers

The programme is designed to cater to graduates in medicine and biomedical sciences who wish to gain valuable training in clinical research before embarking on a clinical PhD programme, medical training, or professional work in clinical trials. The successful completion of the MRes should also enhance opportunities for graduates to enter medical school or for MBBS graduates to progress to specialist medical training.

Employability
Whatever your chosen career pathway, the MRes in Translational Neurology will equip graduates to either get a first step on the ladder, change career directions or help to become more experienced with a specific expertise in your chosen career.

Why study this degree at UCL?

The programme is delivered by the UCL Institute of Neurology, a specialist postgraduate institute and a worldwide centre of excellence in clinical research across neurological diseases, including movement disorders (e.g. Parkinson’s disease), multiple sclerosis, neuro-inflammation, epilepsy, stroke, cognitive dysfunction, Alzheimer’s Disease and other dementias.

Students will be taught by experts in the field and have the opportunity to network with internationally recognised opinion leaders in neurology and neurodegeneration.

By the end of the programme students will gain a thorough understanding of the challenges involved in setting up research projects, and learn how to design, implement, analyse and report clinical studies. Undertaking an extended piece of primary research in a clinical trials setting is particularly attractive to students wishing to pursue doctoral or clinical research. The focus on translational neurology, from within the specialist research setting of the Leonard Wolfson Experimental Neurology Centre, is also of note.

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In the two-year Research Master's specialization Language and Cognition (MA Linguistics), you will study patterns of language and speech and the way our brain employs and organizes them. Read more
In the two-year Research Master's specialization Language and Cognition (MA Linguistics), you will study patterns of language and speech and the way our brain employs and organizes them. The programme offers a unique combination of n euro- and psycholinguistics, theoretical linguistics, developmental linguistics, computational linguistics, and communication science.

The programme is meant for talented students who aspire to do research in the field of Linguistics. After finishing the degree, you will have acquired essential research skills and fundamental knowledge of linguistic analysis, language development, and language processing. In addition, you will be able to study language at different levels, such as words, sentences, meaning and interaction.

The programme is linked to the excellent, multidisciplinary research carried out at the Centre for Language and Cognition Groningen (CLCG) and the Groningen Research School for Behavioural and Cognitive Neuroscience (BCN).

After finishing the programme you receive a Master of Arts degree in Linguistics.

Why in Groningen?

- Intensive supervision by high-quality researchers in small groups
- A challenging multidisciplinary approach
- Partial Talent Grants and Research Assistantships

Job perspectives

After graduation, you are well prepared for a career in research. In fact, this programme is an ideal stepping stone to a PhD position at a university. You can conduct research in Linguistics, such as Neuro- or Clinical Linguistics, Language Development or Theoretical Linguistics. Other options are Speech Technology, and Communication and Computer Linguistics.

Job examples

- Research oriented career in Linguistics

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