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This programme is for graduates with a strong grounding in forensic science who wish to advance their knowledge of the field. It prepares you for a professional role in forensic science within the criminal or civil judicial system, police or forensic practice, or research. Read more
This programme is for graduates with a strong grounding in forensic science who wish to advance their knowledge of the field.

It prepares you for a professional role in forensic science within the criminal or civil judicial system, police or forensic practice, or research. You develop command, control and management skills that will enable you to present expert evidential incident reports to the highest standard at court.

You also develop your knowledge and understanding of advanced laboratory analytical methods applied to forensic investigation. This enables you to select the most appropriate analytical techniques for forensic investigation and to use a wide range of advanced analytic apparatus to evidential standards.

This programme helps you to develop an integrated and critical understanding of forensic science to prepare you to undertake a PhD in any associated discipline.

Visit the website https://www.kent.ac.uk/courses/postgraduate/5/forensic-science

About The School of Physical Sciences

The School offers postgraduate students the opportunity to participate in groundbreaking science in the realms of physics, chemistry, forensics and astronomy. With strong international reputations, our staff provide plausible ideas, well-designed projects, research training and enthusiasm within a stimulating environment. Recent investment in modern laboratory equipment and computational facilities accelerates the research.

The School maintains a focus on progress to ensure each student is able to compete with their peers in their chosen field. We carefully nurture the skills, abilities and motivation of our students which are vital elements in our research activity. We offer higher degree programmes in chemistry and physics (including specialisations in forensics, astronomy and space science) by research. We also offer taught programmes in Forensic Science, studied over one year full-time, and a two-year European-style Master’s in Physics.

Our principal research covers a wide variety of topics within physics, astronomy and chemistry, ranging from specifically theoretical work on surfaces and interfaces, through mainstream experimental condensed matter physics, astrobiology, space science and astrophysics, to applied areas such as biomedical imaging, forensic imaging and space vehicle protection. We scored highly in the most recent Research Assessment Exercise, with 25% of our research ranked as “world-leading” and our Functional Materials Research Group ranked 2nd nationally in the Metallurgy and Materials discipline.

Modules

The following modules are indicative of those offered on this programme. This list is based on the current curriculum and may change year to year in response to new curriculum developments and innovation. Most programmes will require you to study a combination of compulsory and optional modules. You may also have the option to take modules from other programmes so that you may customise your programme and explore other subject areas that interest you.

PS601 - Fires and Explosions (15 credits)
PS637 - DNA Analysis & Interpretation (15 credits)
PS700 - Physical Science Research Planning (15 credits)
PS702 - Contemporary and Advanced Issues in Forensic Science (15 credits)
PS704 - Major Incident Management (15 credits)
PS713 - Substances of Abuse (15 credits)
PS720 - Advanced Forensic Project Laboratory (30 credits)
PS780 - MSC Research Project (60 credits)

Assessment

Assessment is by examination and coursework.

Programme aims

This programme aims to:

- develop your integrated and critically aware understanding of forensic science and to prepare you to undertake a PhD in any associated disciplines

- prepare you for a professional role in forensic science within the criminal or civil judicial system, police, or forensic practice or research

- develop your command, control, and management skills in relation to major incidents, and to prepare and present expert evidential incident reports at court to the highest standard

- develop a clear recognition of the constraints and opportunities of the environment in which professional forensic science is carried out

- develop a variety of Masters’ level intellectual and transferable skills

- equip you with the learning skills to keep abreast of developments in the continually evolving field of forensic science and forensic investigation

- enable you to realise your academic potential.

Careers

All programmes in the School of Physical Sciences equip you with the tools you need to conduct research, solve problems, communicate effectively and transfer skills to the workplace, which means our graduates are always in high demand. Our links with industry not only provide you with the opportunity to gain work experience during your degree, but also equip you with the general and specialist skills and knowledge needed to succeed in the workplace.

Typical employment destinations for graduates from the physics programmes include power companies, aerospace, defence, optoelectronics and medical industries. Typical employment destinations for graduates from our forensic science and chemistry programmes include government agencies, consultancies, emergency services, laboratories, research or academia.

Find out how to apply here - https://www.kent.ac.uk/courses/postgraduate/apply/

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Medical art encompasses a wide range of applications from patient communication and information to medical teaching and training. Read more
Medical art encompasses a wide range of applications from patient communication and information to medical teaching and training. It is also used by the pharmaceutical industry to aid in explanation of their products and by television companies in the production of documentaries.

This highly innovative one-year taught Masters course employs highly specialised tutors from scientific backgrounds alongside experienced medical art supervisors.

Why study Medical Art at Dundee?

Medical Art is the depiction of anatomy, medical science, pathology and surgery. This may include medical images, models or animations for use in education, advertising, marketing and publishing, conceptual work in relation to research, education and publishing and two or three-dimensional visualisation for the training of specific medical professionals.

Medical and forensic artists require technical and conceptual art skills alongside comprehensive medical and anatomical knowledge.

What's so good about studying Medical Art at Dundee?

You will benefit from the facilities of a well-established art college, whilst appreciating the newly-refurbished laboratories, a dedicated library and access to human material in a modern medical science environment.

Internships

Short term internships in forensic and medical institutes throughout the world will be offered to selected students following graduation. Internship institutes offer these internships based on the reputation of the course and its tutors and include the National Centre for Missing and Exploited Children (NCMEC), USA; the Turkish Police Forensic Laboratory, Ankara and Ninewells Hospital, Dundee.

How you will be taught

The course is delivered using traditional methods including lectures, practical studio sessions and small group discussions with an encouragement into debate and theoretical solutions to current problems.

What you will study

Students on both Forensic Art and Medical Art MSc's share joint modules with increasing specialisation. Students may carry out their semester three Dissertation module either at the University or from a working environment or placement.

The course is delivered using traditional methods including lectures, practical studio sessions and small group discussions with an encouragement into debate and theoretical solutions to current problems.

Medical Art students study:

Semester 1 (60 credits)
Anatomy - Head and Neck
Anatomy - Post Cranial
Life Art
Digital Media Practice
Research Methods

Semester 2 (60 credits)
Medical Art 1 - Image Capture and Creation
Medical Art 2 - Communication and Education
Medical-Legal Ethics

Semester 3 (60 credits) - dissertation and exhibition resulting from a research project undertaken either at the university or as a placement.

On successful completion of Semesters 1 and 2 there is an exit award of a Postgraduate Diploma in Medical Art.

How you will be assessed

Anatomy modules will be assessed by spot-tests and practical examinations and coursework. Medico-legal ethics will be assessed by both a written exam and coursework. All other modules will be assessed by coursework.

Careers

This programme aims to provide professional training to underpin your first degree, so that you can enter employment at the leading edge of your discipline. Career opportunities in medical art are varied and will depend on individual background and interests.

In medical art potential careers exist in the NHS as well as industry. Medical art and visualisation is a rapidly changing and broad discipline. Possible careers include:

NHS medical illustration departments producing patient information and illustration services for staff
E-learning
3D model making (including clinical/surgical skills trainers) companies
Digital art and animation studios
Publishing houses
Illustration studios
Medico-legal artwork
Freelance illustration and fine art applications
Special effects and the media/film world
Academia – teaching or research
PhD research

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The increasing impact of genetics in healthcare and the development of newer sophisticated technologies requires close collaboration between research scientists, clinical laboratory scientists and clinicians to deliver a high quality service to patients. Read more
The increasing impact of genetics in healthcare and the development of newer sophisticated technologies requires close collaboration between research scientists, clinical laboratory scientists and clinicians to deliver a high quality service to patients. The Medical Genetics MSc covers the delivery of a modern clinical genetics service, including risk analysis and application of modern genetic and genomic technologies in medical genetics research and in diagnostics and population screening.

Why this programme

-This is a fully up-to-date Medical Genetics degree delivered by dedicated, multi-award-winning teaching and clinical staff of the University, with considerable input from hospital-based Regional Genetics Service clinicians and clinical scientists.
-The full spectrum of genetic services is represented, from patient and family counselling to diagnostic testing of individuals and screening of entire populations for genetic conditions: eg the NHS prenatal and newborn screening programmes.
-The Medical Genetics MSc Teaching Staff have won the 2014 UK-wide Prospects Postgraduate Awards for the category of Best Postgraduate Teaching Team (Science, Technology & Engineering). These awards recognise and reward excellence and good practice in postgraduate education.
-The close collaboration between university and hospital staff ensures that the Medical Genetics MSc provides a completely up-to-date representation of the practice of medical genetics and you will have the opportunity to observe during clinics and visit the diagnostic laboratories at the new Southern General Hospital laboratory medicine building.
-The Medical Genetics degree explores the effects of mutations and variants as well as the current techniques used in NHS genetics laboratory diagnostics and recent developments in diagnostics (including microarray analysis and the use of massively parallel [“next-generation”] sequencing).
-New developments in medical genetics are incorporated into the lectures and interactive teaching sessions very soon after they are presented at international meetings or published, and you will gain hands-on experience and guidance in using software and online resources for genetic diagnosis and for the evaluation of pathogenesis of DNA sequence variants.
-You will develop your skills in problem solving, experimental design, evaluation and interpretation of experimental data, literature searches, scientific writing, oral presentations, poster presentations and team working.
-This MSc programme will lay the academic foundations on which some students may build in pursuing research at PhD level in genetics or related areas of biomedical science.
-The widely used textbook “Essential Medical Genetics” is co-authored by a member of the core teaching team, Professor Edward Tobias.
-For doctors: The Joint Royal Colleges of Physicians’ Training Board (JRCPTB) in the UK recognises the MSc in Medical Genetics and Genomics (which was established in 1984) as counting for six months of the higher specialist training in Clinical Genetics.
-The Medical Council of Hong Kong recognises the MSc in Medical Genetics and Genomics from University of Glasgow in it's list of Quotable Qualifications.

Programme structure

-Genetic Disease: from the Laboratory to the Clinic
-Case Investigations in Medical Genetics and Genomics
-Clinical Genomics - Students will take this course OR Omic Technologies for Biomedical Sciences OR Frontiers in Cancer Science.
-Omic technologies for the Biomedical Sciences: from Genomics to Metabolomics - Students will take this course OR Clinical Genomics OR Frontiers in Cancer Science.
-Frontiers in Cancer Science - Students will take this course OR Clinical Genomics OR Omic Technologies for Biomedical Sciences.
-Disease Screening in Populations
-SNP Assay Design and Validation
-Medical Genetics and Genomics Dissertation

Teaching and Learning Methods
A variety of methods are used, including problem-based learning, case-based learning, lectures, tutorials and laboratories. These are supplemented by a wide range of course-specific electronic resources for additional learning and self-assessment. As a result, you will develop a wide range of skills relevant to careers in research, diagnostics or clinical genetics. These skills include team-working, data interpretation and experimental design. You will use the primary scientific literature as an information resource, although textbooks such as our own Essential Medical Genetics will also be useful. You will have the options of: attending genetic counselling clinics and gaining hands-on experience and guidance in using software and online resources for genetic diagnosis and for the evaluation of pathogenesis of DNA sequence variants.

There are weekly optional supplementary tutorials on topics that are selected by students

Electronic Resources
-Access to a continually updated Moodle (virtual learning environment) with extensive additional teaching and self-assessment materials.
-An online web-portal with regularly updated direct links to >70 worldwide genetic databases & online algorithms (plus the latest new genetics discoveries), all easily accessible and grouped into useful categories.

Career prospects

Research: About half of our graduates enter a research career and most of these graduates undertake and complete PhDs; the MSc in Medical Genetics and Genomics facilitates acquisition of skills relevant to a career in research in many different bio-molecular disciplines.

Diagnostics: Some of our graduates enter careers with clinical genetic diagnostic services, particularly in molecular genetics and cytogenetics.

Clinical genetics: Those of our graduates with a prior medical / nursing training often utilise their new skills in careers as clinical geneticists or genetic counsellors.

Other: Although the focus of teaching is on using the available technologies for the purpose of genetic diagnostics, many of these technologies are used in diverse areas of biomedical science research and in forensic DNA analysis. Some of our numerous graduates, who are now employed in many countries around the world, have entered careers in industry, scientific publishing, education and medicine.

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There is a national and international need for professionals who can apply a critical and scientific approach to their forensic practice, and who want to have a broad understanding of the various interrelated disciplines of forensic medicine and science. Read more
There is a national and international need for professionals who can apply a critical and scientific approach to their forensic practice, and who want to have a broad understanding of the various interrelated disciplines of forensic medicine and science. This programme answers that need and provides theoretical and practical knowledge of the forensic medical sciences, and will train you to critically evaluate and interpret forensic medical and scientific evidence.

The unprecedented programme will cover a wide range specialist topics under the umbrella of the forensic medical sciences, coupled with the opportunity to carry out research in a specialist area.

We also offer you the opportunity to further your career prospects within your own professional specialty. This programme should be regarded as an intermediate level for pathologists and forensic medical examiners who will be expected to progress to specialist exit level exams, through their respective academic colleges.

Programme outline
Core modules:

Clinical Aspects of Forensic Medicine (two modules)
Forensic Pathology (two modules)
Module Options:

Legal and Ethical Issues Relevant to Forensic Medicine and Science
Forensic Toxicology I and II
Forensic Identification I and II.
Research project

Laboratory-based or a critical dissertation (four modules)

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Forensic art encompasses a wide range of subjects, notably facial anthropology and identification, such as two and three-dimensional facial reconstruction, craniofacial superimposition, post-mortem depiction, composite art and age progression. Read more
Forensic art encompasses a wide range of subjects, notably facial anthropology and identification, such as two and three-dimensional facial reconstruction, craniofacial superimposition, post-mortem depiction, composite art and age progression.

This highly innovative one-year taught Masters course will encompass all these fields, employing highly specialised tutors from scientific backgrounds alongside experienced forensic art supervisors.

Why study Forensic Art at Dundee?

Forensic Art is the presentation of visual information in relation to legal procedures. A forensic artist may aid in the identification or location of victims of crime, missing persons or human remains, and may facilitate the identification, apprehension or conviction of criminals.

Forensic artists require technical and conceptual art skills alongside comprehensive medical and anatomical knowledge. The course provides training and expertise at the cutting-edge of the forensic art profession

What's so good about studying Forensic Art at Dundee?

You will benefit from the facilities of a well-established art college, whilst appreciating the newly-refurbished laboratories, a dedicated library and access to human material in a modern medical science environment.

The award-winning staff in the Centre for Anatomy and Human Identification (CAHID) are amongst the most experienced in the UK in the fields of human identification, forensic anthropology, craniofacial identification and the study of the human body. The core remit of the Centre is the study of anatomy and staff deliver high quality anatomy teaching at all levels, via whole body dissection which allows students to develop a sound knowledge of the human body.

The Centre was awarded a prestigious Queen's Anniversary Prize for Higher Education in November 2013. Presented in recognition of 'world class excellence', the Queen’s Anniversary Prizes are among the most highly-regarded awards for the UK’s universities and colleges.

Teaching & Assessment

Teaching methods include traditional and online lectures, practical workshops in the studio and dissecting room and small group discussions. These encourage debate around theoretical research-based solutions to current practical problems.

The MSc will be taught full-time over one year (September to August).

How you will be taught

The course is delivered using traditional methods including lectures, practical studio sessions and small group discussions with an encouragement into debate and theoretical solutions to current problems.

What you will study

This highly innovative one-year taught MSc will encompass these fields, employing highly specialised tutors from scientific backgrounds alongside experienced forensic artists.

Semester 1 (60 credits)

In semester 1 the focus is on the study of anatomy through dissection, prosection study, illustration and facial sculpture and applying this to life art practice. Students will also be introduced to research methods and digital media.

Anatomy 1 - Head and Neck (15 credits)

Anatomy 2 - Post Cranial (15 credits)

Life Art (10 credits)

Digital Media Practice (10 credits)

Research Methods (10 credits)

Semester 1 may be also taken as a stand-alone PGCert entitled ‘Anatomy for Artists’.


Semester 2 (60 credits)

Forensic Facial Imaging, Analysis and Comparison (25 credits)

Forensic Art (25 credits)

Medical-Legal Ethics (10 credits)

On successful completion of Semesters 1 and 2 there is an exit award of a Postgraduate Diploma in Forensic Art and Facial Identification.

Semester 3 (60 credits) - dissertation and exhibition resulting from a self-directed project undertaken either at the university or as a placement.

How you will be assessed

A variety of assessment methods are employed, including anatomy spot-tests; oral and visual presentations; portfolio assessment of 2D/3D image acquisition and of artwork; written coursework and examination, such as forensic case reports.

Careers

This programme aims to provide professional vocational training to underpin your first degree, so that you can enter employment at the leading edge of your discipline. Career opportunities in forensic art are varied and will depend on individual background and interests.

In forensic art, potential careers exist within the police force and overseas law enforcement. Possible careers include:

Police art & design departments producing law enforcement documents, image enhancement, CCTV surveillance, image collection, staff posters and presentations.
SOCO/CSIs in UK or overseas law enforcement agencies
Facial composite practitioner and witness interview expert in police force
Archaeological artist working with museums, institutes and exhibitions
Facial identification services
Medico-legal artwork
Freelance art applications
Special effects and the media/film world
Academia – teaching or research
PhD research

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This MSc programme is designed to provide students with an in-depth working knowledge of the principles and practice of forensic toxicology. Read more
This MSc programme is designed to provide students with an in-depth working knowledge of the principles and practice of forensic toxicology. The major strength of this programme is that students study within an operational ISO 17025 accredited forensic toxicology laboratory and are taught by practising forensic toxicologists. This programme will be of particular interest to those interested in pursuing or furthering careers in forensic toxicology as court-reporting scientists, laboratory scientists or academics. This programme also enables graduates to gain experience in research before applying to a doctoral programme.

Why this programme

-We are the longest established forensic toxicology MSc in the UK, and the only programme in the UK delivered by practising forensic toxicologists in an operational ISO 17025 accredited laboratory.
-Our staff are regularly called to court to give evidence as expert witnesses. You will have the opportunity to visit a Scottish court in session and develop skills as an expert witness though lectures and practical sessions, including a moot court exercise.
-Students can learn first-hand within a unit with one of the largest forensic toxicology laboratories. No other Universities offering a taught Forensic Toxicology degree have an associated laboratory.
-Research and teaching laboratories are equipped with state-of-the-art equipment rivalling many forensic toxicology service laboratories in the UK.
-The laboratories are accredited to ISO/IEC17025 standard with UKAS. They are equipped with state-of-the-art technology and you will have access to a variety of instruments including GC/MS, GC-HS, HPLC, LC/MS and AAS.
-Direct link with our doctoral research programme.
-Students are introduced to ISO17025 accreditation and Quality Management Systems.
-Students will have the opportunity to attend lectures for the Diploma in Forensic Medical Sciences and the Scottish Medico-Legal Society. This grants you exposure to experts from a wide range of forensic and legal disciplines including scientists, lawyers and procurators fiscal.

Programme structure

Courses
-Principles of forensic toxicology
-Laboratory techniques in forensic toxicology
-Advanced instrumentation
-Case review and interpretation
-Research and laboratory management
-Project

Career prospects

This programme will prepare you for a post in a forensic toxicology laboratory both in the UK and overseas. Many of our graduates find or return to forensic work or undertake a PhD.

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THIS COURSE IS SUBJECT TO VALIDATION. https://www.keele.ac.uk/subjecttovalidation/. If you have ever spent some time in hospital, you are probably unaware that you were the beneficiary of medical devices that have been designed and developed by Medical Engineering Designers. Read more
THIS COURSE IS SUBJECT TO VALIDATION: https://www.keele.ac.uk/subjecttovalidation/

If you have ever spent some time in hospital, you are probably unaware that you were the beneficiary of medical devices that have been designed and developed by Medical Engineering Designers. Everything from the bed you lie on to the MRI scanner that shows your insides on a screen, to the blood pressure monitor, to the scalpel that cuts your skin is known as a Medical Device and will have had input from Medical Engineering Designers. Even if you have a blood pressure monitor at home, this is still a medical device and will have been designed by a Medical Engineering Designer. The aim of the MSc in Medical Engineering Design is to convert you into a Medical Engineering Designer so that you can work in this highly regulated design discipline.

The course is run by the School of Medicine (https://www.keele.ac.uk/medicine/) in collaboration with the Research Institute for Science and Technology in Medicine (https://www.keele.ac.uk/istm/).

Teaching takes place at the Guy Hilton Research Centre, a dedicated research facility located on the Royal Stoke University Hospital site, and also at the main University Campus. The School of Medicine is one of the top-ranked in the UK, and the research institute has an international reputation for world-leading research (https://www.keele.ac.uk/istm/newsandevents/istmnews2015/istmrefratingsmar2014.php) in medical engineering and healthcare technologies.

The Guy Hilton Research Centre offers state-of-the-art laboratories housing equipment for translational research including newly-developed diagnostic instruments, advanced imaging modalities and additive manufacturing facilities. Its location adjacent to the University Hospital ensures that students experience real-world patient care and the role that technology plays. Students also have access to advanced equipment for physiological measurement, motion analysis and functional assessment in other hospital and campus-based laboratories.

The School embraces specialists working in Royal Stoke University Hospital, County Hospital in Stafford and specialist Robert Jones and Agnes Hunt Orthopaedic Hospital in Oswestry. You therefore have the opportunity to specialise in any of the varied clinical disciplines offered at these hospitals.

Download the MSc Medical Engineering Design Leaflet (https://www.keele.ac.uk/media/keeleuniversity/fachealth/fachealthmed/postgraduate/MSc%20in%20Medical%20Engineering%20Design%20web.pdf)

The School also runs MSc courses in Biomedical Engineering (https://www.keele.ac.uk/pgtcourses/biomed/) and in Cell and Tissue Engineering (https://www.keele.ac.uk/pgtcourses/biomed/), and an EPSRC and MRC-funded Centre for Doctoral Training, ensuring a stimulating academic environment for students and many opportunities for engaging with further study and research.

As a postgraduate student at Keele not only will you be joining a vibrant undergraduate community you will also be part of Keele's celebrated postgraduate family (the first student union dedicated to postgraduate students in the country). For more information on postgraduate life at Keele follow this link to the Keele Postgraduate Association (the link is http://www.kpa.org.uk).

Between March and September 2017 the University will be holding a number of Postgraduate Open Afternoons (https://www.keele.ac.uk/visiting/postgraduateopenafternoons/) to give prospective students the opportunity to visit the campus and learn more about Keele and postgraduate life in general. Please visit the Postgraduate Open Afternoons web page for more information.

Entry requirements:
Because this is a “conversion” course you need not have an engineering degree to apply. You must have a STEM (Science, Technology, Engineering or Mathematics) based degree, but that could be anything from Biomedical Science, through Forensic Science, to Computer Science. Of course, if you have an engineering degree you can still apply.

We welcome applications with a first or second-class degree (or equivalent) in a STEM (Science, Technology, Engineering or Mathematics) discipline. We also welcome enquiries from people with other professional qualifications acceptable to the University.

We recommend applicants discuss their first degree with the course tutor before applying to ensure that this course meets personal aspirations.

For international applicants, an English language IELTS score of 6.5 is required.

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Take advantage of one of our 100 Master’s Scholarships to study Applied Analytical Science (LCMS) 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 Applied Analytical Science (LCMS) 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.

World demand for mass spectrometry and chromatography has grown at an unprecedented rate, with qualified graduates in short supply and highly sought after. Swansea is the only UK institution to offer a range of schemes solely dedicated to these topics, drawing upon expertise in the Institute of Mass Spectrometry (IMS), based at a long established UK centre of excellence. The MSc in Applied Analytical Science (LCMS) includes fundamentals of MS and chromatography with key industrial topics covering ‘-omics’, pharmaceutical, environmental and forensic analysis, data handling, professional management and good laboratory practice (GLP). The unique combination of industry participation and content on the Applied Analytical Science (LCMS) programme provides a vocationally-relevant qualification with invaluable training and experience sought in the UK and worldwide.

Professional Accreditation

We are pleased to announce that the Royal Society of Chemistry (RSC) has accredited the “MSc in Applied Analytical Science (LCMS)” for satisfying the academic requirements of the award of CHARTERED CHEMIST (CChem) from 2015 and awarded to qualifying students. Accreditation of Postgraduate schemes have only recently been undertaken by the RSC and our scheme is one of the first to achieve accreditation.

Key Features

Course content for the Applied Analytical Science (LCMS) programme is designed for the needs of industry: Essential topics such as fundamentals of mass spectrometry and separation science, professional management of laboratory practice, data analysis and method development plus industrially-current applications areas.

Extensive training in a research-led Institute: To improve their analytical science skills to professional levels required for the workplace.

Highly practical course and extensive in-house equipment: MSc students can experience more in-depth and ‘hands-on’ learning than most current analytical MSc programmes. Additional sessions including experiment design, health and safety, and laboratory skills are held in preparation of the research project, to ensure students are adequately equipped for project work.

Many taught modules encourage problem solving skills, involving relevant simulated (pre-existing) scenarios: To develop analytical thinking, professional and academic skills through advanced practical and theoretical studies and the submission of a scientifically defensible dissertation.

Participation of expert industrial guest lecturers: Unique opportunities to network with potential employers and enhanced employability prospects in highly skilled and relevant areas such as pharmaceuticals, agriculture, food and nutrition, homeland security, clinical diagnostics, veterinary and forensic science, environmental analysis, plus marketing and sales, to name a few.

Assessment that encourage transferrable skills essential for employment: Including case studies, presentations, problem sheets, data processing and informatics exercises in addition to the traditional examinations and essay based assignments.

Modules

Modules on the Applied Analytical Science (LCMS) programme typically include:

• Mass spectrometry – basics and fundamentals
• Separation science and sample handling
• Data analysis and method development
• Professional management and laboratory practice
• Proteomics
• Pharmaceutical
• Environmental and forensic analysis
• Medical and life sciences
• Metabolomics, lipidomics and bioactive lipids
• Data analysis and method development
• Dissertation: MS experimental project

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This programme is the first taught Masters programme in medical visualisation in the UK. Offered jointly by the University of Glasgow and the Glasgow School of Art, it combines actual cadaveric dissection with 3D digital reconstruction, interaction and visualisation. Read more
This programme is the first taught Masters programme in medical visualisation in the UK. Offered jointly by the University of Glasgow and the Glasgow School of Art, it combines actual cadaveric dissection with 3D digital reconstruction, interaction and visualisation.

Why this programme

-You will examine human anatomy and reconstruct it in a real-time 3D environment for use in education, simulation, and training.
-You will have access to the largest stereo 3D lab in Europe, and its state-of-the-art facilities such as laser scanner (for 3D data acquisition), stereo 3D projection, full body motion capture system, haptic devices and ambisonic sound.
-You will also have access to the Laboratory of Human Anatomy at the University of Glasgow, one of the largest in Europe.
-The programme has excellent industry connections through research and commercial projects and there are possible internship opportunities. You will benefit from guest lectures by practitioners, researchers and experts from industry.
-This programme is accredited by the Institute of Medical Illustrators.

Programme structure

You will split your time between the Glasgow School of Art (Digital Design Studio) and the University of Glasgow (Laboratory of Human Anatomy). The programme is structured into three stages.

Stage One: digital technologies applied to medical visualisation (delivered by the Digital Design Studio at the Glasgow School of Art)
Core courses
-3D modelling and animation
-Applications in medical visualisation
-Volumetric and 3D surface visualisation
-Core research skills for postgraduates.

Stage Two: human anatomy (delivered by the Laboratory of Human Anatomy at the University of Glasgow).
Core courses
-Introduction to anatomy
-Structure and function of the human body
-Cadaveric dissection techniques.

In Stage Three you will complete a self-directed final project, supported throughout with individual supervision.

Career prospects

Career opportunities exist within the commercial healthcare device manufacturer, the public and private healthcare sectors, as well as in academic medical visualisation research. Students with medical, biomedical, anatomy, or health professional backgrounds will be able to gain 3D visualisation skills that will enhance their portfolio of abilities; students with computer science or 3D graphics background will be involved in the design and development of healthcare related products through digital technology, eg diagnostic and clinical applications, creating content involving medical visualisation, simulation, cardiac pacemakers, and biomechanically related products for implantation, such as knee, hip and shoulder joint replacements.

Here are some examples of roles and companies for our graduates:
-Interns and Clinical Assistants at Toshiba Medical Visualisation Systems
-Research Prosector (GU)
-3D printing industry
-Demonstrators in Anatomy
-PhD studies - medical history, medical visualisation
-Medical School
-Dental School

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Take advantage of one of our 100 Master’s Scholarships to study Applied Analytical Science (LCMS) 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 Applied Analytical Science (LCMS) 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.

World demand for mass spectrometry (MS) and chromatography has grown at an unprecedented rate, with qualified graduates in short supply and highly sought-after. Postgraduate (PG) training is essential as undergraduates are not taught to the required depth. Swansea is the only UK institution to offer a range of schemes solely dedicated to these topics, drawing upon expertise in the Institute of Mass Spectrometry (IMS), based at a long established UK centre of excellence.

Key Features

Course content designed for the needs of industry:

Essential topics such as fundamentals of mass spectrometry and separation science, professional management of laboratory practice, data analysis and method development.

Extensive training in a research-led Institute:

To improve their analytical science skills to professional levels required for the workplace.

Highly practical course and extensive in-house equipment:

MRes Applied Analytical Science (LCMS) students can experience more in-depth and ‘hands-on’ learning than most current analytical MRes programmes. Additional sessions including experiment design, health and safety, and laboratory skills are held in preparation of the research project, to ensure students are adequately equipped for project work.

Taught modules encourage problem solving skills, involving relevant simulated (pre-existing) scenarios:

To develop analytical thinking, professional and academic skills through advanced practical and theoretical studies and the submission of a scientifically defensible thesis.

Participation of expert industrial guest lecturers:

Unique opportunities to network with potential employers and enhanced employability prospects in highly skilled and relevant areas such as pharmaceuticals, agriculture, food and nutrition, homeland security, clinical diagnostics, veterinary and forensic science, environmental analysis, plus marketing and sales, to name a few.

Assessments that encourage transferrable skills essential for employment:

Including case studies, problem sheets, data processing and informatics exercises in addition to the traditional examinations and essay based assignments.

Modules

All MRes Applied Analytical Science (LCMS) students will complete the following taught modules:

Mass spectrometry – basics and fundamentals
Separation science and sample handling
Data analysis and method development
Professional management and laboratory practice

MRes students will also be expected to complete a 120 credit research thesis with a viva.

Professional Accreditation

Professional Development (PD) Portfolio

This will enable students to organise and highlight current competencies and training needs into a single document. This can be essential in documenting necessary requirements for continued professional development with a relevant professional body (i.e. Royal Society of Chemistry, RSC, CChem status).

A PD portfolio will typically contain:

- Educational training and experience

From external parties such as National Mass Spectrometry Facility (NMSF), industrial guest lecturers, and educational exercises recognised by the RSC.

- Practical/instrument training and experience

From external parties such as NMSf and instrument manufacturers.

- Research training and experience

MRes project - health and safety, project training, laboratory practice competency framework test and research

- Qualifications

Plus any affiliations and CV.

This will be an organised and detailed record of competencies for presenting to prospective employers with the potential to offer Swansea University (SU) PG students an edge in ensuring gainful relevant employment.

Accreditation.

An application to the Royal Society of Chemistry will be submitted after the first year of study.

Careers and Employability

Course content designed for the needs of industry

Fundamentals of mass spectrometry and separation science, professional management of laboratory practice, data analysis and method development.

Extensive training in a research-led Institute

Highly practical course and extensive in-house equipment

Experience more in-depth and ‘hands-on’ MRes than most Applied Analytical Science courses.

Taught modules encourage problem solving skills, involving relevant simulated (pre-existing) scenarios

Assessments that encourage transferrable skills essential for employment

Professional Development (PD) Portfolio

Participation of expert industrial guest lecturers

Unique networking opportunities with relevant potential employers for enhanced employability in areas such as:

- Pharmaceuticals

- Food and Nutrition

- Clinical diagnostics

- Forensics

- Environment

- Agriculture

- Homeland security

- Marketing and sales

- Veterinary

- Cosmology

- Geology

- Textile manufacture

- Archaeology

Facilities

Applied Analytical Science graduates will be extensively trained in a research-led institute. The highly practical nature of the course and extensive in-house equipment will enable students to experience a more in-depth and 'hands-on' MRes than most current analytical courses.

Instrumentation/techniques within IMS include:

Liquid chromatography/high resolution tandem mass spectrometry (LC/HRMS and LC/HRMSn)
Liquid chromatography/mass spectrometry (LC/MSn); low resolution MS.
Nano-liquid chromatography/mass spectrometry (nano-LC/MS)
Gas chromatography/mass spectrometry (GC/MS)
Liquid chromatography/ultraviolet spectrophotometry (LC/UV)
Liquid chromatography/diode array (LC/DAD)
Electrospray ionisation-mass spectrometry (ESI-MS)
Atmospheric pressure chemical ionisation-mass spectrometry (APCI-MS)
Electron ionisation-mass spectrometry (EI-MS)
Chemical ionisation-mass spectrometry (CI-MS)
Liquid secondary ion-mass spectrometry (LSI-MS i.e. ‘Fast Atom Bombardment’, FAB),
Matrix-assisted laser desorption/ionisation-mass spectrometry (MALDI-MS)

We routinely carry out a number of sample preparation techniques including:

Solid phase extraction (SPE)
Liquid-liquid extraction (LLE)
Electrophoretic techniques
Affinity extraction
Ion-exchange
Precipitation

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The Centre for Anatomy & Human Identification provides a wide range of modules in key aspects of Medical Art and Forensic Art & Facial Identification which are offered on a stand-along basis. Read more
The Centre for Anatomy & Human Identification provides a wide range of modules in key aspects of Medical Art and Forensic Art & Facial Identification which are offered on a stand-along basis.

These modules enable the student to develop specialist expertise or perhaps refresh knowledge.

Our academic staff offer postgraduate modules in their specialist areas, therefore, students are taught by experts in the field.

What's so good about this course at Dundee?

Students benefit from the facilities of a well-established art college, whilst appreciating the newly-refurbished laboratories, a dedicated library and access to human material in a modern medical science environment.

The award-winning staff in the Centre for Anatomy and Human Identification (CAHID) are amongst the most experienced in the UK in the fields of human identification, forensic anthropology, craniofacial identification and the study of the human body. The core remit of the Centre is the study of anatomy and staff deliver high quality anatomy teaching at all levels, via whole body dissection which allows students to develop a sound knowledge of the human body.

The Centre was awarded a prestigious Queen's Anniversary Prize for Higher Education in November 2013. Presented in recognition of 'world class excellence', the Queen’s Anniversary Prizes are among the most highly-regarded awards for the UK’s universities and colleges.

Teaching & Assessment

The modules are delivered through traditional lectures, dissection, study groups and anatomical illustration workshops. These will be supplemented with tutorials to allow for small and large group-based discussion as well as life drawing critique sessions.

-Core modules
Anatomy for Artists
Medical Art 1: Image Capture and Creation
Medical Art 2: Communication and Education
Forensic Facial Imaging, Analysis and Comparison
Forensic Art

Progression

These modules form part of our postgraduate portfolio. You can continue from a single module to a Postgraduate Certificate, by combining the modules as follows:

Anatomy for Artists
Medical Art 1: Image Capture and Creation
Medical Art 2: Communication and Education (requires completion of Medical Art 1 or prior professional experience)
Upon completion of all three a PGCert in Medical Art will be awarded

Anatomy for Artists
Forensic Facial Imaging, Analysis and Comparison
Forensic Art (requires completion of Forensic Facial Imaging, Analysis and Comparison or prior professional experience)
Upon completion of all three a PGCert in Forensic Art and Facial Identification will be awarded.

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The Master of Science (M.Sc) in Medical Visualization is a new one-year taught postgraduate programme offered by the Digital Design Studio at The Glasgow School of Art in collaboration with the Laboratory of Human Anatomy, University of Glasgow. Read more
The Master of Science (M.Sc) in Medical Visualization is a new one-year taught postgraduate programme offered by the Digital Design Studio at The Glasgow School of Art in collaboration with the Laboratory of Human Anatomy, University of Glasgow.

The purpose of this programme is to create a unique opportunity to combine actual cadaveric dissection with 3D digital reconstruction, interaction and visualisation using state of the art virtual reality facilities. It allows a unique opportunity to examine human anatomy, and to reconstruct it in a real-time 3D environment for use in education, simulation, and training. This programme will enable students to create original medical datasets, allow a greater understanding of “normal” anatomy, regional variations, and provide a novel approach to aid multi-disciplinary fields in anatomical knowledge, understanding, training and skills transfer. With the demand from clinicians of anatomical knowledge of students increasing (as a result in changes to medical and dental curricula) this Masters programme provides an ideal opportunity for enhancement of research into human anatomy, diagnostics, simulation, and visualisation.

Students undertaking the

MSc in Medical Visualisation and Human Anatomy

programme will split their time equally between the University of Glasgow (Laboratory of Human Anatomy) and the Glasgow School of Art (Digital Design Studio). The programme is delivered as two core areas – digital technologies applied to medical visualisation (delivered by the Digital Design Studio at Stage 1) and human anatomy (delivered by the Laboratory of Human Anatomy at Stage 2). In Stage 3, students work towards a large-scale self directed final project, supported throughout by individual supervision.

Subsequent career opportunities exist within the commercial healthcare technology industry (device manufacturer, etc.), the public and private healthcare sectors, as well as in academic medical visualisation research. Career outcomes for the students with medical, biomedical, anatomy, or health professional backgrounds will be able to gain 3D visualisation skills that will enhance their portfolio of abilities; students with computer science or 3D graphics background will be involved in the design and development of healthcare related products through digital technology, e.g. diagnostic and clinical applications, creating content involving medical visualisation, simulation, cardiac pacemakers, and biomechanically related products for implantation, such as knee, hip and shoulder joint replacements.

Although just one intake per year in September, students can attend this programme on a part-time basis.

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Research degrees may be undertaken in the three main areas of research interest in the Laboratory. The growing number of academic staff are supported in their research by the technical staff and post-doctoral research fellows. Read more
Research degrees may be undertaken in the three main areas of research interest in the Laboratory. The growing number of academic staff are supported in their research by the technical staff and post-doctoral research fellows.

We make every attempt to allocate you to a supervisor directly in your field of interest, consistent with available funding and staff loading. When you apply, please give specific indications of your research interest – including, where appropriate, the member(s) of staff you wish to work with – and whether you are applying for a studentship or propose to be self-funded.

Visit the website https://www.kent.ac.uk/courses/postgraduate/18/chemistry

About The School of Physical Sciences

The School offers postgraduate students the opportunity to participate in groundbreaking science in the realms of physics, chemistry, forensics and astronomy. With strong international reputations, our staff provide plausible ideas, well-designed projects, research training and enthusiasm within a stimulating environment. Recent investment in modern laboratory equipment and computational facilities accelerates the research.

The School maintains a focus on progress to ensure each student is able to compete with their peers in their chosen field. We carefully nurture the skills, abilities and motivation of our students which are vital elements in our research activity. We offer higher degree programmes in chemistry and physics (including specialisations in forensics, astronomy and space science) by research. We also offer taught programmes in Forensic Science, studied over one year full-time, and a two-year European-style Master’s in Physics.

Our principal research covers a wide variety of topics within physics, astronomy and chemistry, ranging from specifically theoretical work on surfaces and interfaces, through mainstream experimental condensed matter physics, astrobiology, space science and astrophysics, to applied areas such as biomedical imaging, forensic imaging and space vehicle protection. We scored highly in the most recent Research Assessment Exercise, with 25% of our research ranked as “world-leading” and our Functional Materials Research Group ranked 2nd nationally in the Metallurgy and Materials discipline.

Research areas

- Applied Optics Group (AOG):

Optical sensors
This activity largely covers research into the fundamental properties of guided wave interferometers, and their application in fields ranging from monitoring bridge structures to diagnostic procedures in medicine.

Biomedical imaging/Optical coherence tomography (OCT)
OCT is a relatively new technique which can provide very high-resolution images of tissue, and which has a major application in imaging the human eye. We are investigating different time domain and spectral domain OCT configurations.

The Group is developing systems in collaboration with a variety of different national and international institutions to extend the OCT capabilities from systems dedicated to eye imaging to systems for endoscopy, imaging skin and tooth caries. Distinctively, the OCT systems developed at Kent can provide both transverse and longitudinal images from the tissue, along with a confocal image, useful in associating the easy to interpret en-face view with the more traditional OCT cross section views.

The Group also conducts research on coherence gated wavefront sensors and multiple path interferometry, that extend the hardware technology of OCT to imaging with reduced aberrations and to sensing applications of optical time domain reflectometry.

- Forensic Imaging Group (FIG):

The research of the forensic imaging team is primarily applied, focusing on mathematical and computational techniques and employing a wide variety of image processing and analysis methods for applications in modern forensic science. The Group has attracted approximately £850,000 of research funding in the last five years, from several academic, industrial and commercial organisations in the UK and the US. The Group also collaborates closely with the Forensic Psychology Group of the Open University.

Current active research projects include:

- the development of high-quality, fast facial composite systems based on evolutionary algorithms and statistical models of human facial appearance

- interactive, evolutionary search methods and evolutionary design

- statistically rigorous ageing of photo-quality images of the human face (for tracing and identifying missing persons)

- real and pseudo 3D models for modelling and analysis of the human face

- generating ‘mathematically fair’ virtual line-ups for suspect identification.

- Functional Materials Group (FMG):
The research in FMG is concerned with synthesis and characterisation of functional materials, as exemplified by materials with useful optical, catalytic, or electronic properties, and with an
emerging theme in biomaterials. The Group also uses computer modelling studies to augment
experimental work. The research covers the following main areas:

- Amorphous and nanostructured solids
- Soft functional material
- Theory and modelling of materials

- Centre for Astrophysics and Planetary Science (CAPS):
The group’s research focuses on observational and modelling programmes in star formation, planetary science and early solar system bodies, galactic astronomy and astrobiology. We gain data from the largest telescopes in the world and in space, such as ESO’s Very Large Telescope, the New Technology Telescope, the Spitzer Space Telescope and the Herschel Space Observatory. We also use our in-house facilities which include a two-stage light gas gun for impact studies.

Staff are involved in a wide range of international collaborative research projects. Areas of particular interest include: star formation, extragalactic astronomy, solar system science and instrumentation development.

Careers

All programmes in the School of Physical Sciences equip you with the tools you need to conduct research, solve problems, communicate effectively and transfer skills to the workplace, which means our graduates are always in high demand. Our links with industry not only provide you with the opportunity to gain work experience during your degree, but also equip you with the general and specialist skills and knowledge needed to succeed in the workplace.

Typical employment destinations for graduates from the physics programmes include power companies, aerospace, defence, optoelectronics and medical industries. Typical employment destinations for graduates from our forensic science and chemistry programmes include government agencies, consultancies, emergency services, laboratories, research or academia.

Find out how to apply here - https://www.kent.ac.uk/courses/postgraduate/apply/

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Research degrees may be undertaken in the three main areas of research interest in the Laboratory. The growing number of academic staff are supported in their research by the technical staff and post-doctoral research fellows. Read more
Research degrees may be undertaken in the three main areas of research interest in the Laboratory. The growing number of academic staff are supported in their research by the technical staff and post-doctoral research fellows.

We make every attempt to allocate you to a supervisor directly in your field of interest, consistent with available funding and staff loading. When you apply, please give specific indications of your research interest – including, where appropriate, the member(s) of staff you wish to work with – and whether you are applying for a studentship or propose to be self-funded.

Visit the website https://www.kent.ac.uk/courses/postgraduate/212/physics

About The School of Physical Sciences

The School offers postgraduate students the opportunity to participate in groundbreaking science in the realms of physics, chemistry, forensics and astronomy. With strong international reputations, our staff provide plausible ideas, well-designed projects, research training and enthusiasm within a stimulating environment. Recent investment in modern laboratory equipment and computational facilities accelerates the research.

The School maintains a focus on progress to ensure each student is able to compete with their peers in their chosen field. We carefully nurture the skills, abilities and motivation of our students which are vital elements in our research activity. We offer higher degree programmes in chemistry and physics (including specialisations in forensics, astronomy and space science) by research. We also offer taught programmes in Forensic Science, studied over one year full-time, and a two-year European-style Master’s in Physics.

Our principal research covers a wide variety of topics within physics, astronomy and chemistry, ranging from specifically theoretical work on surfaces and interfaces, through mainstream experimental condensed matter physics, astrobiology, space science and astrophysics, to applied areas such as biomedical imaging, forensic imaging and space vehicle protection. We scored highly in the most recent Research Assessment Exercise, with 25% of our research ranked as “world-leading” and our Functional Materials Research Group ranked 2nd nationally in the Metallurgy and Materials discipline.

Study support

- Postgraduate resources

The University has good facilities for modern research in physical sciences. Among the major instrumentation and techniques available on the campus are NMR spectrometers (including solutions at 600 MHz), several infrared and uvvisible spectrometers, a Raman spectrometer, two powder X-ray diffractometers, X-ray fluorescence, atomic absorption in flame and graphite furnace mode, gel-permeation chromatography, gaschromatography, analytical and preparative highperformance liquid chromatography (including GC-MS and HPLC-MS), mass spectrometry (electrospray and MALDI), scanning electron microscopy and EDX, various microscopes (including hot-stage), differential scanning calorimetry and thermal gravimetric analysis, dionex analysis of anions and automated CHN analysis. For planetary science impact studies, there is a two-stage light gas gun.

- Interdisciplinary approach

Much of the School’s work is interdisciplinary and we have successful collaborative projects with members of the Schools of Biosciences, Computing and Engineering and Digital Arts at Kent, as well as an extensive network of international collaborations.

- National and international links

The School is a leading partner in the South East Physics Network (SEPnet), a consortium of seven universities in the south-east, acting together to promote physics in the region through national and international channels. The School benefits through the £12.5 million of funding from the Higher Education Funding Council for England (HEFCE), creating new facilities and resources to enable us to expand our research portfolio.

The School’s research is well supported by contracts and grants and we have numerous collaborations with groups in universities around the world. We have particularly strong links with universities in Germany, France, Italy and the USA. UK links include King’s College, London and St Bartholomew’s Hospital, London. Our industrial partners include British Aerospace, New York Eye and Ear Infirmary, and Ophthalmic Technology Inc, Canada. The universe is explored through collaborations with NASA, ESO and ESA scientists.

- Dynamic publishing culture

Staff publish regularly and widely in journals, conference proceedings and books. Among others, they have recently contributed to: Nature; Science; Astrophysical Journal; Journal of Polymer Science; Journal of Materials Chemistry; and Applied Optics.

- Researcher Development Programme

Kent's Graduate School co-ordinates the Researcher Development Programme (http://www.kent.ac.uk/graduateschool/skills/programmes/tstindex.html) for research students, which includes workshops focused on research, specialist and transferable skills. The programme is mapped to the national Researcher Development Framework and covers a diverse range of topics, including subjectspecific research skills, research management, personal effectiveness, communication skills, networking and teamworking, and career management skills.

Careers

All programmes in the School of Physical Sciences equip you with the tools you need to conduct research, solve problems, communicate effectively and transfer skills to the workplace, which means our graduates are always in high demand. Our links with industry not only provide you with the opportunity to gain work experience during your degree, but also equip you with the general and specialist skills and knowledge needed to succeed in the workplace.

Typical employment destinations for graduates from the physics programmes include power companies, aerospace, defence, optoelectronics and medical industries. Typical employment destinations for graduates from our forensic science and chemistry programmes include government agencies, consultancies, emergency services, laboratories, research or academia.

Find out how to apply here - https://www.kent.ac.uk/courses/postgraduate/apply/

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Sunderland is the only university in the north of England to offer an Overseas Pharmacist Assessment Programme (OSPAP) that is accredited by the General Pharmaceutical Council. Read more
Sunderland is the only university in the north of England to offer an Overseas Pharmacist Assessment Programme (OSPAP) that is accredited by the General Pharmaceutical Council.

Course overview

Pharmaceutical Sciences for the Overseas Pharmacist Assessment Programme (OSPAP) is designed for those who are qualified pharmacists outside the European Economic Area and who are now looking to become registered pharmacists in the UK.

Our course is one of a small number of courses that are accredited by the General Pharmaceutical Council. Their accreditation is based on quality reviews that ensure Sunderland is meeting the required standards.

Completing the OSPAP postgraduate diploma allows for entry to the next stages of registering as a pharmacist in the UK: firstly, 52 weeks of supervised training in employment; secondly, a registration assessment.

Once all these stages are successfully completed, and assuming you have the necessary visa and work permit, you would be in a position to apply for roles as a practising pharmacist in the UK. There is virtually no unemployment of registered pharmacists in the UK.

You can also apply to undertake a Masters research project in addition to your postgraduate diploma. Pharmacy is a particular area of strength at the University of Sunderland and our Department has been teaching the subject since 1921.

Course content

The content of this course reflects the accreditation requirements of the General Pharmaceutical Council.

Modules on the course include:
-Pharmacy, Law, Ethics and Practice (60 Credits)
-Clinical Therapeutics (60 Credits)
-Research Methods for Pharmaceutical Practice and Masters Research Project (60 Credits)

Teaching and assessment

We use a wide variety of teaching and learning methods which include lectures, debate sessions, online learning packages, tutorials and seminars.

Compared to an undergraduate course, you will find that this Masters requires a higher level of independent working. Assessment methods include end-of-year examinations, practical assessments as well as assignments throughout the year.

Facilities & location

This course is based in the Sciences Complex at our City Campus, which boasts multi-disciplinary laboratories and cutting-edge equipment thanks to multi-million pound investments.

Facilities for Pharmaceutics
We have pharmaceutical-related equipment for wet granulation, spray drying, capsule filling, tablet making, mixing inhalation, film coating and freeze drying.

As well as standard pharmacopoeial test methods, such as dissolution testing, friability and disintegration, we also offer highly sophisticated test methods. These include rheometry, thermal analysis (differential scanning calorimetry and hot stage microscopy), tests for powder flow, laser diffraction, photon correlation spectroscopy, image analysis and laser confocal microscopy.

Facilities for Medicinal Chemistry
Our state-of-the-art spectroscopic facility allows us to confirm the structures of new molecules that could be potential pharmaceutical products and to investigate the structures of potential medicinal substances that have been isolated from plants.

We are equipped with Liquid Chromatography-Nuclear Magnetic Resonance and Mass Spectroscopy (LCNMR/MS) platforms; this is an exceptional facility for a university. We also have low and high resolution mass spectrometry, nuclear magnetic resonance and elemental analysis equipment.

Our facilities allow you to gain hands-on experience of a wide range of analytical techniques such as atomic absorption spectroscopy and infra-red spectroscopy, which are of great importance in determining both ionic/metal content of pharmaceuticals and simple chemical structures.

You will also gain experience of revolutionary protein and DNA separation techniques, as well as Ultra High Performance Liquid Chromatography and Gas Chromatography for separating unknown chemical mixtures.

Facilities for Pharmacology
Our highly technical apparatus will give you first-hand experience of the principles of drug action and the effects of drugs on pharmacological and cellular models. As a result, you gain a better understanding of the effects of drugs on specific receptors located throughout the human body and related physiological effects.

Simulation technology
You’ll have the opportunity to apply your training in a realistic setting with our two advanced simulation technology ‘SimMan’ models.
Each of our £57,000 SimMan mannequins has blood pressure, a pulse and other realistic physiological behaviour. The models can be pre-programmed with various medical scenarios, so you can demonstrate your pharmacological expertise in a realistic yet safe setting. Our academic team is also actively working with the SimMan manufacturers to develop new pharmacy simulations.

Pharmacy Practice
One of the most important skills of pharmacists is to communicate their expertise in a manner that the public can understand and accept.

The University has invested in a purpose-built model pharmacy complete with consultation suite. This allows you to develop skills in helping patients take the correct medicine in the right way, with optional video recording of your interaction with patients for the purposes of analysis and improvement.

In addition, we can accurately simulate hospital-based scenarios in a fully equipped ward environment where medical, nursing and pharmacy students can share learning.

University Library Services
We’ve got thousands of books and e-books on pharmaceutical and biomedical science, with many more titles available through the inter-library loan service. We also subscribe to a comprehensive range of print and electronic journals so you can access the most reliable and up-to-date academic and industry articles.

Some of the most important sources for your studies include:
-Embase, which is a complex database covering drug research, pharmacology, pharmaceutics, toxicology, clinical and experimental human medicine, health policy and management, public health, occupational health, environmental health, drug dependence and abuse, psychiatry, forensic medicine and biomedical engineering/instrumentation
-PubMed, which contains life science journals, online books and abstracts that cover fields such as medicine, nursing, dentistry, veterinary medicine and health care
-Science Direct, which offers more than 18,000 full-text journals published by Elsevier
-Web of Science, which covers a broad range of science areas

Learning Environment
Sunderland Pharmacy School has a rich heritage in scientific studies and our degree courses are extremely well respected in the industry. We are fully plugged into relevant medical and pharmaceutical industry bodies, with strong links and an exchange of ideas and people. Our vibrant learning environment helps ensure a steady stream of well-trained pharmacists whose most important concern is patient-centred pharmaceutical care.

Employment & careers

On completing this course you can register and practise in the UK as a qualified pharmacist. An entry-level pharmacist usually starts within Band 5 of the NHS pay rates (up to around £28,000). Advanced pharmacists, consultants, team managers and managers of pharmaceutical services are rated as Bands 8-9 and can earn up to £99,000. Currently there is virtually no unemployment of qualified pharmacists. Typical starting salaries for community pharmacists range from £21,000 to £35,000 depending on location, conditions of employment and experience.

Most pharmacists work in the following areas:
Community pharmacy: this involves working in pharmacies on high streets or in large stores. You will dispense prescriptions, deal with minor ailments, advise on the use of medicines and liaise with other health professionals.

Hospital pharmacy: this involves the purchasing, dispensing, quality testing and supply of medicines used in hospitals.

Primary care: this involves working in General Practice surgeries, either as an employee of the Practice or the Primary Care Trust. Roles include Medicines Management Pharmacists, who are responsible for prescribing budgets and the development of prescribing directives.

Secondary care: this involves working in hospitals to supply medicines, manage clinics, provide drug information and prescribe medicines.

Industrial pharmacists are involved in areas such as Research & Development, Quality Assurance and product registration.
Research degrees can be undertaken in many aspects of pharmacy. Sunderland Pharmacy School offers excellent facilities and a wide range of research expertise.

You can also work in areas of the pharmaceutical industry, medical writing and in education. By completing a Masters project in addition to your OSPAP postgraduate diploma it will enhance opportunities in academic roles or further study towards a PhD.

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