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This course is designed for scientists who wish to develop their skills in Drug Analysis and Toxicology. The involvement of industry in the design of the course and an industry-based project (limited number and subject to availability), maximise employment prospects. Read more
This course is designed for scientists who wish to develop their skills in Drug Analysis and Toxicology.

The involvement of industry in the design of the course and an industry-based project (limited number and subject to availability), maximise employment prospects. Students on the MSc Instrumental Analytical Science Drug Analysis and Toxicology course will benefit from the use of modern analytical equipment, study visits, guest lecturers and workshops. Research activities within the University underpin the coursework.

Visit the website http://www.rgu.ac.uk/sports-biomedical-and-laboratory-sciences/study-options/postgraduate/ias-drug-analysis-and-toxicology-ft

Semester 1

•Professional Skills & Techniques
•Separation, Electroanalysis and Microscopy
•Spectroscopy
•Laboratory Work

Semester 2

•Drug Analysis and Toxicology
•Contemporary Techniques/Analytical Problem Solving
•Project Preparation

Semester 3

•MSc Research Project

Award: MSc Instrumental Analytical Sciences Drug Analysis and Toxicology

Assessment

The course is assessed by a number of different module specific methods, ranging from exams, coursework, presentation, Thesis compilation and oral defence.

Placements and accreditations

The MSc was designed in liaison with Industry and as such there is a strong emphasis on the applied analytical techniques used within the analytical sector.

A limited number of our MSc research projects are undertaken externally.

Careers

Industrial demand for graduates from the course is consistently high. The MSc project also allows you to make invaluable links with our industrial partners. You may also want to consider a research post or other training opportunities in universities. Previous posts taken up by graduates include: analytical chemist; bioanalyst; development chemist; production chemist; environmental officer; research scientist; scientific officer; applications chemist; and drug development analyst.

How to apply

To find out how to apply, use the following link: http://www.rgu.ac.uk/applyonline

Funding

For information on funding, including loans, scholarships and Disabled Students Allowance (DSA) please click the following link: http://www.rgu.ac.uk/future-students/finance-and-scholarships/financial-support/uk-students/postgraduate-students/postgraduate-students/

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Pharmacy at Sunderland is ranked sixth in the country, according to The Guardian University Guide 2013. Read more
Pharmacy at Sunderland is ranked sixth in the country, according to The Guardian University Guide 2013.

Course overview

Do you want to contribute to the discovery and development of drugs that could potentially improve the health and well-being of millions of people? The UK has long been a leader in this complex technical area, in which each new drug requires around $1 billion of development work.

Our research-led teaching and state-of-the-art facilities make the University of Sunderland one of the UK's top locations for pharmaceutical science. Our strong links with the pharmaceutical industry ensure a flow of guest speakers and good contacts for your chosen Masters project/dissertation. Previous projects have involved collaborations with companies such as AstraZeneca, Pfizer and Helena Biosciences.

The course covers advanced pharmaceutics, pharmaceutical analysis, drug design, pharmacology, proteomics and pharmacogenomics. You will also cover regulatory processes for medicines, in line with ICH guidelines. The course is a direct response to employers’ search for postgraduates who have a mix of theoretical and practical skills and who will push boundaries in drug development.

With a Masters course, it’s important to consider the relevance of the research interests of tutors who will supervise your dissertation. At Sunderland, our interests include pharmaceutical analysis, process chemistry, various drug discovery programmes, and drug delivery systems, including those for large biological pharmaceuticals. Our academic team have produced some ‘world-leading’ research, according to the latest Research Excellence Framework (2014).

Course content

The course mixes taught elements with self-directed research. The topic of the project / dissertation is negotiated to fit both your personal interests and the expertise of Sunderland's supportive tutors. Modules on this course include:
Core modules
-Essential Research and Study Skills (20 Credits)
-Fundamentals for Pharmaceutical Science (20 Credits)
-The Pharmaceutical R&D Cycle and its Regulation (20 Credits)

Choose four out of the five following modules
-Advanced Pharmacology (15 Credits)
-Pharmacogenomics and Proteomics (15 Credits)
-Advanced Pharmaceutical Analysis (15 Credits)
-Advanced Drug Design (15 Credits)
-Advanced Pharmaceutics (15 Credits)

Choose one Masters option
-Double Project (60 Credits)
Or
-Double Dissertation (60 Credits)
Or
-Single Project (30 Credits) and Single Dissertation (30 Credits)

Teaching and assessment

We use a wide variety of teaching and learning methods which include lectures, seminars, open learning, laboratory work and group work.

The Masters project may involve collaboration with a pharmaceutical company. Previous projects have involved collaborations with companies such as AstraZeneca, Pfizer and Helena Biosciences.

Compared to an undergraduate course, you will find that this Masters requires a higher level of independent working and problem solving. Assessment methods include laboratory reports, oral presentations, case studies, critical reviews, examinations and the Masters project.

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 (LC-NMR/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 respectively. You will also gain experience of revolutionary protein and DNA separation techniques, as well as Ultra High Performance Liquid Chromatography (x8) and Gas Chromatography for separating all kinds of samples of pharmaceutical or biomedical interest.

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.

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
-PsycINF, which includes information about the psychological aspects of medicine, psychiatry, nursing, sociology, pharmacology and physiology
-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. Your Masters project may involve collaboration with a pharmaceutical company, including working at their sites.

Employment & careers

Graduates from this course can pursue a variety of careers in the following areas; Drug Design, Pharmaceutical Analysis and Research, Pre-clinical Research in Experimental and Biological Studies, Formulation and Product Development, Pharmacogenomics and Proteomics, Clinical Research, Product Registration, Licensing and Regulatory Affairs.

Previous Sunderland graduates have been employed in companies such as GSK, Eisai, Reckitt Benckiser, Merck, Sharp & Dohme and Norbrook Laboratories.

Some students may apply for a PhD programme or those who already hold a Pharmacy degree can pursue MSc/PG Pharmaceutical Sciences for the Overseas Pharmacist Assessment Programme (OSPAP) and go through one-year pre-registration training.

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Designed with industry input, and with industry placement opportunities available, this programme prepares you for a career in the pharmaceutical industry or in academic research. Read more
Designed with industry input, and with industry placement opportunities available, this programme prepares you for a career in the pharmaceutical industry or in academic research.

About the programme

The programme – which reflects the approaches taken by modern pharmaceutical companies – provides theoretical and practical training in the strategies and techniques by which novel drugs are designed. This involves the study of synthetic chemistry, medicinal chemistry, pharmacology, and chemical analysis. The latest strategies and technologies involved in the discovery and testing of novel
drug candidates are explored.

Practical experience

You may take a work-based learning module involving industry placement for approximately one day per week during the second trimester. Placements will be with pharmaceutical, chemical or bioscience companies.

Your learning

The MSc consists of six taught modules over two trimesters followed by a substantial research project.

Core modules include:
• Drug Discovery and Development
• Drug Research Methods
• Computer-Aided Drug Design
• Preclinical Drug Testing
• MSc Science Research Project
• Pharmaceutical Synthesis

Optional modules:
• Placement Learning
• Drug Design and Development

MSc

You will conduct a research project to complete the MSc, involving the application of knowledge and practical techniques covered in the modules. There are various exciting research projects ongoing in this area, including testing of potential anti-tumour agents, and enkephalin analogs, design and synthesis of opioidmimetics, and compounds used against Alzheimer’s disease.

Our Careers Adviser says

UWS graduates possess expert knowledge and practical experience of the most relevant techniques used in drug design and discovery, preparing you for a career in the pharmaceutical industry. Graduates will find employment in drug synthesis, computer-aided drug design, drug formulation and regulatory affairs.

Financial support

In session 2015/16 the Postgraduate Diploma element of this programme carried SAAS postgraduate loan funding for eligible students. Check http://www.saas.gov.uk for 2016/17 loan info.

Note: To obtain the MSc, students will usually take 9 months to gain the Postgraduate Diploma and then normally an additional 3 months of study to gain the MSc, from the date of commencement of the project.

First-class facilities

Get the hands on experience you need to succeed. We have excellent specialist facilities which support our research students and staff. These include an advanced chemical analysis lab: with state-of-theart chemical analysis for isotopic and elemental analysis at trace concentrations using ICPMS/OES and the identification of organic compounds using LCMS; and the Spatial and Pattern Analysis (SPAR) lab: providing high specification workstations, geographical information system (GIS) software, geochemical and image processing facilities to support data management in science research.

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Unique in Europe, this course combines biomedicine and pharmaceutical science to prepare you for a rewarding career in the pharmaceutical, bioscience or healthcare sectors. Read more
Unique in Europe, this course combines biomedicine and pharmaceutical science to prepare you for a rewarding career in the pharmaceutical, bioscience or healthcare sectors.

If you're interested in a career in the fascinating and challenging world of drug design, this is the course that will take you there.

Rather than presenting just one of the disciplines used in the field, this postgraduate degree, unique in Europe, blends the subjects you need - biomedicine and pharmaceutical science - into one comprehensive course that focuses on the integration of modern organomedicinal chemistry and molecular biology.

You’ll study various steps involved in developing and creating effective drugs, from concept to clinic, including the theories and practical applications of chemical drug design and immunology, pharmacology and molecular biology. Learning will be based on emergent technology from academic research and how it is applied to the drug development process, identification of drug targets, and development of effective drugs via reference to the relevant biological systems and pathways.

See the website http://www.napier.ac.uk/en/Courses/MSc-Drug-Design-and-Biomedical-Science-Postgraduate-FullTime

What you'll learn

This course provides the knowledge, understanding and practical experience you’ll need to forge a rewarding career in research and development in the pharmaceutical, bioscience or healthcare sectors. You’ll develop in-depth understanding of disease processes and molecular targets and an ability to apply this knowledge and theory to key aspects of drug design and biomedical science.

Equipped with the ability to follow developments in the field, you’ll learn to apply them to your work and make innovative contributions to the industry that will benefit others. Complex issues often arise in this field: you’ll acquire the skills necessary to make informed judgements and effectively communicate decisions.

There is an emphasis on developing your practical laboratory skills with various opportunities for hands-on experience in a range of current techniques and practices. In your final trimester you’ll undertake an independent project within a vibrant biomedical or drug design research team, allowing you to apply and further develop your technical, research and professional skills. There may be the opportunity to conduct your research project externally in a relevant organisation or industry in the UK or overseas.

You’ll also develop key skills including communication, problem solving, team work, project management, and leadership. You’ll learn through interactive lectures, workshops, tutorials, site visits and laboratory sessions, and by engaging with guided independent study. A variety of assessment tools are used to enhance and evaluate your learning.

This programme is also available as a Masters by Research: http://www.napier.ac.uk/research-and-innovation/research-degrees/courses

Modules

• Current practice in drug development
• Advanced immunology
• Molecular pharmacology and toxicology
• Research skills
• Quality Control and Pharmaceutical Analysis or Biotechnology and Drug Discovery
• Drug design and chemotherapy
• Research project

Study modules mentioned above are indicative only. Some changes may occur between now and the time that you study.

Careers

The rapidly developing pharmaceutical, bioscience and healthcare sectors all need qualified drug discovery or biomedical scientists. This course is your fastest and most effective route to a successful career in drug design.

You could establish a laboratory-based career with global pharmaceutical companies, developing biotechnology companies, contract drug testing, hospitals, NHS, local government or health and safety divisions.

Alternatively, further studies to PhD level are available at institutions all over the world leading to an academic career.

How to apply

http://www.napier.ac.uk/study-with-us/postgraduate/how-to-apply

SAAS Funding

Nothing should get in the way of furthering your education. Student Awards Agency Scotland (SAAS) awards funding for postgraduate courses, and could provide the help you need to continue your studies. Find out more: http://www.napier.ac.uk/study-with-us/postgraduate/fees-and-funding/saas-funded-courses

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The programme is based around the development of new medicines, including the design, disposition, delivery, action and use of drugs. Read more
The programme is based around the development of new medicines, including the design, disposition, delivery, action and use of drugs. Pharmaceutical Science is at the interface of biochemistry, physiology, pharmacology, toxicology and epidemiology. You will study drug development and design, legislation and regulation, drug analysis and quality control, biotechnology, pharmacology and toxicology. All students undertake a research project in a specialist topic, which develops the ability to collect original data and take into account previous work.

Programme structure

You will study core modules in Drug Design, Legislation and Regulation, and Research Skills. You will also have the option to study Toxicology, Molecular Pharmacology and Drug Development, Advanced Cellular Pharmacology and Physiology, Bioinformatics, or Drug Analysis. All students will undertake an independent research project.

You may also be interested in UEL's MSc Phytopharmaceutical Science programme.

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Enhance your depth and breadth of knowledge, understanding and practical skills with this Analytical Forensic Science Masters from Liverpool John Moores University. Read more
Enhance your depth and breadth of knowledge, understanding and practical skills with this Analytical Forensic Science Masters from Liverpool John Moores University. Prepare for analytical careers in forensics and beyond.

•Complete this masters degree in one year (full time)
•Study a curriculum informed by research and industry practice
•Benefit from LJMU’s investment in Analytical Chemistry, accessing cutting edge technology, state-of-the-art laboratories and new crime scene facilities
•Learn from analytical forensic chemists, molecular biologists, crime scene and fire investigation specialists and leading national experts
•Develop transferrable legal and research skills
•Enjoy extensive career opportunities

Analytical Forensic Science is one of four forensic programmes offered by LJMU. All four options share a number of common modules, but each course has its own distinct identity.

Analytical Forensic Science has a heavy practical bias, enabling you to explore current and emerging analytical techniques and practices.
Using state-of-the-art laboratory, crime scene and moot room facilities, you will:
•explore the criminal justice system as a setting in which a forensic scientist might work
•be able to apply appropriate techniques following the analysis and evaluation of complex forensic cases
•learn to critically evaluate current crime scene techniques

You will enjoy a first class learning environment at the city centre Byrom Street site which boasts an ongoing £12 million laboratory investment programme and state-of-the-art research facilities in the newly developed Life Sciences building. Legal aspects of the course are taught in the Moot Room at the multi-million pound Redmonds building on Brownlow Hill.


This is a full time, year-long Masters course although you can opt to work at a slower pace and study over three years. There may even be the option to carry out the dissertation project in your existing place of work.
On joining the course you will be appointed a personal tutor who will offer academic and pastoral support. The School also operates an open door policy, providing access to members of staff when you need them.

Please see guidance below on core and option modules for further information on what you will study.
Advanced Drug Analysis and Toxicology
Combines theory and practical work in analytical chemistry techniques, relating to drug analysis including legal highs.
Law and Court Room Skills
Discusses the criminal justice systems under which a forensic scientist may work and examines expert witness testimony. Aspects of regulation and quality assurance are touched upon.
Research Methods
Covers grant application, critical appraisal of leading research and data interpretation and evaluation. This leads naturally into the dissertation.
Bioanalytical Techniques
Examines state-of-the-art biomolecular techniques, including DNA and protein analysis. Commonly used techniques in the forensic field will be critically analysed and performed along with emerging techniques which can form the basis of the dissertation or further postgraduate study.
Fire Investigation
Offers specialist knowledge of fire and explosive analysis both at the crime scene and in terms of analytical techniques.
Trace Evidence Analysis
Teaches you to identify, differentiate and analyse different types of trace evidence using advanced techniques. Microscopy, including SEM (EDX) and atomic force, form the basis of the practical analysis performed, along with other techniques.
Dissertation
The Dissertation research themes are led by staff and PhD students. Students are encouraged to present their research at conferences.
Further guidance on modules
The information listed in the section entitled ‘What you will study’ is an overview of the academic content of the programme that will take the form of either core or option modules. Modules are designated as core or option in accordance with professional body requirements and internal Academic Framework review, so may be subject to change. Students will be required to undertake modules that the University designates as core and will have a choice of designated option modules. Additionally, option modules may be offered subject to meeting minimum student numbers.

Please email if you require further guidance or clarification.

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Overview. The MRes courses are designed to provide students with intensive laboratory-based training in research methods, supported by in-depth understanding. Read more
Overview
The MRes courses are designed to provide students with intensive laboratory-based training in research methods, supported by in-depth understanding. The aim is to prepare graduates to make contributions, as individuals and members of a team, to research-oriented activities in the biomedical industries and related service sectors, or academia. The courses are also well-suited to students wishing to upgrade a first degree, change field, or gain valuable laboratory experience before employment or a PhD. The Strathclyde Institute of Pharmacy and Biomedical Sciences represents the largest Pharmacy research group in the UK, with 55% of its staff rated as either world-leading or internationally excellent in terms of originality, significance and rigour (data: Research Assessment Exercise 2008). The University of Strathclyde has invested £30M in a world-class, pioneering centre for biomedical and pharmaceutical sciences teaching and research, opened Aug 2010. Students will find themselves in stimulating, unique environment on account of the strongly multidisciplinary nature of the Institute. Combining fundamental and applied research across the areas of bioscience and pharmacy, SIPBS builds on its record of success in drug and vaccine discovery and development. The Institute engages with industry and the health services, ensuring that its excellent fundamental research is translated into products that are of benefit to health and society. For more information on SIPBS go to http://www.strath.ac.uk/sipbs

Course outline

An MRes degree is focussed on research and students will spend 8 months undertaking a laboratory-based project.
To support their chosen research project, students choose advanced-level taught courses in a named specialisation, from the following areas:

Taught classes delivered through lectures, workshops and practical classes in four areas:
1. Transferable skills training in data mining, interpretation and presentation; experimental planning, personal effectiveness, ethics in research
2. Commercialisation and entrepreneurship
3. MRes-specific classes relevant to subject area

Biomedical Sciences

Example research projects:
1. Antileishmanial activity of extracts and compounds from Monodora myristica
2. Imaging and modelling of cancer development
3. Endothelial progenitor cell expression and differentiation
4. Targeted radiotherapy for cancer
5. The involvement of pulmonary veins in atrial fibrillation: electrical properties
6. Reducing bacterial resistance to antibiotics
7. Development of neural stem cells with increased levels of the autophagy cell survival pathway
8. Investigating the role of Sigma 54 in Pseudomonas aeruginosa virulence
9. Transcriptional network analysis of the Escherichia coli core stress response.
10. Identification of novel anti-microbial compounds targeted at biofilm formation

Drug Delivery systems

Example research projects
1. Nanoparticulate formulations of insulin and their analysis
2. Mesoporous silicas for oral delivery of cyclosporine
3. Bioprocessing of biopharmaceuticals
4. Modified and time-delayed oral solid-dose release formulations
5. Nasal formulations of poorly soluble compounds
6. Reducing bacterial resistance to antibiotics: establishing, optimising and implementing a high throughput assay to discover natural product derived inhibitors of metallo beta-lactamase.
7. Imaging of dermal formulations using Raman microscopy techniques
8. Antileishmanial activity of extracts and compounds from Monodora myristica
9. Anti-trypanosomal active triterpenoids from some African Propolis
10. Investigation into the potential therapeutic properties of marine organisms
11. Photo-triggered adhesion of mammalian cells

Drug Discovery

Projects in the areas of :
1. Drug Delivery
2. Molecular Biology
3. Pharmacology
4. Pharmaceutical Materials and Formulation
5. Toxicology

Neuroscience

Projects in the areas of:
1. Electrophysiology
2. Stem cell biology for regenerative purposes
3. Cell biology
4. Inflammation
5. In vitro culture systems
6. Functional genetics

How to Apply
Applicants should apply through the University of Strathclyde on-line application form: http://pgr.strath.ac.uk indicating "Masters by Research", and named specialisation as appropriate. Applicants are not required to submit a detailed research proposal at this stage.

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Analytical bioscience - the investigation of biomolecules as exploitable biomarkers - is a growing field, driven by improving analytical methods with increasing sensitivity. Read more
Analytical bioscience - the investigation of biomolecules as exploitable biomarkers - is a growing field, driven by improving analytical methods with increasing sensitivity. Following completion of the Human Genome Project, the pharmaceutical industry is preparing for a revolution in cancer and inherited disorder therapies.

This course is training a new generation of bioscientists to meet challenges at the interface between biology and chemistry, and to apply pharmaceutical and analytical knowledge directly to improve quality of life.

Please note: this course was previously called Analytical Bioscience and Drug Design.

Key benefits:

• Train for a career in the newly emerging industries of the post-genomic era
• Work at the interface between biology and chemistry – a truly multidisciplinary Masters degree
• Excellent career prospects in pharmaceuticals and biotechnology

Visit the website: http://www.salford.ac.uk/pgt-courses/drug-design-and-discovery

Suitable for:

This course is aimed at students who wish to acquire the specialised skills needed to design drugs for the 21st century.

Course content

This course is designed to enable you to gain a systematic knowledge, critical awareness of current problems and new insights regarding the analysis of biomolecules. There is particular reference to drug design and discovery, along with a comprehensive and critical understanding of applied techniques and their current application in research in the field of biomolecule analysis and drug design.

Format

Teaching is by lectures to provide thorough grounding in the techniques of biomolecule characterisation and drug design.

Practical sessions and workshops demonstrate techniques and methods used in biomolecule characterisation and drug design, and provide a structured opportunity for you to practise techniques and methods in analytical biosciences and drug design.

Guided reading will recommend texts, key articles and other materials in advance of, or following, lecture classes.

The research project will enable you to practice the application of appropriate, and selected, bioscientific techniques in an academic or industrial context, and demonstrate research methodologies and skills appropriate to and valuable with biomolecule characterisation and drug design.

You will be supervised by expert staff who are actively engaged in international research programmes.

Module Titles

• Research Methods 1
• Drug Pharmacology
• Drug Design
• Novel Theraputics
• Analytical Methods
• Natural Products
• Identification of Drugs
• Bioscience Enterprise
• Research Project

Assessment

• Literature Review and Presentation
• Portfolio
• Examination
• Oral Presentation
• Dissertation

Career progression

Although particularly relevant if you are looking for a career in the pharmaceutical and biotechnology industries, this course will also equip you for a career in research, teaching and many other professions including cosmetic science, animal health, food science, medical laboratory research, patent law, scientific journalism and health and safety.

Research projects may be carried out at Salford or other institutions (e.g. universities in Germany, France and the Paterson Institute, UK). We also invite visiting lecturers to share their expertise on the subject areas.

How to apply: http://www.salford.ac.uk/study/postgraduate/applying

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This course is one of our three specialist pharmacy MSc courses (Pharmaceutical Sciences, Drug Delivery, or Pharmacokinetics). Read more
This course is one of our three specialist pharmacy MSc courses (Pharmaceutical Sciences, Drug Delivery, or Pharmacokinetics).

You’ll gain a thorough understanding and awareness of your chosen area of pharmacy, the research methods required to complete a final supervised research project and an overview of the drug discovery process.

These courses are primarily designed to prepare you for an academic or industrial career in the relevant area. You may be a scientist already working within the pharmaceutical industry or a recent science graduate.

You will undertake a variety of compulsory modules and a research project. This project will last approximately four months and you will work under the supervision of recognised experts in their field. The project allows you to undertake a detailed investigation and develop practical expertise in a specialist pharmaceutical sciences area. The University also has strong links with numerous pharmaceutical companies - there may be the opportunity to undertake your project in collaboration with one of these companies.

You will gain an overview of the drug development process from concept to market, gaining hands-on experience of pharmaceutical formulation and drug delivery.

What you will study

All students studying one of our three pharmacy MSc courses will take the following core modules:
-Research Methods 1: Professional Development
-Research Methods 2: Communication Skills
-Research Project
-Drug Discovery

Depending upon the course you chose, you will also undertake the following modules:
-Chemotherapy & Selective Toxicity
-Drug Dosage Form & Design
-Principles of Product Analysis and Validation
-Drug Delivery and Targeting

Learning, teaching & assessment

Ranked in the UK's top 10 in the 2017 Complete University Guide, Aston Pharmacy excellent links with the profession. In addition, our research profile ensures relevant, expertise-led teaching for the students who enrol onto our courses each year. We have a long history of proving sector-leading courses - did you know that Aston Pharmacy School can trace its roots back to 1841?

You will learn in lectures, seminars, workshops and tutorials. Some modules may also use computer modelling and simulation sessions.

Our courses are assessed by a mixture of coursework, examinations, practical work and oral and written presentations. The research project module will be assessed on the basis of a submitted project report and an oral defence of a poster.

Your future career prospects

Graduates from our MSc programmes have taken up careers within the Pharmaceutical Industry in various disciplines such as analytical sciences, formulation development and project management. Our programmes provide the wider context and practical laboratory experience for pursuing careers in regulatory affairs, scientific writing and further studies.

Recent graduates have entered roles such as:
-Assistant Lecturer, University of Sulaimaniyah
-Associate Product Manager, AstraZeneca
-Business Development Manager, Crete Designs Limited
-Clinical Technician / Worker, Bridgewater Hospital
-Compound Technician, Sterling Pharmaceuticals
-Drug Designer, Unspecified Drug Company
-Drug Safety Specialist, PPD
-Drug Store Manager, Qaiwan group company
-Inhalation R & D Analyst, Aesica Pharmaceuticals Ltd (R5)
-Lecturer, University of Lagos, Nigeria
-Locum Pharmacist, various
-Molecular Modeller / Community Pharmacist, Verax Care Pharmacy
-OSD Technologist, GSK
-Pharma Benefit Associate, UnitedHealth Group
-Pharmacist, Government of India
-Pharmacist, Kerbala University
-Pharmacologist, Unspecified
-PhD Research Scholar, NIRMA University
-Recruitment Consultant, SRG
-Regulatory affairs trainee, PharmaLeaf India Pvt Ltd
-Research assistant, University of Leeds
-Research Scientist, Pluss Polymers
-Research Scientist, Wintean
-Researcher, Sunny Pharmtech Inc.
-Sales Relationship Coordinator, Wesley Assurance Society
-Science Teacher, Perry Beeches School
-Senior Regulatory officer, Roche Pharmaceuticals

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This programme is designed for graduates in chemistry or closely related discipline who wish to contribute to drug development in the pharmaceutical industry. Read more
This programme is designed for graduates in chemistry or closely related discipline who wish to contribute to drug development in the pharmaceutical industry.

The programme provides training in pharmacokinetics, drug metabolism, drug synthesis, methods to identify potential drug targets and drug candidates, and methods to assess the biological activities of drug compounds.

Additional modules cover the key techniques in analytical chemistry used to support the pharmaceutical sciences.

Core study areas include research methods, pharmacokinetics and drug metabolism, drug targets, drug design and drug synthesis, spectroscopy and structural analysis, professional skills and dissertation and a research training project.

Optional study areas include separation techniques, mass spectrometry and associated techniques, innovations in analytical science and medicinal chemistry.

See the website http://www.lboro.ac.uk/study/postgraduate/programmes/departments/chemistry/pharmaceutical-science-medicinal-chemistry/

Programme modules

Compulsory Modules
Semester 1:
- Research Methods
- Pharmacokinetics and Drug Metabolism
- Drug Targets, Drug Design and Drug Synthesis

Semester 2:
- Spectroscopy and Structural Analysis
- Professional Skills and Dissertation
- Research Training Project

Selected Optional Modules
Semester 1:
- Separation Techniques
- Mass Spectrometry and Associated Techniques

Semester 2:
- Innovations in Analytical Science
- Innovations in Medicinal Chemistry

Assessment

Examination and coursework.

Careers and further study

Careers in a variety of industries, particularly the pharmaceutical and related industries, including drug metabolism, medicinal chemistry (organic synthesis), drug screening (action / toxicity), patents and product registration; also as preliminary study for a PhD.

Scholarships and sponsorship

A number of bursaries and scholarships are available to UK and EU students towards tuition fees (excluding Environmental Studies MSc).
Departmental bursaries, in the form of fee reduction, are available to self-funded international students.
The programmes also benefit from industrial sponsorship which provides support in the form of equipment, materials, presenters and project placements.

Why choose chemistry at Loughborough?

The Department of Chemistry has about 350 students studying taught programmes, including around 50 on MSc courses, 10 postdoctoral research fellows, 50 research students (MPhil / PhD), and 25 academic staff, many of whom have strong links with industry.

In recent years, the Chemistry building has undergone extensive refurbishment and provides modern facilities and laboratories for the teaching and research needs of analytical, organic, inorganic and physical chemistry, as well as specialist laboratories for radiochemistry, environmental chemistry, microbiology and molecular pharmacology.

- Facilities
The Department has a number of specialist instruments and facilities, including: 2 x 400 MHz, 500 MHz and solid-state NMR spectrometers, single crystal and powder X-ray diffractometers, a high resolution inductively coupled plasma mass spectrometer, sector field organic MS, GC-MS and linear ion trap LC-mass spectrometers, ion mobility spectrometers and gas and liquid chromatographs.

- Research
The Department typically has well over 50 research students and a dozen postdoctoral researchers. In addition there are usually around 50 MSc students in the department. Many students come to study from abroad, and there are research students and visitors from all over the world currently studying and carrying out research in the department.
The Department is very well equipped to carry out research spanning all the traditional branches of chemistry (analytical, environmental, inorganic, organic and physical) and which contributes to four active research themes (Energy, Environment, Security and Health).

- Career Prospects
90% of our graduates were in employment and/or further study six months after graduating. Graduates can expect to develop their careers in the pharmaceutical and food industry, analytical and environmental laboratories, public and regulatory utilities, industrial laboratories, or go on to study for a PhD.

Find out how to apply here http://www.lboro.ac.uk/study/postgraduate/programmes/departments/chemistry/pharmaceutical-science-medicinal-chemistry/

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The Pharmacology and Drug Discovery MSc course has been designed to react to the increasing demand for suitably trained professional pharmacologists. Read more
The Pharmacology and Drug Discovery MSc course has been designed to react to the increasing demand for suitably trained professional pharmacologists. This is essential to speed up the critical task of translating basic laboratory medical research into commercially-ready medical biotechnology and drugs that can be used to diagnose and treat patients.

The Pharmacology and Drug Discovery course also encompasses an emerging area of science that is known as ‘Translational Medicine’ and needs a new breed of Pharmacologist who can apply basic science knowledge and skills to experimental study design, management and data analysis, and who understands the legislation and other regulatory procedures surrounding disease treatment.

The course will also cover relevant biotechnical innovations associated with pharmacology and drug discovery, as well as both classical clinical trial design and health-outcomes research.

Our course is designed to provide such specialists by applying basic and clinical science to topics including diagnosis, understanding and treatment of disease, supported by our excellent staff, research expertise and laboratory facilities.

The MSc Pharmacology and Drug Discovery with Professional Experience, is an extended full-time Masters programme with a substantive professional experience component. Within the professional experience modules, students have the option of undertaking an internship with a host organisation or, alternatively, campus-based professional experience.

Internships are subject to a competitive application and selection process and the host organisation may include the University. Internships may be paid or unpaid, and this will depend on what is being offered and agreed with the host organisation. Students who do not wish to undertake an internship or are not successful in securing an internship will undertake campus-based professional experience, which will deliver similar learning outcomes through supervised projects and activities designed to offer students the opportunity to integrate theory with an understanding of professional practice.

WHY CHOOSE THIS COURSE?

-Strong links with the pharmaceutical industry
-Emphasis on vocational skills development
-Excellent preparation for a wide range of careers in extensive and varied health industry
-Hands-on experience of a wide range of research methods in well-equipped laboratories
-Innovative curriculum combining basic and clinical sciences
-High levels of employability on graduation

WHAT WILL I LEARN?

The pharmacology and drug discovery postgraduate programme is composed of a combination of modules depending on whether you undertake the PgDip or Masters programme of study and includes the following:
-Research methods and project
-Pharmaceutical discoveries
-Advanced pharmacology and drug discovery and development
-Genomes and DNA technology
-Biotechnology in the diagnosis of disease
-Current topics in biotechnology and drug discovery

The course is designed for a national and international audience.

Additionally, the understanding gained from these modules will be demonstrated and applied in either the University-based project (12 months full-time or 24 months part-time, on course HLST088), or the professional experience modules, giving students the option of undertaking an internship with a host organisation or, alternatively, campus-based professional experience.

HOW WILL THIS COURSE ENHANCE MY CAREER PROSPECTS?

The PgDip/MSc Pharmacology and Drug Discovery programme is specifically designed to equip you with the skills and knowledge required for a career within the Pharmacology and drug development arena and there are many opportunities, both the UK and internationally.

A large number of Pharmacologists are employed by companies in the pharmaceutical industry, where they are involved in discovering and developing drugs and carrying out clinical trials. Pharmacologists may also work for contract research organisations (CROs) or academic departments within universities on research projects.

There are also opportunities within government laboratories (including environmental agencies), charity-funded research organisations, such as the Medical Research Council (MRC), and with other research institutes. The scientific knowledge and skills students will acquire during the course can also be a useful basis for a career in teaching; technical and scientific writing (such as medical writing or writing for the media); clinical trials; drug registration, patenting or monitoring; medical publishing or other information services, regulatory affairs or sales and marketing.

A wide range of job opportunities exist, including:
-Clinical research manager
-Clinical scientist
-Human resources manager
-Patent attorney
-Pharmacologist
-Project manager/director
-Public relations officer
-Regulatory affairs associate
-Research scientist
-Sales representative
-Medical writer

GLOBAL LEADERS PROGRAMME

Centre for Global Engagement logoTo prepare students for the challenges of the global employment market and to strengthen and develop their broader personal and professional skills Coventry University has developed a unique Global Leaders Programme.

The objectives of the programme, in which postgraduate and eligible undergraduate students can participate, is to provide practical career workshops and enable participants to experience different business cultures.

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This programme is taught as either a classic one-year programme, or delivered through blended e-learning on a two-year part-time basis. Read more
This programme is taught as either a classic one-year programme, or delivered through blended e-learning on a two-year part-time basis.

The degree builds on Pfizer Ltd's 'in house' training programme. It teaches how fundamental science is applied to the discovery and development of medicines. The programme was designed and conceived by industry experts in drug discovery and will be delivered and assessed by subject matter experts from both industry and the university.

The course will comprise of 60 credits at certificate level, 60 credits at diploma level and 60 credits at Master's level; and as such intermediate exit awards are available.

For those students based overseas not wishing to participate in a laboratory-based research project at Medway School of Pharmacy the Extended Dissertation module (at Masters level) is compulsory. Please contact the Department for more details.

The aims of the programme are:

- To produce graduates trained in the processes by which fundamental science is linked to the design and development of modern medicines

- To teach students an understanding of the drug discovery process

- To provide students with the experience of critically appraising the research questions and techniques that are routine in the workplace

- To provide expert preparation for students who wish to pursue a career in drug discovery, or wish to proceed to a higher degree (PhD).

Visit the website http://www2.gre.ac.uk/study/courses/pg/pha/add

Pharmacy

We offer a wide range of postgraduate programmes and courses for pharmacists and other health-care professionals. Our Medway School of Pharmacy is a unique collaboration between the Universities of Greenwich and Kent. We have designed innovative patient focused programmes to address the needs of healthcare professionals. A significant investment in facilities and equipment has allowed us to embark on our objective of establishing an internationally recognised research reputation based on multidisciplinary team work.

What you'll study

Full time
- Year 1:
Students are required to study the following compulsory courses.

Applied Pharmacology (30 credits)
Translational Biology (30 credits)
Critical Thinking (15 credits)
Experimental Protocol (15 credits)
Project Background and Design (15 credits)
Extended Research Project (60 credits)

- Year 2:
Students are required to choose 15 credits from this list of options.

Infectious Disease and Allergy Drug Discovery (15 credits)
Neuroscience and Drug Discovery (15 credits)
Renal and Cardiovascular Drug Discovery (15 credits)

Distance learning
- Year 1:
Students are required to study the following compulsory courses.

Applied Pharmacology (30 credits)
Translational Biology (30 credits)
Critical Thinking (15 credits)
Experimental Protocol (15 credits)

- Year 2:
Students are required to study the following compulsory courses.

Project Background and Design (15 credits)

Students are required to choose 1 course from this list of options.

Infectious Disease and Allergy Drug Discovery (15 credits)
Neuroscience and Drug Discovery (15 credits)
Renal and Cardiovascular Drug Discovery (15 credits)

Students are required to choose 1 course from this list of options.

Extended Research Project (60 credits)
Extended Dissertation (60 credits)

Fees and finance

Your time at university should be enjoyable and rewarding, and it is important that it is not spoilt by unnecessary financial worries. We recommend that you spend time planning your finances, both before coming to university and while you are here. We can offer advice on living costs and budgeting, as well as on awards, allowances and loans.

Find out more about our fees and the support available to you at our:
- Postgraduate finance pages (http://www.gre.ac.uk/finance/pg)
- International students' finance pages (http://www.gre.ac.uk/finance/international)

Assessment

We appreciate that some students do not perform well in the traditional exam setting and consequently we use a range of assessment techniques. Assessment techniques include: written assignments, reports, portfolio entries, short essays, analysis of case studies, and multiple choice questions.

Professional recognition

On successful completion of the programme you will be eligible to apply for professional recognition from the Society of Biology.

Career options

This advanced-level academic qualification will provide expert preparation for students who wish to pursue and/or further a career in drug discovery, or wish to proceed to a higher degree (PhD).

Find out how to apply here - http://www2.gre.ac.uk/study/apply

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Our MSc Model-based Drug Development course provides the knowledge and skills for making evidence-based decisions at various stages of drug development. Read more
Our MSc Model-based Drug Development course provides the knowledge and skills for making evidence-based decisions at various stages of drug development.

It covers the scientific and regulatory aspects of evaluating a drug, with emphasis on the use of modelling and simulation methods. You will learn why these methods are so highly valued by industry and regulatory authorities as effective, cost-saving, decision-making tools. Learning is reinforced via hands-on application of the skills to real data.

The course has been developed with an emphasis on mechanistic approaches to assessing and predicting pharmacokinetics and pharmacodynamics (PKPD), such as physiologically-based pharmacokinetics (PBPK).

As this comes under the general umbrella of systems biology, you will be able to apply your knowledge of modelling and simulation in various areas of research within the pharmaceutical industry.

Full-time students benefit from immersion in the varied biomedical research environment at The University of Manchester, including interaction with research staff at the renowned Centre for Applied Pharmacokinetic Research.

Alternatively, part-time students already working in the pharmaceutical industry can take advantage of the flexible, distance learning mode of the course, which allows you to fit study around other commitments.

Aims

The aim of the course is to provide specialist knowledge and skills that are highly relevant for a career linked to drug development and pharmaceutical industry.

It is designed for science, engineering or mathematics graduates who want to acquire:
-Awareness of the commercial and regulatory factors in drug development
-Understanding of the physiological, chemical, and mathematical foundations used to define the safe and effective use of potential medicines
-Training in the use of mathematical modelling and simulation methods to guide drug development

The course aims to:
-Provide background information on the theory and methods for quantitative assessment of drug absorption, distribution and elimination
-Provide an understanding of the role of pharmacometrics in the process of drug development
-Provide background information on in vitro assays used to characterise ADME properties of new drug entities
-Indicate the mathematical framework that is capable of integrating in vitro information with knowledge of the human body to predict pharmacokinetics
-Provide familiarity and experience of using different software platforms related to pharmacometric data analysis including R, Phoenix, NONMEM, MATLAB, Simcyp, WinBUGS and MONOLIX
-Equip you to reflect upon influential research publications in the field, to critically assess recent published literature in a specific area
-Provide awareness of the elements of a convincing research proposal based on modelling and simulation
-Provide the opportunity to undertake a project and carry out original research

Teaching and learning

The course emphasises the development of problem-solving skills. A large portion of the learning involves structured problems requiring the you to apply theory and practical skills to solve typical problems that arise in drug development.

The following teaching and learning methods are used throughout the course:
-Taught lectures
-Hands-on workshops
-Self-directed learning to solve given problems
-Webinars and tutorials by leading scientists in industry/academia
-Supervised research
-Mentorship in solving problems and writing the research dissertation
-Independent study

Career opportunities

This course was originally developed for scientists working within the pharmaceutical industry who wished to qualify as modellers with hands-on experience. The qualification will enhance your abilities within your current role or provide you with skills to progress into new posts.

The course is also appropriate for science and engineering graduates who wish to enter the industry. The role of modelling and simulation or pharmacometrics is assuming greater and greater importance in the pharmaceutical industry. Pharmaceutical companies and government regulatory agencies are recognising its value in making best use of laboratory and clinical data, guiding and expediting development, saving time and costs and a range of well paid jobs exist in this area across the globe. Scientific and industry publications often discuss the current shortage and growing need for modellers.

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The programme is designed for graduates with a biological background and builds on existing core biosciences modules in the area of applied biotechnology. Read more
The programme is designed for graduates with a biological background and builds on existing core biosciences modules in the area of applied biotechnology. It gives a grounding in the early stage drug discovery process for those interested in careers in biotechnology or the pharmaceutical industry.

The MSc covers application of technologies to early stage drug discovery focusing on target identification, target validation, and lead discovery and design follow-up through understanding protein ligand interactions and biophysics at a molecular level in order to produce good drug candidate molecules via rational drug design.

The programme also includes site visits to biotechnology companies and industry, plus workshops/lectures from invited industrial experts.

Visit the website: https://www.kent.ac.uk/courses/postgraduate/227/drug-design

About the School of Biosciences

The School of Biosciences is among the best-funded schools of its kind in the UK, with current support from the BBSRC, NERC, MRC, Wellcome Trust, EU, and industry. It has 38 academic staff, 56 research staff (facility managers, research fellows, postdoctoral researchers and technicians), approximately 100 postgraduate students and 20 key support staff. The school's vibrant atmosphere has expanded to become a flourishing environment to study for postgraduate degrees in a notably friendly and supportive teaching and research environment.

Research in the School of Biosciences revolves around understanding systems and processes in the living cell. It has a strong molecular focus with leading-edge activities that are synergistic with one another and complementary to the teaching provision. Our expertise in disciplines such as biochemistry, microbiology and biomedical science allows us to exploit technology and develop groundbreaking ideas in the fields of genetics, molecular biology, protein science and biophysics. Fields of enquiry encompass a range of molecular processes from cell division, transcription and translation through to molecular motors, molecular diagnostics and the production of biotherapeutics and bioenergy.

In addition to research degrees, our key research strengths underpin a range of unique and career-focused taught Master’s programmes that address key issues and challenges within the biosciences and pharmaceutical industries and prepare graduates for future employment.

Course structure

The MSc in Drug Design involves studying for 120 credits of taught modules, as indicated below. The taught component takes place during the autumn and spring terms, while a 60-credit research project take place over the summer months.

The programme is taught by staff from the Biosciences, Industrial Biotechnology Centre and industrial scientists who all have experience of working with the drug industry (both large pharma and biotech).

In additional to traditional scientific laboratory reports, experience is gained in a range of scientific writing styles relevant to future employment.

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.

BI827 - Advanced Drug Design (30 credits)
BI830 - Science at Work (30 credits)
BI836 - Practical and Applied Research Skills for Advanced Biologists (30 credits)
BI840 - Cancer Therapeutics: From the Laboratory to the Clinic (15 credits)
BI852 - Advanced Analytical and Emerging Technologies for Biotechnology and Bio (30 credits)
BI857 - Cancer Research in Focus (15 credits)
CB612 - New Enterprise Startup (15 credits)
BI845 - MSc Project (60 credits)

Assessment

Assessment is by coursework and the dissertation.

Programme aims

This programme aims to:

- provide students with an academic framework to underpin your career in the pharmaceutical, biotechnology industry or applied translational research in an academic environment

- give you an understanding of the process of academic investigation in a range of academic disciplines relevant to drug design

- provide a stimulating, research-active environment for teaching and learning in which you are supported and motivated to achieve your academic and personal potential

- facilitate a valuable learning experience through a variety of teaching and assessment methods that will promote the assimilation, comprehension, analysis application, synthesis and evaluation of the knowledge base

- give you the experience of undertaking an independent research project or dissertation

- prepare students for further training and employment both in science and non-science based careers by developing transferable and cognitive skills

- develop the qualities needed for employment in situations requiring the exercise of professionalism, independent thought, personal responsibility and decision-making in complex and unpredictable circumstances

- provide access to as wide a range of students as practicable irrespective of race, background, gender or physical disability from both within the UK and from overseas.

Careers

A postgraduate degree in the School of Biosciences is designed to equip our graduates with transferable skills that are highly valued in the workplace. Our research-led ethos ensures that students explore the frontiers of scientific knowledge, and the intensive practical components provide rigorous training in cutting edge technical skills that are used in the modern biosciences while working in areas of world-leading expertise within the School.

Destinations for our graduates include the leading pharmaceutical and biotechnological companies within the UK and leading research institutes both at home and abroad.

Find out how to apply here - https://www.kent.ac.uk/courses/postgraduate/apply-online/227

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The programme offers a comprehensive understanding of social sciences media and cultural analysis. Read more
The programme offers a comprehensive understanding of social sciences media and cultural analysis. Interdisciplinary in conception, it provides students with a critical introduction to key areas of media and cultural analysis, including the media and political economy; modernity and post-modernity; and cultural ‘difference’, prejudice and power.

While there are several core modules, students undertake research directly related to their specialist interests in the dissertation. There are also a number of optional modules, covering such areas as globalisation, visual cultures, media and nationalisms, citizenship, digital media, popular music, cultural policy, and consumption.

Core study areas include media and modernity, the politics of representation, production and reception analysis, media and cultural industries, textual analysis research techniques and a dissertation.

Optional study areas include citizenship and communications, media, nations and nationalisms, global communications, digital futures, media and cultural work, digital cultures, digital economies, cultural memory and the heritage industries, marketing politics.

See the website http://www.lboro.ac.uk/study/postgraduate/programmes/departments/social-sciences/media-cultural-analysis/

Programme modules

Compulsory Modules:
- Media and Modernity
- The Politics of Representation
- Production and Reception Analysis
- Media and Cultural Industries
- Textual Analysis Research Techniques
- Dissertation

Optional Modules:
- Popular Music and Modern Times
- Citizenship and Communications
- Media, Nations and Nationalisms
- Global Communications
- Digital Futures
- Media and Cultural Work
- Digital Cultures
- Digital Economics
- Cultural Memory and the Heritage Industries
- Marketing Politics

Assessment

Coursework plus a dissertation of 10,000 words on an agreed topic.

Careers and further study

Our students go on to work in media, marketing and PR divisions of major public and private institutions. They also go on to work in mainstream media careers such as journalism and broadcasting.

The comprehensive theoretical introduction to media, communications and culture that the programme provides makes it an ideal stepping stone into a research career. Many of our students have also gone on to do PhDs in media, communications and culture in the UK and abroad.

Why choose social sciences at Loughborough?

The Department of Social Sciences has long been recognised as an international centre of academic excellence and for its cutting-edge interdisciplinary work.

This recognition of excellence has been a major factor in enabling the Department to recruit a lively community of postgraduate students that currently numbers around 100.

In the Department of Social Sciences we offer a rich variety of taught postgraduate masters. The courses are delivered by an internationally renowned interdisciplinary team, through the use of contemporary case studies and research-informed applied teaching and learning.

The courses provide training in digital culture, media, communications, sociological and anthropological, theory, as well as quantitative and qualitative methods

- Research
All of our academic staff are active researchers, working within and across the following disciplinary boundaries – Communication and Media Studies, Criminology, Social Policy, Social Psychology, and Sociology.

Loughborough is home to the most world-leading, original and internationally excellent research in communication, media studies, sociology, and social psychology. Our research has excellent impact, with staff working with a wide range of public and third sector bodies (e.g., BBC Trust, the Metropolitan Police, the Electoral Commission, the College of Mediators, UK Drug Policy Commission, Department of Health). Our social policy and criminology research also has world-leading impact, particularly in services for children and minimum income standards.

- Career prospects
Our programmes prepare our graduates for the real world of the television industry, marketing, academia, publishing, plus many more industries. They go on to work for companies and organisations such as China Development Research Foundation, Elsevier Ltd, Image Line Communication, Institute of Psychiatry, Metropolitan Police Service, Oxfam and X-Pert Med GmbH.

Find out how to apply here http://www.lboro.ac.uk/study/postgraduate/programmes/departments/social-sciences/media-cultural-analysis/

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