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Masters Degrees (Medicinal And Pharmaceutical)

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The MSc Pharmaceutical Sciences programme was developed in response to the need for enhanced skills by employees within pharmaceutical research, development or manufacturing. Read more
The MSc Pharmaceutical Sciences programme was developed in response to the need for enhanced skills by employees within pharmaceutical research, development or manufacturing.

The programme will generate graduates with in-depth theoretical knowledge and extensive laboratory skills, allowing students to be involved in many disciplines of pharmaceutical sciences from drug discovery and medicinal chemistry through to product development and manufacture and including pharmaceutical analysis, quality control and quality assurance.

Delivery on this programme involves a series of lectures, seminars, workshops and lab-based exercises. Many of the lectures on this programme are delivered by leading industrial experts. Problem-based learning and case studies will provide students with experience of team-working that simulates an industrial setting. Students will develop team-working, critical thinking and analytical problem solving abilities which are important in the modern pharmaceutical industry.

The main part of the programme is a research project that runs over the whole academic year and gives students the opportunity to work with modern research equipment to carry out novel research. Project work will help students enhance practical skills, analytical thinking, time management, communication skills and independence.

The aims of the programme are:

- To acquire a sound core knowledge base together with knowledge of a specialist area of pharmaceutical sciences to support current and future developments of pharmaceutical and related sciences

- To enhance students' critical, analytical, practical and communication skills relevant to the modern, multidisciplinary pharmaceutical industry

- To develop research skills in terms of: planning, conducting, evaluating and reporting the results of investigations

- To gain the knowledge and skills necessary to solve a range of pharmaceutical drug development and processing problems

- To enable students to use and develop advanced theories and develop novel concepts to explain pharmaceutical development and processing data.

Visit the website http://www2.gre.ac.uk/study/courses/pg/pharmsci/mps

Science - Pharmaceutical

The aim of our programmes is to produce graduates with a sound knowledge of chemistry, biology and design of dosage forms, a combination that was lacking in the pharmaceutical industry. Graduates are expected to gain excellent foundational knowledge that will open up many varied employment opportunities.

We have recruited excellent staff pulling in experience from the pharmaceutical industry, analysts working in the area of pharmaceutical analysis and world-class experts in the design and action of drug dosage forms.

What you'll study

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

Colloids and Structured Materials in Formulations (30 credits)
Drug Discovery and Medicinal Chemistry (30 credits)
English Language Support (for Postgraduate students in the School of Science)
Analytical Methods and QA/QC Principles (30 credits)
MSc Pharmaceutical Sciences Research Project (60 credits)
Modern Pharmaceutical Technologies and Process Engineering (30 credits)

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

English Language Support (for Postgraduate students in the School of Science)
Analytical Methods and QA/QC Principles (30 credits)
Modern Pharmaceutical Technologies and Process Engineering (30 credits)

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

Colloids and Structured Materials in Formulations (30 credits)
Drug Discovery and Medicinal Chemistry (30 credits)
MSc Pharmaceutical Sciences Research Project (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

Students are assessed through examinations, coursework and a dissertation.

Career options

Graduates from this programme can pursue careers in the NHS, the pharmaceutical industry or industries manufacturing other health care products.

Find out about the teaching and learning outcomes here - http://www2.gre.ac.uk/?a=643707

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

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This course covers a diverse range of materials, pharmaceutical and medicinal research and includes a substantial research led project. Read more
This course covers a diverse range of materials, pharmaceutical and medicinal research and includes a substantial research led project.

This course enables you to develop and further your knowledge of pharmaceutical and medicinal sciences, with a carefully put together range of core modules. You can expand your interests further by selecting a pharmaceutical led research project within one of our diverse range of internationally recognised pharmaceutical and medicinal science research groups (alongside PhD students and post doctoral research fellows).

This is a new course which follows on from our well-established BSc Pharmaceutical and Medicinal Chemistry, BSc Chemistry and MChem Chemistry cluster of programmes. Our staff were entered in the Subjects Allied to Heath Care 2008 Research Assessment Exercise and were ranked as 4* (world-leading). These results put pharmaceutical and medicinal science research at NTU at the highest level and will inevitably appeal to potential students interested in furthering their studies in pharmaceutical and medicinal science.

We have links with scientist from AstraZeneca and Vectura who deliver some of the module content relevant to their workplace. Other guest lecturers from a variety of other companies and universities also present their research.

Modules

-Organic Synthesis and Characterisation of Biologically Active Compounds
-Chemotherapeutics
-Research Methods and Independent Study
-Research Project

COME VISIT US ON OUR NEXT OPEN DAY!

Register here: https://www.ntu.ac.uk/university-life-and-nottingham/open-days/find-your-open-day/science-and-technology-postgraduate-and-professional-open-event2.

The course is a part of the School of Science and Technology (http://www.ntu.ac.uk/sat) which has first-class facilities (http://www.ntu.ac.uk/sat/facilities).

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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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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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Explore drug development, manufacture and production and enhance your prospects for a career as a drug discovery or development scientist in the pharmaceutical, healthcare, nutraceutical or bioscience industries. Read more
Explore drug development, manufacture and production and enhance your prospects for a career as a drug discovery or development scientist in the pharmaceutical, healthcare, nutraceutical or bioscience industries.

This course provides expert critical and technical knowledge related to the development, analysis and production of medicines, the drug industry and regulatory affairs.

You'll study recent trends in chemical, biological and biotechnological therapeutics and evaluate the latest technologies used in the pharmaceutical industry.

You'll also gain an understanding of the processes and methods used in clinical trials and the regulation of medicines and acquire the skills and knowledge to pursue your career in pharmaceutical science.

See the website http://www.napier.ac.uk/en/Courses/MSc-Pharmaceutical-Science-Postgraduate-FullTime

What you'll learn

This course provides the opportunity to acquire all the attributes necessary for a successful career in pharmaceutical science, undertaking lead research and development, or analytical management roles in the drug and healthcare industries.

You’ll acquire broad knowledge of contemporary, integrated drug discovery strategies and acquire the necessary skills to communicate effectively across the key, diverse component disciplines with other professional scientists and non-specialist audiences.

You’ll develop broad knowledge of current pharmaceutical analysis and quality control strategies and will learn about GMP and GLP compliance. You’ll also gain an in-depth critical understanding of current research in biotechnology and pharmaceutical science.

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 including specialist equipment such as HPLC, UV/Vis, and FTIR. In your final trimester you’ll undertake an independent project within a vibrant 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 pharmaceutical 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 is a full-time course taken over one year and split up into three trimesters. You can choose to start in either January or September. There may also be some opportunities to study abroad.

This programme is also available as a Masters by Research.

Modules

• Current practice in drug development
• Molecular pharmacology and toxicology
• Current topics in pharmaceutical science
• Research skills
• Quality Control and Pharmaceutical Analysis
• 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

A large proportion of our graduates enter laboratory based and research management based product development work. They are employed in industries ranging from the big pharmaceutical companies to developing biotech companies; contract drug testing companies and service providers to the pharmaceutical and healthcare industries; hospital laboratories, NHS and local government.

If you currently work in a relevant sector, this course will enhance your prospects for career progression. This qualification also provides a sound platform for study to PhD level in pharmaceutical and biomolecular sciences and 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 aim of the MSc in Pharmaceutical Sciences programme is to provide an academically challenging and vocationally relevant education and training in pharmaceutical sciences, both theoretical and practical. Read more
The aim of the MSc in Pharmaceutical Sciences programme is to provide an academically challenging and vocationally relevant education and training in pharmaceutical sciences, both theoretical and practical. Students will acquire an up-to-date knowledge and understanding of the subject, and achieve learning outcomes that enable them to be able to appreciate and apply acquired knowledge, skills and technological understanding primarily for the benefit of the pharmaceutical and related industrial sectors in Northern Ireland, Republic of Ireland and Great Britain.

Visit the website: https://www.ulster.ac.uk/course/msc-pharmaceutical-sciences-ft-el

Course detail

This course is designed to provide an up-to-date knowledge and understanding of core areas of pharmaceutical sciences, including drug discovery, development, formulation and delivery, quality assurance and evaluation of drugs, analysis of medicines and medicinal natural products and pharmaceutical instrumental methods.

The course increases the awareness of ethical issues and scientific integrity in the pharmaceutical sciences. It will provide you with the chance of specialisation in one of the core specialisms of pharmaceutical sciences through elective modules.

The course is fully online for the taught modules but attendance at the Coleraine campus is required for the MSc Research Project.

- Purpose -

As an MSc student you will learn how to formulate hypotheses, design and conduct a research project, analyse research data, and report results of research to peers.

- Teaching and learning assessment -

The content will be taught through a combination of lecture material and online discussions/tutorials, all of which will be supported online by eTutors and by on-campus staff. Self-directed and independent learning will also be encouraged and supported throughout the module.

Assessment is 100% coursework

Career options

This postgraduate programme is tailor-made to meet the demands of employers in the pharmaceutical industry sectors. It is suitable for those who wish to follow careers in pharmaceutical and related industries and also as academics in various universities to enhance and promote education in the pharmaceutical sciences area. As the proposed programme will have significant amounts of research elements, it is assumed that a number of postgraduate students from this programme may choose further postgraduate research studies such as a PhD.

How to apply: https://www.ulster.ac.uk/apply/how-to-apply#pg

Why Choose Ulster University ?

1. Over 92% of our graduates are in work or further study six months after graduation.
2. We are a top UK university for providing courses with a period of work placement.
3. Our teaching and the learning experience we deliver are rated at the highest level by the Quality Assurance Agency.
4. We recruit international students from more than 100 different countries.
5. More than 4,000 students from over 50 countries have successfully completed eLearning courses at Ulster University.

Flexible payment

To help spread the cost of your studies, tuition fees can be paid back in monthly instalments while you learn. If you study for a one-year, full-time master’s, you can pay your fees up-front, in one lump sum, or in either five* or ten* equal monthly payments. If you study for a master’s on a part-time basis (e.g. over three years), you can pay each year’s fees up-front or in five or ten equal monthly payments each year. This flexibility allows you to spread the payment of your fees over each academic year. Find out more by visiting https://www.ulster.ac.uk/apply/fees-and-finance/postgraduate

Scholarships

A comprehensive range of financial scholarships, awards and prizes are available to undergraduate, postgraduate and research students. Scholarships recognise the many ways in which our students are outstanding in their subject. Individuals may be able to apply directly or may automatically be nominated for awards. Visit the website: https://www.ulster.ac.uk/apply/fees-and-finance/scholarships

English Language Tuition

CELT offers courses and consultations in English language and study skills to Ulster University students of all subjects, levels and nationalities. Students and researchers for whom English is an additional language can access free CELT support throughout the academic year: https://www.ulster.ac.uk/international/english-language-support

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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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This part-time course enables suitably-qualified pharmaceutical industry employees to. - acquire the necessary knowledge base to submit themselves for nomination as a Qualified Person (QP). Read more

Why this course?

This part-time course enables suitably-qualified pharmaceutical industry employees to:
- acquire the necessary knowledge base to submit themselves for nomination as a Qualified Person (QP)
- develop relevant academic knowledge and skills at postgraduate level
- develop research and investigative skills in the area of pharmaceutical quality and good manufacturing practice

The course is provided in a unique collaboration between:
- Strathclyde Institute of Pharmacy and Biomedical Sciences (SIPBS)
- NSF Health Sciences (formerly known as NSF-DBA and David Begg Associates (DBA))

NSF-Health Sciences are leading experts in the pharmaceutical and medical devices industries offering training, consultancy and auditing services.

See the website https://www.strath.ac.uk/courses/postgraduatetaught/pharmaceuticalqualitygoodmanufacturingpractice/

You’ll study

You’re required to complete six of the NSF-DBA modules for consideration for the Postgraduate Certificate. For the Postgraduate Diploma you need to complete twelve modules.

Modules run over a 21-month period as a series of 13 one-week residential courses. You complete additional study before sitting examinations for the award of the Certificate or Diploma.

The Diploma can be converted to the MSc by completion of a research project which is normally undertaken at your workplace.

The course is by part-time study only.

Curriculum

The course is based on the syllabus in the European-approved 'Qualified Person' (QP) study guide as used in the pharmaceutical industry.

The course content includes all the diverse elements required to ensure that each batch of a medicinal product meets the quality requirements of the relevant product and manufacturer's licences. This includes:
- an understanding of the pharmacology and chemistry of the product's active and other ingredients
- a knowledge of how the product was manufactured
- how the product delivers the drug in the patient's body
- how the patient's body is expected to handle the drug by way of excretion and metabolism

You’re also made aware of the statutory framework which is applied in the control of the manufacture and distribution of medicinal products.

Facilities

The Strathclyde Institute of Pharmacy & Biomedical Sciences (SIPBS) offers an excellent environment for research and teaching. It’s located in a new building with several laboratories. All are fitted with modern equipment.

Teaching staff

Lecturers include:
- NSF-DBA staff
- personnel from the regulatory authorities and the pharmaceutical industry
- University of Strathclyde staff with expertise in pharmaceutical quality

Pre-Masters preparation course

The Pre-Masters Programme is a preparation course for international students (non EU/UK) who do not meet the entry requirements for a Masters degree at University of Strathclyde. The Pre-Masters programme provides progression to a number of degree options.

To find out more about the courses and opportunities on offer visit isc.strath.ac.uk or call today on +44 (0) 1273 339333 and discuss your education future. You can also complete the online application form. To ask a question please fill in the enquiry form and talk to one of our multi-lingual Student Enrolment Advisers today.

Learning & teaching

Each module consists of:
- lectures
- tutorials
- laboratories
- discussion groups
- relevant visits

The cohesion of the student group rapidly develops as all participants are generally working in some aspect of quality assurance in the pharmaceutical industry. As such, the informal aspects of each module can become an important part of the knowledge-gathering process.

Assessment

Modules are assessed individually. You’ll sit formal examinations. MSc students write and submit for examination a thesis based on their research project.

Careers

Gaining knowledge and skills will enhance your career progression in the pharmaceutical industry.

Find information on Scholarships here http://www.strath.ac.uk/search/scholarships/index.jsp

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Sunderland is ranked sixth in the UK for pharmacy and pharmacology, according to The Guardian University Guide 2013. This Masters is one of the few in the UK that covers biopharmaceuticals as well as pharmaceuticals. Read more
Sunderland is ranked sixth in the UK for pharmacy and pharmacology, according to The Guardian University Guide 2013.

Course overview

This Masters is one of the few in the UK that covers biopharmaceuticals as well as pharmaceuticals. The course covers drug delivery systems for large molecules such as proteins, genes and anticancer drugs that offer innovative ways to improve the health and wellbeing of our society.

The course also covers advanced formulations and delivery of small drug molecules. There is a focus on nanotechnology, dosage forms, pharmacokinetics and statistical methods used in data analysis.

Our supportive tutors will guide the development of rigorous approaches to research including sound methodologies, good manufacturing practice, high laboratory standards and effective communication of results.

Your Masters research project will be supervised by an expert in the relevant field, possibly in collaboration with a pharmaceutical company or research institution.

This course is particularly relevant if you plan to undertake a PhD in the area of pharmaceutical sciences, biopharmaceuticals or drug delivery. It is also suitable if you are considering, or already involved in, a career in pharmaceutical-related industries, hospitals or research institutions.

Pharmacy is a particular area of strength at the University of Sunderland. We have worked with GlaxoSmithKline for over 20 years and Pfizer has funded research projects at Sunderland for over 10 years.

Course content

The course mixes taught elements with independent research and self-directed study. There is flexibility to pursue personal interests in considerable depth, with guidance and inspiration from Sunderland's supportive tutors. Modules on this course include:
-Dosage Forms and Pharmacokinetics (20 Credits)
-Delivering Gene and Therapeutic Proteins (20 Credits)
-Essential Research and Study Skills (20 Credits)
-Research Manipulation (20 Credits)
-Nanotechnology (20 Credits)
-Bioinformatics (20 Credits)
-Research Project (60 Credits)

Teaching and assessment

We use a wide variety of teaching and learning methods which include lectures, seminars, problem-based learning, laboratory work, group work and visits to relevant companies. We also welcome guest speakers from the pharmaceutical industry who deliver guest lectures and seminars.

Compared to an undergraduate course, you will find that this Masters requires a higher level of independent working. Assessment methods include written examinations, online tests and coursework, which includes oral and poster presentations.

Facilities & location

Sunderland's exceptional facilities include state-of-the-art equipment for pharmaceutics, synthetic, analytical and medicinal chemistry and pharmacology.

Facilities for Chemistry
We’ve recently spent £1 million on our new state-of-the-art analytical equipment. The analytical suite contains equipment which is industry-standard for modern clinical and pharmaceutical laboratories. Our state-of-the-art spectroscopic facility allows us to investigate the structures of new molecules and potential medicinal substances. 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 Pharmaceutics and Pharmacology
Our highly technical apparatus will help you gain a better understanding of the effects of drugs on specific receptors located throughout the human body and related physiological effects. In addition to equipment for standard pharmacopoeial tests, such as dissolution testing, friability and disintegration, we also have 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.

We also have equipment for wet granulation, spray drying, capsule filling, tablet making, powder mixing inhalation, film coating and freeze drying.

University Library Services
We’ve got thousands of books and e-books on pharmaceutical and biomedical sciences, 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

Employment & careers

On completing this course you will be equipped with the skills and understanding needed for Research & Development roles with employers such as:
-Pharmaceutical and biopharmaceutical companies
-Medical research institutes
-Hospitals

Salaries for senior pharmacologists range from £35,000 to around £80,000. Clinical laboratory scientists earn an average of £36,000. A Masters degree will also enhance opportunities in academic roles or further study towards a PhD.

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The field of medicinal chemistry is becoming increasingly important as we continue to push the boundaries in the discovery of new drugs and applications in healthcare. Read more
The field of medicinal chemistry is becoming increasingly important as we continue to push the boundaries in the discovery of new drugs and applications in healthcare. This MSc in Medicinal Chemistry will allow you to specialise in this area and explore the wider context of drug discovery, business and healthcare.

On the course, you will develop the specific technical knowledge, understanding and laboratory skills needed to design drugs. You will also investigate the relationship between medicinal chemists and drug discovery companies with stakeholders such as patients, investors and governments.

Distinctive features:

• Available on a one year full-time or three year part-time basis.
• Explore medicinal chemistry in a wider industrial context, including how businesses interact with patients and investors.
• Specialise in an area of interest to you with an end of course research project.
• Some industrial and academic placements are available in the UK or abroad for the research project.
• Network and build contacts with industry professionals who are frequently invited to present guest seminars.

Structure

This course may be taken on a one year full-time or three year part-time basis.

There are two parts to the degree. Part one is comprised of core and optional taught modules which you will take during the autumn and spring semesters. In these modules we will provide you with a foundation in the skills required by contemporary medicinal chemists, such as the techniques and trends in modern drug discovery. We will also look in more detail at the modelling of biological macromolecules and drug targets. We will then follow the process of drug development through from laboratory to clinic.

Upon successful completion of part one, you will progress to part two, the summer research project. We will make a range of project options available to you from the field of medicinal chemistry. For this project, depending on the subject you choose, you may work with a research group in the School of Chemistry or our partner, the School of Pharmacy and Pharmaceutical Studies. You may, if available, also be able to complete this project with one of our industrial partners or within another academic institution in the UK or abroad.

Core modules:

Colloquium
Key Skills for Postgraduate Chemists
Drug Discovery Chemistry
Techniques in Drug Discovery
Drug Targets
Drug Development from Laboratory to Clinic
Trends in Drug Discovery
Practical Medicinal Chemistry
Research Project

Optional modules:

Module title Module code Credits
Modelling of Biological Macromolecules
Structure and Mechanism in Organic Chemistry
Biosynthetic Approach to Natural Products
Biocatalysis I - Modern Approaches to Biocatalysts
Biocatalysis II - Industrial Applications of Biocatalysis
Bioinorganic Chemistry
Asymmetric Synthesis of Pharmaceuticals and Natural Products
Advanced Techniques in Organic and Biological Chemistry
Analytical and Structural Techniques in Chemical Biology
Bio-imaging Applications of Coordination Chemistry
Molecular Modelling

Teaching

The methods of teaching we employ will vary from module to module, as appropriate depending on the subject matter and the method of assessment. We teach using a mixture of lectures, workshops, case studies, computer-aided sessions, practicals and tutorials.

Your research project will be carried out in one of our laboratories under supervision of an academic member of staff with interests in a similar field. You may have the opportunity to complete your project during a placement in industry or with one of our academic partner institutions overseas, depending on availability.

Modules relating to computing frequently take place in our computer rooms, while practical work will be undertaken in our laboratories. We will also invite industry experts for seminars with our students within one of the core modules. Students will also benefit of the weekly seminars organized by the School of Chemistry, where leading experts in various scientific fields are invited to present their work.

Support

All of our students are allocated a personal tutor when they enrol on the course. A personal tutor is there to support you during your studies, and can advise you on academic and personal matters that may be affecting you. You should have regular meetings with your personal tutor to ensure that you are fully supported.

You will have access to the Science Library, which holds our collection of chemistry resources, as well as to the other Cardiff University Libraries.

Feedback:

We will provide regular feedback on your workload, written and oral depending on the coursework or assessment you have undertaken. You will usually receive your feedback from the module leader. If you have questions regarding your feedback, module leaders are happy to give advice and guidance on your progress. We aim to provide you with feedback within two weeks of you submitting an assessment.

Assessment

Taught modules are assessed in a variety of different ways depending on the module content and learning outcomes (found in the module descriptions). We use coursework, assessed workshops and presentations or a combination of these to assess your progress on the course.

Your research project at the end of the course will be assessed through a dissertation, a presentation, and an oral exam.

Career prospects

After completing this course there are usually two career streams open to graduates, research or industry. Within these two fields there are a variety of career options. For example, many of our graduates choose to follow up their MSc and decide to complete a PhD research degree with us. Employment opportunities for successful graduates include the expanding worldwide pharmaceutical industry, where many choose to specialise in the research and development of new drugs. Research-related jobs usually require a PhD, for which this programme provides an ideal preparation.

Placements

For the end of course research project we may have some placements available with one of our industrial partners or at another UK or overseas academic institution that we have an agreement with. Please enquire for further details.

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The Graduate Program in Pharmaceutical Sciences, located on the Texas Tech University Health Sciences Center (TTUHSC) campus at Amarillo, Texas offers Masters (M.S.) and Doctoral (Ph.D.) degrees in integrated biomedical/pharmaceutical research as part of the TTUHSC Graduate School of Biomedical Sciences. Read more
The Graduate Program in Pharmaceutical Sciences, located on the Texas Tech University Health Sciences Center (TTUHSC) campus at Amarillo, Texas offers Masters (M.S.) and Doctoral (Ph.D.) degrees in integrated biomedical/pharmaceutical research as part of the TTUHSC Graduate School of Biomedical Sciences.

About the Program

Modern pharmaceutical science encompasses a number of disciplines, including biochemistry, molecular biology, physiology, immunology, pharmacology, pharmaceutics, and medicinal chemistry. The field is unified by the search for novel drug targets and the development of new agents and formulations for the treatment biomedical disease. This includes cutting edge techniques to target drugs to sites of therapeutic action and to reduce adverse effects related to drug metabolism, lack of target selectivity, and pharmacogenetic differences within the human population. PhD’s in pharmaceutical science are well trained for drug discovery and development positions in academic labs, government (e.g., Food and Drug Administration), and the pharmaceutical or biotech industries.
Each student completes a core curriculum including foundation training in biochemistry, physiology, pharmacology and pharmaceutics designed to give students a basic understanding of the biomedical processes by which the body operates and the pharmaceutical agents and delivery systems available to interact with these systems. Electives studies offer the student the opportunity for specialization in more focused areas of interest, including receptor biology, molecular drug action, cell signaling, cancer research, pharmacokinetics, drug metabolism, and biotechnology. Communication, research design, professional skills and ethics are developed throughout the curriculum in complementary courses. Students become immersed in the philosophy of life-long learning and the importance of maintaining and updating their knowledge base as critical, independent thinkers and scientists. The faculty sees this integrated approach as one of the primary strengths of the program, combining cutting-edge molecular and biomedical breakthroughs with modern drug development, targeting and formulation. A broad range of biomedical and pharmaceutical research opportunities are available throughout the department. Focus areas of the Department with links to specific faculty interests are listed below:
Aging/Brain/Neuroprotection/Stroke
Blood Brain Barrier and Neurovascular
Cancer and Molecular Biology & Therapy
Cardiovascular Disease & Regulation
Drug Discovery and Formulation & Pharmacokinetics
Receptor Biology, Cell Signaling & Immunotherapy

Funding

Typically, students may complete a course of study for a Ph.D. degree within 4-5 years or a Masters degree in about half that time (2-2.5 years). Funding is available in the form of stipends ($23,000) from the Department/Graduate School and from individual faculty research resources. These stipends are awarded on a competitive basis to qualifying Ph.D. candidates. Currently, the Department has 43 funded graduate students.

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This course covers a diverse range of pharmaceutical analysis research and includes a substantial research led project. This course enables you to develop and further your knowledge of pharmaceutical and chemical analysis, with a carefully put together range of core modules. Read more
This course covers a diverse range of pharmaceutical analysis research and includes a substantial research led project.

This course enables you to develop and further your knowledge of pharmaceutical and chemical analysis, with a carefully put together range of core modules. You can expand your interests by selecting a pharmaceutical analysis led research project within one of the diverse range of internationally recognised pharmaceutical analysis research groups (alongside PhD students and post doctoral research fellows).

This is a new course which follows on from our well-established BSc Pharmaceutical and Medicinal Chemistry, BSc Chemistry and MChem Chemistry cluster of programmes. Our staff were entered in the Subjects Allied to Heath Care in the 2008 Research Assessment Exercise and were ranked as 4* (world-leading). These results put pharmaceutical and analytical science research at NTU at the highest level and will inevitably appeal to potential students interested in furthering their studies in pharmaceutical analysis.

We have links scientists from AstraZeneca and Vectura deliver some of the module content relevant to their workplace. Other guest lecturers from a variety of other companies and universities also present their research.

Modules

-Organic Synthesis and Characterisation of Biologically Active Compounds
-Drug detection, analysis, and screening
-Research Methods and Independent Study
-Research Project

COME VISIT US ON OUR NEXT OPEN DAY!

Register here: https://www.ntu.ac.uk/university-life-and-nottingham/open-days/find-your-open-day/science-and-technology-postgraduate-and-professional-open-event2.

The course is a part of the School of Science and Technology (http://www.ntu.ac.uk/sat) which has first-class facilities (http://www.ntu.ac.uk/sat/facilities).

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This course is designed for graduates of chemistry, pharmacy and other related sciences who are contemplating a career in the pharmaceutical industry, academia, the NHS or with government agencies such as drug licensing authorities. Read more
This course is designed for graduates of chemistry, pharmacy and other related sciences who are contemplating a career in the pharmaceutical industry, academia, the NHS or with government agencies such as drug licensing authorities.

The programme provides a good background in basic pharmaceutical sciences followed by advanced training in drug discovery, drug product design, drug delivery, pharmacology, microbiology and regulatory processes. It also offers advanced practical experience and supervised training, together with an opportunity to undertake an in-depth research project as part of an active research group.

This course is suitable for both UK and non-UK graduates, and international students benefit from our excellent support networks.

Scholarships

Scholarships are available for this course. Please click the link below for more information.
https://www.brighton.ac.uk/studying-here/fees-and-finance/postgraduate/index.aspx

Course structure

This course is one calendar year, full-time, involving 30 weeks of taught modules divided into two 15-week semesters, and a project which is largely carried out during the remaining time.

Students may have the opportunity to undertake a short industrial placement (optional) during their second semester. A four-month research project is integrated into the second semester, on completion of which you will be required to submit a 10,000 word dissertation. The assessment of each taught module includes coursework and a written examination paper at the end of semester two.

Past research project topics include the development of novel transdermal formulations containing naturally occurring antioxidants as sunscreen agents, and the use of mucoadhesive gels for vaginal drug delivery.

Syllabus

During the course you will:

• develop knowledge and understanding of the role of drug discovery; biological processes involved in drug action; drug product design; quality assurance, quality control and regulatory affairs
• develop knowledge and understanding of the chemical principles underlying the design, action and disposition of drug molecules
• appreciate aspects of drug ADME and the underlying mathematical principles, mechanisms of action and adverse effects of drug treatments and the phenomenon of drug interactions
• develop an understanding of the microbiological processes involved in the development and quality assurance of non-sterile and sterile medicines and devices including biotechnology products
• develop knowledge and understanding of the basic principles and current trends in the formulation design and manufacture of pharmaceutical dosage forms
• deveop an appreciation of the physicochemical and biological factors which affect uniformity, performance, stability and bioavailability of pharmaceutical products.

Modules:

Research Project
Research Methods
Pharmacology and Drug Development
Regulatory Affairs
Industrial Pharmacy, QA and QC
Current Research in Pharmacy and Pharmacology

Options:

Industrial Placement
Advanced Pharmaceutical Analysis
Advanced in Biochemical and Clinical Analysis
Quality Issues in Complementary Therapies That Utilise Plants
New Medicinal Products: From Inception to Market
Industrial Manufacturing Processes
Advanced Drug Delivery

Careers and Employability

This course will equip you for a career in the pharmaceutical industry, NHS, academic centres, research institutions or with government agencies such as drug licensing authorities. Our graduates are also well placed to apply for a PhD.

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

During this course, you will gain the skills and knowledge required as a pharmacist - the ability to provide effective pharmaceutical formulation strategies for current and future drug therapies and medicinal products.

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 Skill
-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
-Pharmacology

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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The Masters in Chemistry with Medicinal Chemistry will extend your depth and breadth of knowledge in all branches of chemistry, but with some specialisation in medicinal chemistry, suitable for a professional medicinal chemist capable of conducting research. Read more
The Masters in Chemistry with Medicinal Chemistry will extend your depth and breadth of knowledge in all branches of chemistry, but with some specialisation in medicinal chemistry, suitable for a professional medicinal chemist capable of conducting research.

Why this programme

-The School of Chemistry is a member of ScotCHEM that brings together seven Universities in Scotland. ScotCHEM is committed to excellence and to providing the highest quality postgraduate education and researcher experience.
-You will benefit from our links with industrial scientists, often from pharmaceutical companies, who regularly visit the School of Chemistry to give presentations.
-All of our Masters programmes in the School of Chemistry are accredited by the Royal Society of Chemistry.
-You will undertake a research project embedded within one of our internationally-leading research groups, and supplemented by specialist lecture courses.
-You will develop transferable skills that will improve your career prospects, such as project management, team-working, advanced data analysis, problem-solving, preparing and presenting oral and poster presentations, critical evaluation of scientific literature, advanced laboratory and computing skills, and how to effectively communicate with different audiences.
-Our Masters programmes will, therefore, provide an excellent foundation for any kind of career of scientific leadership in academia and industry.
-The chemistry research school of the Universities of Glasgow and Strathclyde are linked in WestCHEM, forming a broad, dynamic research environment.

Programme structure

From September to March, you will attend lectures and tutorials. You will undertake a 12-week research project from June to August, which will provide practical application and consolidation of earlier work and enhance your ability to do independent work and present results effectively.

Core courses
-Inorganic, organic and physical chemistry
-Medicinal chemistry
-Frontiers of chemistry
-Chemistry problems.
-Special topics from inorganic, organic, and physical chemistry

Accreditation

MSc Chemistry with Medicinal Chemistry is accredited by the Royal Society of Chemistry (RSC).

Career prospects

Career opportunities in the chemical or pharmaceutical industry, from bench work and instrumentation to regulatory affairs, health & safety, and intellectual property/patents. Research-related jobs usually require a PhD, for which this programme provides an ideal preparation.

Graduates of this programme have gone on to positions such as:
-Researcher at Piramal Healthcare UK Ltd
-Assistant Lecturer and Researcher at a university

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