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Masters Degrees (Cellular Science)

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With constant developments across all disciplines, biomedical science is a fast-paced, ever-evolving field. Read more
With constant developments across all disciplines, biomedical science is a fast-paced, ever-evolving field. Looking for a programme that will help you deepen your theoretical knowledge, hone your clinical skills and broaden your professional experience? We give you a suite of award pathways that allow you to explore different research areas, develop your specialisms and focus your study into a practical clinical research project.

Key features

-Tap into the expertise of academic lecturers and tutors actively researching and developing new techniques in modern biomedical science. Our programme has a strong international reputation in translational research, with significant financial investment in laboratory infrastructure.
-Hone your skills and critical thinking, and grow your clinical experience.
-Work with high specification, regularly updated facilities serving post-genomics and proteomics, cell biology and imaging.
-Enrich your learning with teaching, expertise and insight from our NHS partners, plus members of Plymouth University School of Biomedical and Healthcare Sciences.
-Deepen your understanding with modules that explore modern practice, emerging techniques and the impact of new technologies on research methods.
-Benefit from a programme that’s reinforced by the research, facilities and expertise of the Centre for Biomedical Research and the Systems Biology Centre. Attend research events and work with leading scientists in a wide range of fields, including immunology, haematology and genomics.
-Focus your specific interests under the guidance of your personal project advisor and develop an individual final project within the Centre for Biomedical Research and the Systems Biology Centre.
-Gain the skills needed to study at masters level with specialist modules on research techniques and project development.

Choose from our modules to follow a path of study resulting in one of following MSc awards:
-Biomedical Science (Cellular Pathology)
-Biomedical Science (Clinical Biochemistry)
-Biomedical Science (Haematology and Transfusion)
-Biomedical Science (Immunology)
-Biomedical Science (Medical Genetics)
-Biomedical Science (Medical Microbiology)
-Begin your career with the confidence that the MSc Biomedical Science suite of awards are accredited by the Institute of Biomedical Science.
-Take the course as a full-time intercalated degree programme for those wishing to interrupt their studies as a medical or dental student.

For more information about the part-time version of this course, view this web-page: https://www.plymouth.ac.uk/courses/postgraduate/msc-biomedical-science-2

Course details

You’ll take five modules: three core modules, one diagnostic research applications module, plus one discipline-specific module to determine your final award. You'll design and execute a research project, supported by your project advisor. Other core modules include molecular biology (genomics, transcriptomics and proteomics) and project design and development, where you’ll also critically review scientific literature. Options for the diagnostic research applications include bioinformatics, contemporary applications of cell biology, and contemporary science of infection and immunity. Focussing in on the discipline that interests you the most for your final award, you can choose from a range of modules including: clinical immunology, clinical microbiology, haematology and transfusion, medical genomics and personalised medicine, molecular and cellular pathology and clinical biochemistry.

Core modules
-BIOM5005 Project Design and Development
-BIOM5001 Molecular Biology: Genomics, Transcriptomics and Proteomics
-BIOM5006 Research Project

Optional modules
-BIOM5008 Clinical Microbiology
-BIOM5002 Contemporary Applications of Cell Biology
-BIOM5003 Contemporary Science of Infection and Immunity
-BIOM5014 Bioinformatics
-BIOM5007 Cellular Basis of Clinical Immunology
-BIOM5009 Haematology and Transfusion
-BIOM5010 Medical Genomics and Personalised Medicine
-BIOM5011 Molecular and Cellular Pathology
-BIOM5012 Clinical Biochemistry

Every postgraduate taught course has a detailed programme specification document describing the programme aims, the programme structure, the teaching and learning methods, the learning outcomes and the rules of assessment.

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The Pre-Masters in Biomedical Science (Graduate Diploma in Biomedical Science) provides a discipline-specific pathway (a pre-masters year) into the taught Biomedical Blood Science masters level programme. Read more

Overview

The Pre-Masters in Biomedical Science (Graduate Diploma in Biomedical Science) provides a discipline-specific pathway (a pre-masters year) into the taught Biomedical Blood Science masters level programme. It is a one-year full-time programme designed for both home and international students, with a background in life sciences, who wish to study at postgraduate level for the MSc in Biomedical Blood Science. The programme is open to science graduates who do not meet the academic criteria for a direct entry into the MSc. The MSc in Biomedical Blood Science is accredited by the Institute of Biomedical Science (IBMS). The IBMS is the professional body of Biomedical Scientists within the United Kingdom. The IBMS aims to promote and develop the role of Biomedical Science within healthcare to deliver the best possible service for patient care and safety.

See the website https://www.keele.ac.uk/pgtcourses/biomedicalsciencegraduatediploma/

Course Aims

The overall aim is to provide the students with the academic background necessary for the masters programme and to enable them to develop and practise the subject specific academic skills required for the intensive pace of study at masters level. The course also aims to allow international students to benefit from English language support that will help them to develop their academic English language skills.

Intended learning outcomes of the programme reflect what successful students should know, understand or to be able to do by the end of the programme. Programme specific learning outcomes are provided in the Programme Specification available by request; but, to summarise, the overarching course aims are as follows:

- To provide students with core knowledge, understanding and skills relevant to Biomedical Science

- To produce skilled and motivated graduates who are suitably prepared for the MSc in Biomedical Science and for further study.

- To cultivate interest in the biosciences, particularly at the cellular and molecular level, within a caring and intellectually stimulating environment.

- To get an accurate insight into the role of Biomedical Scientists in the diagnosis, treatment and monitoring of disease.

- To develop an understanding of the analytical, clinical and diagnostic aspects of Cellular Pathology, Clinical Biochemistry, Medical Microbiology, Blood Transfusion, Clinical Immunology and Haematology pathology laboratories.

- To promote the development of a range of key skills, for use in all areas where numeracy and an objective, scientific approach to problem-solving are valued.

- To provide students with a wide range of learning activities and a diverse assessment strategy in order to fully develop their employability and academic skills, ensuring both professional and academic attainment.

- To promote the development of critical thinking, autonomous learning, independent research and communication skills to help prepare the students for the MSc in Biomedical Blood Science and for a lifetime of continued professional development.

Course Content

All the modules in this one year programme are compulsory. The programme consists of a total of 90 credits made up of one 30 credit module and four 15 credit modules. An additional English module (English for Academic Purposes) will be offered for non-native English speakers if required. This module will not form part of the overall award, but successful completion is required for progression to the Masters programme.

Modules:
- Biomedical Science and Pathology (30 credits):
The module provides the student with the knowledge and understanding of the pathobiology of human disease associated with Cellular Pathology, Clinical Immunology, Haematology, Clinical Biochemistry, Medical Microbiology and Clinical Virology. It also examines the analytical and clinical functions of three more of the major departments of a modern hospital pathology laboratory, including Haematology, Clinical Pathology, Clinical Immunology, Blood Transfusion, Clinical Biochemistry and Medical Microbiology. In addition, the module will give an accurate insight into the role of Biomedical Scientists and how they assist clinicians in the diagnosis, treatment and monitoring of disease.

- Biochemistry Research Project (non-experimental) (15 credits):
This module aims to introduce students to some of the key non-experimental research skills that are routinely used by biochemists and biomedical scientists, such as in depth literature searching, analysis of experimental data and the use of a computer as tool for both research (bioinformatics) and dissemination of information (web page construction). The student will research the literature on a specific topic, using library and web based resources and will produce a written review. In addition, the student will either process and interpret some raw experimental data provided to them.

- Advances in Medicine (15 credits):
This module will describe and promote the understanding of advances in medicine that have impacted on diagnosis, treatment, prevention of a range of diseases. It will highlight fast emerging areas of research which are striving to improve diagnosis including nanotechnology and new biochemical tests in the fields of heart disease, cancer and fertility investigations which will potentially improve patient care.

- Clinical Pathology (15 credits):
The majority of staff that contribute to the module are employees of the University Hospital of North Staffordshire (UHNS). Students will benefit from lectures and expertise in Clinical Diagnostic Pathology, Pharmacology, Biochemistry, Genetics and Inflammatory Diseases. Students will gain an insight into how patients are managed, from their very first presentation at the UHNS, from the perspective of diagnosis and treatment. The course will cover both standardised testing options and the development of new diagnostic procedures with a particular emphasis on genetic and epigenetic aspects of disease. Students will also gain an appreciation of the cost benefit of particular routes for diagnosis and treatment and the importance of identifying false positive and false negative results. Finally, the students will have the opportunity to perform their own extensive literature review of a disease-related topic that is not covered by the lectures on the course.

- Case Studies in Biomedical Science (15 credits):
This module aims to give you an understanding of the UK health trends and the factors that affect these trends. Through clinical case studies and small group tutorials, you will explore why the UK has some of the highest incidences of certain diseases and conditions in Europe and consider what factors contribute to making them some of the most common and/or rising health problems faced by this country. This will include understanding the relevant socioeconomic factors as well as understanding the bioscience of the disease process and its diagnosis and management. You will also focus on what is being done by Government and the NHS to tackle these major health problems.

- English for Academic Purposes (EAP ):
For non-native English speakers if required

Teaching & Assessment

In addition to the lecture courses and tutorials, problem based learning (PBL) using clinical scenarios is used for at least one module. Students will also be given the opportunity to undertake an independent non-experimental research project, supervised and supported by a member of staff. Web-based learning using the University’s virtual learning environment (KLE) is also used to give students easy access to a wide range of resources and research tools, and as a platform for online discussions and quizzes. Students will be given many opportunities to become familiar with word processing, spreadsheets and graphics software as well as computer-based routes to access scientific literature.

All modules are assessed within the semester in which they are taught. Most contain elements of both ‘in-course’ assessment (in the form of laboratory reports, essays, posters) and formal examination, although some are examined by ‘in-course’ assessment alone.

Additional Costs

Apart from additional costs for text books, inter-library loans and potential overdue library fines we do not anticipate any additional costs for this post graduate programme.

Find information on Scholarships here - http://www.keele.ac.uk/studentfunding/bursariesscholarships/

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This course is delivered by specialists, who are engaged in cutting-edge research, and a variety of visiting specialist lecturers, ranging from Hospital Consultants to Senior Biomedical Scientists. Read more
This course is delivered by specialists, who are engaged in cutting-edge research, and a variety of visiting specialist lecturers, ranging from Hospital Consultants to Senior Biomedical Scientists. These sessions, which specifically focus on developing areas of biomedical science common to all associated disciplines, include recent advances in genetics and immunology, which will equip you with the skills necessary to either complement your clinical laboratory responsibilities if you are currently employed, or to provide you with essential skills needed for seeking future employment or starting a research career. The course is also a suitable stepping-stone for those considering a career in biomedical research.

IBMS (Institute of Biomedical Science)-accredited

The course we provide leads to an Institute of Biomedical Science (IBMS) accredited MSc Award. As an Institution we have held accredited status for this award for over 25 years, and this is borne out by its continued accreditation by our professional body.

*Please note: although this MSc is accredited by the IBMS, completion of this course does not allow you to practice as a registered Biomedical Scientist. To do that, you would need to have studied out Accredited Undergraduate Award and completed your registration portfolio. If you are interested in our BSc (Hons) Biomedical Science award please visit: http://courses.wlv.ac.uk/course.asp?code=BM021H31UVD.

What happens on the course?

Typical modules may include
- Molecular Genetics & Genomics
- Principles of Integrated Biomedical Science
- Clinical Immunology
- Specialist Module in Cellular Pathology
- Independent Study Module 1 or 2
- Research Methods in Biomedical Science
- Biomedical Science Research Project

Part-time students study core (and most optional) modules on one full day of the week, minimising the time away from work.

Why Wolverhampton?

- IBMS accredited for over 25 years
- Extensive local hospital links
- Cutting edge lectures from hospital consultants and senior biomedical scientists
- Innovative teaching methods
- Highly research-focused environment: you can take projects in the workplace or in our state-of-the-art new laboratories

Career path

The full-time MSc Biomedical Science route is attractive if you are seeking an academic research career and/or wish to make yourself highly employable in a research laboratory, University Laboratory or in the pharmaceutical industry. You may also wish to continue with a research career, and study towards a PhD.

The part-time route (also available as specialist routes in Medical Microbiology, Clinical Biochemistry, or Haematology) is designed for students in full-time employment in biomedical laboratories who are allowed day-release by their employers to improve their professional knowledge.

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In recent decades, life science research has enabled enormous breakthroughs in our understanding of fundamental molecular and cellular processes and mechanisms of life. Read more
In recent decades, life science research has enabled enormous breakthroughs in our understanding of fundamental molecular and cellular processes and mechanisms of life. The MSc programmes in Life Science & Technology in Leiden and Delft are complementary.

Visit the website: http://en.mastersinleiden.nl/programmes/life-science-technology/en/introduction

Course detail

Life Science & Technology researches the processes in the living cell. The cell is the building block of life, the smallest unit with the characteristics of living systems. Increased knowledge of the mechanisms of the cell can lead to a cleaner industry, better medicines, new methods for combating diseases and isolating enzymes for the development of improved foodstuffs.

Specialisations

- Life Science and Education
- Life Science and Science Communication and Society
- Life Science Research and Development
- Life Science-Based Business Development

Format

The programme consists of three parts:

1) Research internship
2) Compulsory programme
3) Electives

Knowledge about genomic organisation, studies of protein-protein interactions and the characterisation of molecular structures have become central in modern life science research and technology. This knowledge forms the basis of the molecular understanding of health and disease. It finds important applications in innovative health care, in the pharmaceutical industry and in so-called ‘red’ biotechnology, and is the focus of the Leiden programme.

Reasons to Choose Life Science & Technology in Leiden

1) Life Science & Technology educates MSc students in fundamental academic and applied technology elements within Life Sciences.

2) This master’s programme is based on the collaboration between the two internationally well-known Leiden Institute of Chemistry and the Biotechnology Institute, Delft University of Technology.

3) Students will become full members of the various multidisciplinary internationally reputed research groups.

4) This master’s programme offers opportunities for carrying out research projects in excellent research groups worldwide and in industrial situations.

5) The high standard of education and research facilities ensure excellent job prospects in industry, government and academia.

Careers

Life science research and business is one of the fastest growing economic activities worldwide. The aim of each programme is to train students as independent scientists, and to develop the necessary skills and proficiency to advance their career.

After completing our MSc programme, students have a broad array of career prospects. The master’s degree is a stepping-stone for those graduates with the aspiration to pursue a PhD degree. Students with a desire to apply their knowledge of the life sciences outside the university have good job possibilities in R&D departments in industry, business, public utility companies, teaching, consultancy and government bodies. Many students eventually attain higher management positions. The Leiden Institute of Chemistry houses the Leiden Cell Observatory, a core facility in life science education. The institute is located in the largest Bioscience Park within the Netherlands, where there are ample job opportunities.

How to apply: http://en.mastersinleiden.nl/arrange/admission

Funding

For information regarding funding, please visit the website: http://prospectivestudents.leiden.edu/scholarships

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This MSc programme will provide you with the skills required to understand the entrepreneurship and innovation required for the software industry. Read more
This MSc programme will provide you with the skills required to understand the entrepreneurship and innovation required for the software industry. Many national and multinational companies employ computer science graduates in areas such as software development and engineering, artificial intelligence, systems and networks, database and systems security as well as mobile multimedia, modelling, research and development. You will also get the chance to demonstrate the skills you have learned by completing a substantial research and development project.

Visit the website: http://www.ucc.ie/en/ckr40/

Course Details

Students must attain 90 credits through a combination of:

- Core Modules (30 credits)
- Elective Modules (30 credits) (15 credits from Group 1 and 15 credits from Group 2 below)
- Research & Development Project (30 credits)

Core Modules

CS6403 Case Studies in Computing Entrepreneurship (5 credits) - Dr. John Herbert
CS6406 Large-Scale Application Development and Integration 1 (5 credits) - Prof. Gregory Provan
CS6407 Large-Scale Application Development and Integration 2 (5 credits) - Prof. Gregory Provan
CS6408 Database Technology (5 credits) - Mr. Humphrey Sorensen
CS6409 Information Storage and Retrieval (5 credits) - Mr. Humphrey Sorensen
CS6410 Project Development Skills (5 credits) - Mr. Marc Van Dongen

Elective Modules Group I

CS6312 Mobile Devices and Systems (5 credits) - Dr. Dan Grigoras
CS6314 Mobile Applications Design (5 credits) - Dr. Sabin Tabirca
CS6320 Formal Methods for Distributed Systems (5 credits) - Dr. John Herbert
CS6321 Model-Based Software Development (5 credits) - Dr. John Herbert
CS6322 Optimisation (5 credits) - Dr. Steve Prestwich

Elective Modules Group 2

CS6313 Services and Mobile Middleware (5 credits) - Dr. Dan Grigoras
CS6315 Mobile Systems Security (5 credits)
CS6316 Cellular Network Services (5 credits)
CS6317 Multimedia Technology in Mobile Networks (5 credits) - Dr. Sabin Tabirca
CS6323 Analysis of Networks and Complex Systems (5 credits) - Prof. Gregory Provan
CS6325 Network Security (5 credits) - Dr. Simon Foley
CS6405 Datamining (5 credits) - Dr. Marc Van Dongen

Research Phase (after period 2)

CS6400 Dissertation in Computing Science (30 credits)

Assessment

Full details and regulations governing Examinations for each programme will be contained in the Marks and Standards 2015 Book and for each module in the Book of Modules 2015/2016 - http://www.ucc.ie/modules/

- Postgraduate Diploma in Computing Science -

Students failing to achieve an aggregate of at least 60% across all modules but who achieve a pass in each of the taught modules at their first attempt graduate with a Postgraduate Diploma in Computing Science. Students may also opt to exit the programme and graduate with a Postgraduate Diploma in Computing Science provided they have achieved a pass in each module.

Careers

Companies actively recruiting Computer Science graduates in 2014-15 include:

Accenture, Aer Lingus, Amazon, Apple, Bank of America Merrill Lynch, Bank of Ireland, BT, Cisco, CiTi-Technology, Cloudreach, Dell, Digital Turbine Asia Pacific, EMC, Enterprise Ireland, Ericsson, First Derivatives, Guidewire, IBM, Intel, Open Text, Paddy Power, Pilz, PWC, SAP Galway Transverse Technologies, Trend Micro, Uniwink, Version 1 (Software).

How to apply: http://www.ucc.ie/en/study/postgrad/how/

Funding and Scholarships

Information regarding funding and available scholarships can be found here: https://www.ucc.ie/en/cblgradschool/current/fundingandfinance/fundingscholarships/

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The first programme of its kind in the UK, combining biological and medical science with business, law and bioethics. Designed to develop expertise in the biological, commercial and regulatory aspects of cellular therapy, along with its application in biomedicine. Read more

Overview

The first programme of its kind in the UK, combining biological and medical science with business, law and bioethics. Designed to develop expertise in the biological, commercial and regulatory aspects of cellular therapy, along with its application in biomedicine. Equips students to pursue a business-based career in cellular therapy or related disciplines.

Key Benefits

- Work alongside leaders in the field at King’s Centre for Stem Cells and Regenerative Medicine – a focal point in the UK for cutting edge research in this field.
- Produce credible business plans for the application of cellular therapy in clinical settings, taking into consideration science, patient benefits, ethical code, regulations and market laws.
- Learn to conduct investigations, analyse the results using various qualitative and quantitative methods and draw valid conclusions for commercialisation of cellular therapy.
- Mentoring sessions by King’s academics and external guests
- Outstanding networking opportunities with leaders in the field (scientists, biotechnology/pharma, financial services, stem cell manufacturing, regulatory and public sectors)

Visit the website: http://www.kcl.ac.uk/study/postgraduate/taught-courses/cellular-therapy-from-bench-to-market-msc.aspx

Course detail

- Description

The programme is designed to develop expertise in the biological, commercial and regulatory aspects of cellular therapy, along with its application in the various fields of biomedicine. Students will be equipped to pursue a business-based career in cellular therapy or related discipline.

Cellular therapies have attracted much interest in recent years in virtually all disciplines of medicine with over 2,700 clinical trials enrolled between 2000 and 2010. As of today, http://www.clinicaltrials.gov has over 27,800 registered cellular therapy clinical trials. The complexity of issues relating to cell manufacturing, the underlying regulatory framework, reimbursement and viable business models, each represent challenges that profoundly undermine the timing and the delivery of a viable healthcare model.Our programme will provide tools that aid the understanding of these complex issues within an integrated and commercial context.

- Course purpose -

- To equip students to pursue a business-based career in cellular therapy or a related discipline, especially in areas involving medical applications.

- To educate the students to understand the biological, regulatory and business aspects of cellular therapy, along with their application in the various fields of biomedicine.

- To develop ability to conduct investigations, analyse the results using various qualitative and quantitative methods and draw valid conclusions for the commercialisation of cellular therapy.

- To stimulate critical, analytical problem-solving abilities and evidence-based decision making in the commercial aspects of cellular therapy.

- Course format and assessment -

Students are mainly assessed by coursework, reports, class tests, poster, oral presentations and development of a credible business plan. There is a formal exam for one optional module

Career prospects

With a strong participation of professionals from both industry and business sectors, we will prepare students for careers in business development, and commercialisation of stem cells products and services. Students may also wish to pursue a career in research.

How to apply: http://www.kcl.ac.uk/study/postgraduate/apply/taught-courses.aspx

About Postgraduate Study at King’s College London:

To study for a postgraduate degree at King’s College London is to study at the city’s most central university and at one of the top 20 universities worldwide (2015/16 QS World Rankings). Graduates will benefit from close connections with the UK’s professional, political, legal, commercial, scientific and cultural life, while the excellent reputation of our MA and MRes programmes ensures our postgraduate alumni are highly sought after by some of the world’s most prestigious employers. We provide graduates with skills that are highly valued in business, government, academia and the professions.

Scholarships & Funding:

All current PGT offer-holders and new PGT applicants are welcome to apply for the scholarships. For more information and to learn how to apply visit: http://www.kcl.ac.uk/study/pg/funding/sources

Free language tuition with the Modern Language Centre:

If you are studying for any postgraduate taught degree at King’s you can take a module from a choice of over 25 languages without any additional cost. Visit: http://www.kcl.ac.uk/mlc

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This masters programme is designed to prepare you for a career in research in molecular and cellular biology and its applications. Read more
This masters programme is designed to prepare you for a career in research in molecular and cellular biology and its applications.

It comprises a year of intensive training and research experience leading to the award of an MRes degree which will give you a ‘flying start’ to a subsequent PhD programme, if this is your chosen career path.

This programme is designed to prepare you for a career in research in molecular and cellular biology and its applications. It comprises a year of intensive training and research experience leading to the award of an MRes degree which will give you a ‘flying start’ to a subsequent PhD programme, if this is your chosen career path.

The programme aims to provide training in the practical aspects that underlie research science in this field. To achieve this aim the course contains a very high level of hands-on research, as it is our view there is no better training than lab experience.

Programme content

Two-thirds of the programme is taken up by two approximately 18-week research projects, which are undertaken in different laboratories and with different supervisors. A very wide range of research topics falling within the scope of molecular and cellular biology is available within the School; this range extends from structural biology at one extreme to multicellular systems at the other.

In addition to this direct research experience, there are two compulsory taught modules which provide training in:

- Science Funding and Enterprise Skills in Biosciences
- Techniques in Molecular and Cellular Biology
These modules cover the basic principles underlying scientific research methods and the design of biological/biochemical experiments, and discussion of modern techniques in molecular and cellular biology. In addition, the science funding and enterprise module provides the skills required to obtain funding for sciences. This includes grant and business case writing and scientific presentation skills. You can also take courses to develop general research skills arranged through the Biosciences Graduate Research School.

The taught modules consist of a combination of seminars and lectures. The lab work that is carried out during the course is student-led. You will be able to choose areas of molecular and cellular biology that fit with your career aspirations.

Assessment

The two taught modules are assessed via examination, essays and oral presentations. The two research projects are assessed via written thesis and an oral examination.

Skills gained

This programme offers the following advantages:

Broad training in the skills and techniques of contemporary research in molecular and cellular biology
The opportunity to experience research in at least two different areas
Increased breadth and experience, which will enhance subsequent employability
The course will also enable you to:

Conduct and fund independent research
Present research results in an appropriate manner both written and orally
Have an appreciation and knowledge of the use of modern techniques in molecular and cellular biology
Build and develop scientific research projects in the public and private sector
Careers

Those who perform effectively in the MRes often continue at Birmingham to a PhD; however, the MRes also provides a very good qualification to move into research and a wide range of professions.

About the School of Biosciences

As one of the top biosciences departments in the UK, our research covers the entire spectrum of cutting-edge biosciences. We are home to the Institute of Microbiology and Infection and part of the University’s Systems Science for Health initiative.
Our research focuses on a number of important themes that run through modern biological and biochemical research: Biosystems and Environmental Change; Microbiology and Infection; Molecules, Cells, Signalling and Health; and Plant Science.
Our postgraduate students join a diverse international community of staff and students. For students on research degrees, the annual Biosciences Graduate Research Symposium, organised by PhD students, is an example of an event where the whole School comes together to talk about science.
We have extensive high-technology facilities in areas such as functional genomics, proteomics and metabolomics, including a world-class Advanced Mass Spectrometry Facility. Our cutting-edge facilities extend to protein structure determination and analysis, confocal microscopy, drug discovery, horticulture, structural biology and optical imaging. The £8 million Phenome Centre Birmingham is a large metabolic phenotyping facility led by internationally recognised metabolomics and clinical experts at the University of Birmingham, in collaboration with Birmingham Health Partners.

Funding and Scholarships

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

Open Days

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

Virtual Open Days

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

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Cellular pathology is the study of structural and functional changes in cells, tissues and organs that underlie disease. It is a dynamic, fast-evolving specialism which saves many lives by providing rational clinical care and therapy in the fight against many serious diseases, particularly cancer. Read more
Cellular pathology is the study of structural and functional changes in cells, tissues and organs that underlie disease. It is a dynamic, fast-evolving specialism which saves many lives by providing rational clinical care and therapy in the fight against many serious diseases, particularly cancer.


Why study MSc Cellular Pathology at Middlesex?

Our Biomedical Science courses have a burgeoning international reputation, due to our world-class research in areas including biomarkers, public health and biomodelling. Our Centre for Investigative and Diagnostic Oncology has pioneered techniques for cancer diagnosis and treatment, including our breakthrough in the development of a vaccine for bladder cancer.

Our course has a strong practical element, with an emphasis on developing the skills needed in a laboratory and gaining hands-on experience of diagnostic techniques, and our teaching and research facilities surpass those at some UK medical schools. Our £3 million specialist labs are equipped with the most up-to-date technology; here you'll learn to use cutting-edge techniques and equipment for cellular and molecular analysis, such as MALDI-TOF mass spectrometers, flow cytometers, DNA sequencing, real-time PCR, electrophoresis and high-performance liquid chromatography, histology and confocal microscopy. We also have fully-equipped proteomics facilities, a histopathology lab and an incredibly modern cell culture facility.

Course highlights

- All our teaching staff are involved in research and many are pioneers in their own field. Course leader Professor Lucy Ghali is an expert in immunohistochemistry; other teaching staff include Dr Frank Hills, a former clinical scientist at St Bartholomew's Hospital; Dr Ajit Shah, a former principal scientist at GlaxoSmithKline; Sandra Appiah, a former research scientist at Leatherhead Food Research; and Professor Stephen Dilworth, Professor Lucy Ghali and Dr Song Wen are world experts on cancer and Biomarkers.
- The course is accredited by the Institute of Biomedical Science, so on graduation you'll have fulfilled the academic requirement for Licentiate membership of the institute; you can apply for student membership while you study.
- We work with London hospitals and NHS laboratories to ensure you're fully versed in both the latest practice and the latest research. - You'll visit diagnostic laboratories and of course, our location gives you easy access to the British Library, the Science Museum, the Royal Institution and more.
- Our staff are supportive and hands-on – ever-ready with advice on your studies, they're also known for their strong pastoral care and for going the extra mile for their students.
- Our flexible timetable means you'll only spend two days a week at university if you're studying full-time, or one if you're part-time.

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The course offers you the opportunity to address the developing areas of biomedical science common to all associated disciplines, including recent advances in genetics and immunology, and to equip yourself with the research skills necessary to complement your clinical laboratory responsibilities. Read more
The course offers you the opportunity to address the developing areas of biomedical science common to all associated disciplines, including recent advances in genetics and immunology, and to equip yourself with the research skills necessary to complement your clinical laboratory responsibilities.

This course is delivered by specialists, who are engaged in cutting-edge research, and a variety of visiting specialist lecturers, ranging from Hospital Consultants to Senior Biomedical Scientists. These sessions, which specifically focus on developing areas of biomedical science common to all associated disciplines, include recent advances in genetics and immunology, which will equip you with the skills necessary to either complement your clinical laboratory responsibilities if you are currently employed, or to provide you with essential skills needed for seeking future employment or starting a research career. The course is also a suitable stepping-stone for those considering a career in biomedical research.

IBMS (Institute of Biomedical Science)-accredited

The course provides a number of optional routes which lead to IBMS (Institute of Biomedical Science)-accredited awards* for those currently in, or planning a career in, the Medical Laboratory profession. The route options are: Cellular Pathology, Clinical Biochemistry, Haematology, Medical Microbiology and a generic route. As an Institution we have held accredited status for this award for over 25 years, and this is borne out by its continued accreditation by our professional body.

*Please note: although this MSc is accredited by the IBMS, completion of this course does not allow you to practice as a registered Biomedical Scientist. To do that, you would need to have studied out Accredited Undergraduate Award and completed your registration portfolio. If you are interested in our BSc (Hons) Biomedical Science award please visit: http://courses.wlv.ac.uk/course.asp?code=BM021H31UVD.

What happens on the course?

Typical modules may include
- Molecular Genetics & Genomics
- Principles of Integrated Biomedical Science
- Clinical Immunology
- Specialist Module (from Cellular Pathology, Clinical Biochemistry, Haematology or Medical Microbiology)
- Independent Study Module 1 or 2
- Research Methods in Biomedical Science
- Biomedical Science Research Project

Part-time students study core (and most optional) modules on one full day of the week, minimising the time away from work.

Why Wolverhampton?

- IBMS accredited for over 25 years
- Extensive local hospital links
- Cutting edge lectures from hospital consultants and senior biomedical scientists
- Innovative teaching methods
- Highly research-focused environment: you can take projects in the workplace or in our state-of-the-art new laboratories

Career path

The full-time MSc Biomedical Science route is attractive if you are seeking an academic research career and/or wish to make yourself highly employable in a research laboratory, University Laboratory or in the pharmaceutical industry. You may also wish to continue with a research career, and study towards a PhD.

The part-time route (also available as specialist routes in Medical Microbiology, Clinical Biochemistry, Cellular Pathology or Haematology) is designed for students in full-time employment in biomedical laboratories who are allowed day-release by their employers to improve their professional knowledge.

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Pharmaceutical Science will appeal to those of you who want to understand how the human body functions at a molecular level and the science that we can use to manage human health. Read more
Pharmaceutical Science will appeal to those of you who want to understand how the human body functions at a molecular level and the science that we can use to manage human health.

Based in our state-of-the-art Science Centre, you will explore the biochemical and cellular make-up of the human body, investigate what happens when things go wrong through, for example disease or illness, and how these may be prevented or cured by the action of drugs.

Alongside this, you will build a clear understanding of drugs and medicines, their structures, discovery and development, their biological delivery and activity, and their testing, regulation, production and quality assurance by analytical methods.

The MSci course combines Bachelors-level and Masters-level study in one integrated programme, giving you the opportunity to undertake professional work experience or an extended research project. However, whichever degree you choose to complete, you’ll develop wide ranging specialist skills and an in-depth knowledge of pharmaceutical science and its industry.

If you would like to study this degree but your current qualifications do not meet our entry requirements for degree level study, our Pharmaceutical Science with a Foundation Year is available.

Course content

In Year 1, you’ll be introduced to the theoretical principles and practical techniques of pharmaceutical science and pharmacology. You’ll study the underpinning biology and chemistry and learn about the activity of drugs on the human body.

During Year 2, you’ll look more thoroughly at the analysis and quality assurance of drugs using a range of laboratory techniques and QA methodologies. Your understanding of the human body will extend to the molecular and cellular levels, giving you the depth of knowledge to understand the functions of a healthy body and when disease and illness strike.

Between years 2 and 3 you will take the sandwich placement year. By doing this, you’ll complete a one-year placement with a company within the pharmaceutical industry specifically or a wider scientific field. You might work in drug discovery, isolating and characterising new potential drugs, undertake laboratory or clinical trials, or be involved in full scale industrial drug production that will further develop your employability skills. You will be supported by an onsite placement supervisor and receive regular visits and support from your academic supervisor too.

In Year 3, your final year, you’ll follow the complete process – from the stages involved in identifying potential new drugs, synthesising them for laboratory and then clinical trials, and subsequently, how their approval and production for commercial markets. You will also undertake independent research in an area of your choice, designing your research to probe a current issue in pharmaceutical science.

As an MSci student, your fourth year will provide the opportunity to gain an even greater breadth and depth of specialist knowledge. You’ll also hone your professional skills by completing a work placement or research assistantship, where there may be the opportunity to work closely with a leading employer.

Year 1 (Core)
-Introduction to Pharmaceutical Science and Pharmacology
-Introduction to Scientific Practice
-Molecules to Cells
-Basic Chemical Principles
-Molecular Structure and Synthesis

Year 2 (Core)
-Drug Analysis and Quality Assurance
-Genetics and Cell Biology
-Human Biochemistry and Physiology
-Professional Practice and Placement

Year 3 (Core)
-Drug Testing, Trials and Legislation
-Pharmaceuticals Industry and Drug Production
-Independent Project
-Drug Design, Synthesis and Characterisation

Year 3 (Options)
-Neuropharmacology
-Clinical Immunology
-Toxicology
-Medical Genetics

Year 4 (Core)
-Placement or Research Assistantship
-Advanced Research Methods
-Advanced Pharmaceutical Science

Year 4 (Options)
-Choice of one Year 3 option

Employment opportunities

Graduates can progress into a wide range of roles either within the pharmaceutical industry specifically or a wider scientific field. You might work in drug discovery, isolating and characterising new potential drugs, undertake laboratory or clinical trials, or be involved in full scale industrial drug production. Graduates with an in-depth scientific knowledge are also highly sought after to work in marketing, sales and business management in this and other scientific industries.

Our courses aim to provide you with the relevant knowledge, approach and skill set demanded of a practicing scientist. You will develop skills and knowledge to study a variety of topics relevant to your degree, and the acquisition of Graduate skills and attributes developed in core modules will allow you to find employment in a variety of laboratory based environments such as the biopharmaceutical industry, food processing and quality assurance, veterinary and agricultural laboratories.

Some graduates apply for Graduate Entry Programmes in various healthcare professions such as Medicine, Dentistry, Physiotherapy and Nursing. A significant number of our graduates apply for postgraduate study. Those who aspire to a career in teaching progress to a PGCE, whereas graduates with an interest in a research choose to continue onto Masters and PhD programmes.

Graduates from science courses are increasingly sought after due to their skills in numeracy, IT, problem solving and abilities to analyse and evaluate. Consequently, many of the non-laboratory based industries such as regulatory affairs, scientific editing, technical sales and marketing, insurance and management preferentially employ graduate scientists. All students carry out a work placement in year 2. These are flexible so you can angle your experience towards your career aspirations. Your final year research project in a topic of your choice enables you to undertake a major piece of investigative work culminating in a professional style paper, suitable to present to prospective employers.

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This taught MSc in Sports Science is designed to provide you with an advanced, research-led programme of study in sport and exercise science and medicine. Read more
This taught MSc in Sports Science is designed to provide you with an advanced, research-led programme of study in sport and exercise science and medicine. A key strength of this programme is its flexibility, which enables you to specialise in physical activity and health, sports performance, or sports medicine.

Why this programme

-This is the only Msc in Sports Science in Scotland that merges Sport and Exercise Medicine and Sport and Exercise Science within a single degree programme providing a broad range of options across these disciplines.
-You will benefit from access to the facilities and resources of the National Stadium Sports, Health and Injury Clinic at Hampden Park – a custom-built, state-of-the-art sports medicine facility.
-We have exciting scholarship opportunities, find out more
-You will develop and enhance your skills in literature searching and critically evaluating relevant scientific evidence; application of knowledge to novel concepts and situations; experimental design; research methods and ethics; data handling and statistics; interpretation and evaluation of experimental data; scientific writing; and oral presentations.
-The University has state-of-the-art facilities to study performance and health aspects of sport and exercise science, from the whole body to the molecular level. These include advanced exercise laboratories, metabolic investigation suites and a molecular biochemistry lab. We are the best equipped exercise science group for laboratory facilities in Scotland, making the University of Glasgow the perfect place to study an MSc in Sports Science.
-The University has close links with a number of regional/national sporting bodies and a number of professional sporting clubs. There may be opportunities for internships (in place of a research project) for some students.
-You will have access to a number of guest lecture staff providing interactive sessions in their specialist fields.

Programme structure

You will attend lectures, seminars and tutorials and take part in lab classes, journal clubs, presentations and self-directed learning. The programme is made up of 60 compulsory credits and 3 x 20 credit options (X,Y and Z) plus a research project (60 credits)

Core Courses
-Evidence Based Medicine (20 credits)
-Medical Statistics (10 credits)
-Physiological Exercise Testing 1 - Aerobics Fitness and Physical Activity (10 credits)
-Physiological Exercise Testing 2 - Strength, power and intensity domains (10 credits)
-Human physiological & metabolic assessment (10 credits)

Optional Courses - Choose one X option, one Y option and one Z option.
Option courses X
-Physical activity and health: public health, policy & behaviour changes
-Sports injuries: scientific basis of prevention and rehabilitation.
-Clinical Sports Injuries

Option courses Y
-Physical activity and health: biological mechanisms
-Ergogenic Aids for Exercise Performance
-Sport and Exercise Medicine in Practice

Option courses Z
-Cellular and molecular exercise physiology
-The world class athlete: nature, nurture and maximising performance.
-Exercise in clinical populations

Career prospects

The flexibility of this programme will provide you with many career opportunities. These include working in clinical exercise, health-promotion or in sports science support. A number of our graduates are employed in senior sports science positions with national sporting bodies and professional sports clubs. This programme also allows doctors and physiotherapists to aid their knowledge; for science graduates, there are opportunities in rehabilitation and higher education. It also provides an excellent basis if you wish to pursue PhD level research.

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This online taught MSc in Sports Science is designed to provide you with an advanced, research-led programme of study in sport and exercise science and medicine. Read more
This online taught MSc in Sports Science is designed to provide you with an advanced, research-led programme of study in sport and exercise science and medicine. A key strength of this programme is its flexibility, which enables you to specialise in physical activity and health, sports performance, or sports medicine.

Why this programme

-This is the only MSc in Sports Science in Scotland that merges Sport and Exercise Medicine and Sport and Exercise Science within a single degree programme providing a broad range of options across these disciplines.
-You will benefit from access to the expertise of the staff at the National Stadium Sports, Health and Injury Clinic at Hampden Park – a custom-built, state-of-the-art sports medicine facility.
-We have exciting scholarship opportunities, find out more
-You will develop and enhance your skills in literature searching and critically evaluating relevant scientific evidence; application of knowledge to novel concepts and situations; experimental design; research methods and ethics; data handling and statistics; interpretation and evaluation of experimental data; scientific writing; and oral presentations.
-The University has state-of-the-art facilities to study performance and health aspects of sport and exercise science, from the whole body to the molecular level. These include advanced exercise laboratories, metabolic investigation suites and a molecular biochemistry lab. We are the best equipped exercise science group for laboratory facilities in Scotland, making the University of Glasgow the perfect place to study an MSc in Sports Science.
-The University has close links with a number of regional/national sporting bodies and a number of professional sporting clubs. There may be opportunities for internships (in place of a research project) for some students.
-You will have access to a number of guest lecture staff providing interactive sessions in their specialist fields.

[[Programme structure
The course will involve online lectures, seminars and tutorials and during a residential week at the end of year 1 you will take part in lab classes. You will also take part in journal clubs, presentations and self-directed learning. The programme is made up of 60 compulsary credits and 3 x 20 credit options (X,Y and Z) plus a research project (60 credits).

Core Courses
-Evidence Based Medicine (20 credits)
-Medical Statistics (10 credits)
-Physiological Exercise Testing 1 - Aerobics Fitness and Physical Activity (10 credits)
-Physiological Exercise Testing 2 - Strength, power and intensity domains (10 credits)
-Human physiological & metabolic assessment (10 credits)

Optional Courses - Choose one X option, one Y option and one Z option:

Option courses - X
-Physical activity and health: public health, policy & behaviour changes
-Sports injuries: scientific basis of preventation and rehabilitation
-Clinical Sports Injuries (also involves a short residential period at the end of year 2)

Option courses - Y
-Physical activity and health: biological mechanisms
-Ergogenic Aids for Exercise Performance
-Sport and Exercise Medicine in Practice

Option courses - Z
-Cellular and molecular exercise physiology
-The world class athlete: nature, nurture and maximising performance
-Exercise in clinical populations

Career prospects

The flexibility of this programme will provide you with many career opportunities. These include working in clinical exercise, health-promotion or in sports science support. A number of our graduates are employed in senior sports science positions with national sporting bodies and professional sports clubs. This programme also allows doctors and physiotherapists to aid their knowledge; for science graduates, there are opportunities in rehabilitation and higher education. It also provides an excellent basis if you wish to pursue PhD level research.

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This innovative distance learning MSc in Blood Science focuses on the diagnostic techniques, QA/QC and regulatory issues within this emerging field combining haematology, immunology, transfusion and clinical biochemistry developed from increasing automation within pathology. Read more
This innovative distance learning MSc in Blood Science focuses on the diagnostic techniques, QA/QC and regulatory issues within this emerging field combining haematology, immunology, transfusion and clinical biochemistry developed from increasing automation within pathology.

The course now benefits from accreditation by the Institute of Biomedical Science enabling students to take full advantage of the opportunities for knowledge and career development that this affords.

More about this course

This MSc distance-learning course is designed to promote a deep understanding of the emerging mixed disciplinary area of blood science. You will examine different theoretical perspectives, methodological approaches, research interests and practical applications within the subject area, as an independent learner.

Designed with input from current practitioners in the field, the course is suitable for biomedical science practitioners and graduates of biomedical or related life sciences. The programme covers areas relevant to staff working within or wishing to work in blood science departments within pathology.

Delivered as a flexible distance-learning programme through our e-Portal WebLearn, you will be able to continue to work whilst studying. The self-guided eLearning materials have been specially designed to support your engagement with the course content.

Each module has a module leader who is responsible for developing the curriculum and coordinating the production of the eLearning materials. Some sessions are ‘broadcast live’ with modules running face-to-face so you can engage with tutors, lecturers and other students. You can also contact your module leader and discuss ideas with other students via email, discussion boards, and during live peer-to-peer support sessions.

Your final research project is to be conducted in your place of work with joint supervision provided by your laboratory training officer and a member of staff from the School of Human Sciences. For those not working in a suitable laboratory, research may be conducted at London Metropolitan University with additional bench fees for materials.

The course is designed to support professionals in their career development in the healthcare profession, biomedical/biotechnology industry or in academia and has the potential to lead on to doctoral studies.

This course has many benefits:
-You can study at your own pace, with the support of our Biomedical Science team - no attendance required.
-Single modules can be undertaken to gain continuing professional development (CPD) points.
-You can start your course either in the September or January of the academic year.

Exercises and short phase tests will be used to provide you with feedback on your progress. Summative assessment of students’ knowledge base and their understanding will be incorporated into formal in-course tests/exercises, personal learning logs and end of module assessments completed at the end of each unit.

MSc research project assessment will culminate in the presentation of a dissertation and a poster presentation (via face-to-face messaging system or similar technology).

Professional accreditation

This course is accreditated by the Institute of Biomedical Science (IBMS), enabling students to take full advantage of the opportunities for knowledge and career development that this affords.

Students are eligible for eStudent Membership of the IBMS. Single modules taken for CPD obtain 100 points per 10 credits with the IBMS. It is also recommended by the Canadian Society for Medical Laboratory Science (CSMLS).

Modular structure

The modules listed below are for the academic year 2016/17 and represent the course modules at this time. Modules and module details (including, but not limited to, location and time) are subject to change over time.

Year 1 modules include:
-Advanced Immunology (core, 20 credits)
-Bioethics, Research and Grant Proposal (core, 20 credits)
-Clinical Biochemistry (core, 20 credits)
-Haematology (core, 20 credits)
-Research Project (Biomedical Science) (core, 60 credits)
-Transfusion Science (core, 20 credits)
-Haemoglobinopathies (option, 10 credits)
-Introduction to Anatomy and Physiology in Health and Disease (option, 20 credits)
-Introduction to Cell Biology (option, 10 credits)
-Introduction to Cellular Pathology (option, 10 credits)
-Introduction to Clinical Genetics (option, 20 credits)
-Introduction to General Microbiology (option, 10 credits)
-Introduction to Medical Microbiology (option, 20 credits)
-Introduction to Molecular Biology and Genetics (option, 10 credits)
-Introduction to Toxicology (option, 10 credits)

After the course

This course provides an extension of knowledge allowing practising biomedical scientists to be considered for promotion at work. Healthcare scientists are training in this discipline area too.

Career opportunities include employment in NHS hospital laboratories and other health-related areas. Graduates will also be well placed to apply for research studentships.
This course allows students to be considered for promotion at work.

Graduates with two years relevant professional experience can apply for the Member grade of membership

PhD research, pharmacology, biotechnology and similar employment opportunities are available.

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The course is designed to give graduates specialist knowledge (both theoretical and practical) of the strategies and techniques of cellular pathology as practised in research and clinical contexts. Read more

Description

The course is designed to give graduates specialist knowledge (both theoretical and practical) of the strategies and techniques of cellular pathology as practised in research and clinical contexts. Graduates will gain up-to-date, relevant and applied experience of cellular pathology, acquire in-depth knowledge together with a broad knowledge of the subject base, and acquire skills for practice at Higher Specialist Level. The completion of a research project enables the graduate to understand the process and communication of scientific enquiry.

This degree is accredited by the Institute of Biomedical Science.

Core units

- Analytical Techniques in Biomedical Science
- Recent Advances in Biomedical Research
- Research Methods and Ethics in Biomedical Science
- Disorder Case Study
- Research Project
- Pathological Basis of Disease and Systematic Investigation of Pathological Specimens
- Histopathology

You will be assessed by critical reviews, presentations, self-managed study, extended essays and examinations. Evidence-based practice and a major research project complete the MSc.

Career prospects

The programme creates wide-ranging opportunities for employment in fields such as hospital science, biomedical and pharmaceutical industries or public health and transfusion laboratories. It provides preparation for the Higher Specialist Institute of Biomedical Science examination and Advanced Practice in Biomedical Science. You will also be well placed for careers in research or teaching or to pursue studies towards a PhD.

Our work with the NHS and clinicians helps shape our curriculum, transfers our expertise and ensures our graduates are ready for the workplace – and sought after by employers.

Careers support is available from the moment you join us, throughout your time here, and for up to three years after the completion of your course. We have a range of services available through the School of Healthcare Science and the University Careers Service including dedicated careers and employability advisors.

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Develop your scientific skills and explore new specialisms. If you’re a working biomedical scientist take a step towards fully chartered status by studying on our Institute of Biomedical Science (IBMS) accredited distance-learning course. Read more
Develop your scientific skills and explore new specialisms. If you’re a working biomedical scientist take a step towards fully chartered status by studying on our Institute of Biomedical Science (IBMS) accredited distance-learning course.

See the website http://www.anglia.ac.uk/study/postgraduate/biomedical-science

Accredited by the Institute of Biomedical Science (IBMS) and guided by an employers’ panel (including the NHS), this course is a great asset to your professional development, whether you’re working in healthcare or industry.

You’ll have the opportunity to tailor your studies by choosing a specialist pathology area. Through this you can either enhance your knowledge and understanding of your current field, or open up a career path into a new area such as management.

Our tutors will teach you through our Virtual Learning Environment (VLE), where you can download study materials, organise your studies and access online classrooms and study groups.

See the website http://www.anglia.ac.uk/study/postgraduate/biomedical-science

The aims of this course are:
• to provide ongoing professional training for NHS and private pathology laboratory professionals
• to enable you to develop and apply skills of analysis, synthesis, evaluation and application in the biomedical field
• to enable you to develop a range of transferable skills relevant to a wider range of postgraduate employment opportunities
• to enable you to develop a range of practical skills and experience in the biomedical field
• to develop your awareness of the social, economic and ethical aspects in the biomedical field

Careers

Our course will enhance your career prospects and provide a major step towards chartered scientist status. You can personalise your studies to reflect your career goals as a biomedical scientist, whether in health services, biotechnology or pharmaceuticals. You’re also in the perfect position to continue your academic career and move up to our Biomedical Science PhD or Biotechnology PhD.

Core modules

An Introduction to Management
General Pathology
Moving Towards Mastery
Research Methods in Biomedical Science
Dissertation/final project

Optional modules

Cellular Pathology
Clinical Chemistry
Haematology
Medical Microbiology

Assessment

We’ll assess your progress using the portfolios you’ll create for each taught module, as well as your final year dissertation.

Your faculty

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

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

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

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