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Masters Degrees (Haematology)

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This course will focus on the physiology and pathology of blood and its use as a diagnostic and therapeutic tool. A variety of areas of molecular and cellular bioscience will be covered with an emphasis on new technologies and developments in Haematology and related disciplines such as Transfusion Science. Read more
This course will focus on the physiology and pathology of blood and its use as a diagnostic and therapeutic tool. A variety of areas of molecular and cellular bioscience will be covered with an emphasis on new technologies and developments in Haematology and related disciplines such as Transfusion Science. You will expand your knowledge of the basic science and analytical techniques relating to Haematology and gain an up-to-date understanding of the application of Haematology in bioscience / pharmaceutical research, as well as in diagnostic and therapeutic medicine.

There will be an emphasis in the course on development of critical analysis skills in the assessment of scientific literature and laboratory data. In addition you will have the opportunity to design and execute your own research project. The course team is supported by visiting lecturers who are practising scientists in the field, which helps ensure that taught material is current and relevant.

Modules

The following modules are indicative of what you will study on this course.

Core modules
-CELLULAR HAEMATOLOGY
-IMMUNOHAEMATOLOGY AND HAEMOSTASIS
-MOLECULAR SCIENCE AND DIAGNOSTICS
-POSTGRADUATE RESEARCH METHODS
-POSTGRADUATE PROJECT

Option modules
-ADVANCED CANCER BIOLOGY
-AUTOMATION IN BIOMEDICAL SCIENCES
-CELL SIGNALLING AND GENETICS
-COMMUNICATING SCIENCE
-EXTENDED POSTGRADUATE PROJECT
-IMMUNOPATHOLOGY
-MOLECULAR AND CELLULAR THERAPEUTICS
-PRINCIPLES OF MOLECULAR MEDICINE

Associated careers

As well as gaining specialist knowledge in Haematology and related disciplines, you will develop a range of transferable skills that will enhance your employment prospects and research opportunities in the UK or overseas. The course is taken by both UK and international students, preferably (but not necessarily) with relevant work experience. It is relevant to career pathways in diagnostic haematology, immunology and transfusion laboratories, research institutions and pharmaceutical companies.

Professional recognition

The course is accredited by the Institute of Biomedical Science (IBMS).

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The University of Chester Haematology course is a taught postgraduate qualification lasting for one year full-time or two to four years part-time. Read more

The University of Chester Haematology course is a taught postgraduate qualification lasting for one year full-time or two to four years part-time.

Students completing a range of modules followed by a research dissertation are awarded a full Master of Science degree. Students completing fewer modules, without a dissertation, may graduate instead with a Postgraduate Certificate or Postgraduate Diploma.

The MSc in Haematology is designed to enable you to develop an up-to-date, advanced understanding of the disorders of blood and blood-forming tissues. Utilising critical analytical skills, you will evaluate new developments in research into the blood sciences.

Why Study Haematology with us?

You will receive training in the skills required in the reading and interpretation of the literature and translating that into evidence-based practice. We aim to develop your research and writing skills so that you will be in a position to contribute to the scientific literature in an effective manner.

The course culminates in the Research Dissertation, which will be assessed through your production of two publishable scientific articles.

The content of the course is mapped to The Joint Royal Colleges of Physicians Training Board Speciality Training Curriculum for Haematology.

If biomedical or clinical research is your interest, successful completion of the MSc will allow you to directly register onto PhD study and join our team of researchers at the Institute of Medicine.

What will I learn?

Our course investigates in detail mechanistic models of haematopoiesis and how knowledge of stem cell theory can inform the treatment of anaemia or leukaemia. Blood carries many hormones and cytokines; these can be used as biomarkers of disease, and we will examine the problems associated with some of these measurements. You will also review current guidelines and their evidence base in the therapeutic management of haematological problems, and explore potential new therapies.

How will I be taught?

Our course consists of taught modules and a Research Dissertation. We deliver taught modules as three-day intensive courses to facilitate attendance from students in employment. Weekly support sessions and journal club supplement learning – all held in our modern facilities in Bache Hall.

Modules

The modules given below are the latest example of the curriculum available on this degree programme. Please note that programme structures and individual modules are subject to change from time to time for reasons which include curriculum enhancement, staff changes, student numbers, improvements in technology, changes to placements or regulatory or external body requirements.

Evidence Based Medicine(Compulsory) (MD7001)

Analysis and Interpretation of Clinical Data(Optional) (MD7002)

Clinical Medicine(Compulsory) (MD7003)

Blood Sciences(Compulsory) (MD7005)

Therapeutic Advances in Treating Haematological Problems(Compulsory) (MD7022)

Case Investigations in Molecular Medicine(Compulsory) (MD7027)

Assessment and Consultation in Clinical Settings(Optional) (MD7069)

Research Dissertation(Compulsory) (MD7100)

How will I be assessed?

You will be assessed via coursework assignments, which may focus on clinical reviews, laboratory reports, posters, oral presentations, or data manipulation exercises.

Funding

The following postgraduate funding may be available to study Haematology at the University of Chester.

UK postgraduate loans:

Erasmus funding:

Erasmus Masters Loans – Offering up to €18,000 for eligible students to study a Masters abroad.

Funding from FindAMasters:

FindAMasters Scholarships – Offering up to £5,000 to new UK, EU and international postgraduates.

Fees

Full Time (UK / EU): £6,390

Full Time (international): £11,850 (+£250 per academic year)

Part Time (UK / EU): £710 per 20 credits



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Haematologists specialise in disorders of the blood and blood-forming tissues, and their contribution to patient care is fundamental and wide-ranging. Read more
Haematologists specialise in disorders of the blood and blood-forming tissues, and their contribution to patient care is fundamental and wide-ranging. Whether you’re analysing data from patients' samples, matching donated blood with someone who needs a transfusion or researching cures for blood cancers, your work will improve and save countless lives.


Why study MSc Biomedical Science -Haematology and Transfusion Science at Middlesex?

Our Biomedical Science courses have a burgeoning international reputation, due to our world-class research in areas including biomarkers, public health and bio modelling. Our Centre for Investigative and Diagnostic Oncology has pioneered techniques for cancer diagnosis and treatment, and the Haematology department is very active in research into blood cancers, HIV and AIDS.

Our course has a strong practical element, with an emphasis on developing laboratory skills and gaining hands-on experience of diagnostic techniques. Our teaching and research facilities surpass those at some UK medical schools, with £3 million specialist labs equipped with the most up-to-date technology- the perfect place to work on your own research project. You’ll learn to use cutting-edge equipment, including MALDI-TOF mass spectrometers and flow cyto meters; we have a molecular biology laboratory for techniques such as DNA sequencing, real-time PCR, electrophoresis and HPLC, fully-equipped proteomics facilities, a microbiology lab and an incredibly modern cell culture facility.

Course highlights

- Course leader Dr Colin Casimir is famed for his research into the biology of haemopoietic stem cells and gene therapy for haematologic conditions. He is the holder of a number of international patents, and his research has been published in top international journals, including the British Journal of Haematology.
- Other teaching staff include Dr Stephen Butler, a world expert on cancer biomarkers and reproductive biochemistry; Dr Ajit Shah, a former principal scientist at GlaxoSmithKline; and Dr Lucy Ghali, an expert in immunohistochemistry. Guest lecturers include Peter Gregory, haematology services manager at Barnet and Chase Farm Hospitals Trust.
- 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. All our teaching staff are involved in research.
- 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.

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The course is designed to give graduates specialist knowledge (both theoretical and practical) of the strategies and techniques of haematology and transfusion science as practised in research and clinical contexts. Read more
The course is designed to give graduates specialist knowledge (both theoretical and practical) of the strategies and techniques of haematology and transfusion science as practised in research and clinical contexts. Graduates will gain up-to-date, relevant and applied experience of haematology and transfusion science, 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.

Features and benefits of the course

-Our postgraduate Biomedical Science, Medical Microbiology, Cellular Pathology, Clinical Biochemistry and Haematology & Transfusion degree programmes are accredited by the Institute of Biomedical Science.
-Our biomedical research group is amongst the top 12 in the UK. In the 2014 national Research Excellence Framework, biomedical science research was rated highly with some of our research rated as world leading.
-Our Centre for Biomedicine represent one of the highest concentrations of health research excellence in the UK. We have an international reputation for research into the characteristics, limitations and adaptability of the human motor system in health and disease through an integrative approach that ranges from molecular biology to whole body studies of human movement.
-The School offers excellent facilities including specialist laboratories for blood biochemistry, biomechanics, motor control, exercise performance, cell & molecular biology and tissue culture.
-We collaborate extensively with hospitals in Greater Manchester and can offer opportunities for research projects in clinically relevant areas.
-The programme includes opportunities for flexible learning supported by tutorials.
-You will acquire an in-depth knowledge of a biomedical science specialism together with a broad knowledge of the subject base.
-We have strong links with the Institute of Biomedical Science, the Health and Care Professions Council, the NHS trusts and hospitals in Manchester and the North West region, which keep our biomedical science curriculum up-to-date.
-The programme includes opportunities for flexible learning supported by tutorials.
-You will acquire an in-depth knowledge of a biomedical science specialism together with a broad knowledge of the subject base.

About the Course

All of our postgraduate degree programmes in Healthcare Science are built on the core values of the NHS to develop professional, dedicated and compassionate healthcare science professionals and they are underpinned by the latest research within the Faculty of Science and Engineering.

We collaborate extensively with hospitals in the Greater Manchester area and can offer opportunities for research projects in clinically relevant areas.

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.

Assessment details

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

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This course, accredited by the Institute of Biomedical Science, provides an in-depth understanding of disease processes. It links academic knowledge to the practical applications of biomedical science, particularly in relation to modern diagnostic methods. Read more
This course, accredited by the Institute of Biomedical Science, provides an in-depth understanding of disease processes. It links academic knowledge to the practical applications of biomedical science, particularly in relation to modern diagnostic methods. You can choose to study one of two pathways – haematology or medical microbiology. Taught by researchers and expert practitioners, the course content is kept up to date through extensive links with leading healthcare and research laboratories such as GlaxoSmithKline, the Institute of Cancer Research and local hospitals.

-Employability is embedded within the curriculum to maximise job opportunities in a wide variety of biomedical-science-related careers including hospital and commercial laboratories, research, teaching and sales.
-Research-led and research-informed teaching with increased opportunities for postgraduate research and 'capstone' projects.
-Research projects possible within one of our research groups or as part of an industrial placement.
-Single modules may be taken as part of a continuing professional development (CPD) programme.

What will you study?

Core modules will familiarise you with the theoretical and practical aspects of molecular medicine used in research and hospital laboratories; the molecular basis of immunological mechanisms; and cellular mechanisms of disease, the physiological manifestations and implications to public health. You will learn about the principles and practice of laboratory management in biomedical science, and you will acquire the skills required for researching and communicating in biomedical science. You will also study modules in your elected specialist route. In addition to subject-specific knowledge, the course aims to develop your communication and other skills.

Assessment

Essays, practical reports, critical analysis, poster presentations, written exam, research project.

Work placement scheme

Kingston University has set up a scheme that allows postgraduate students in the Faculty of Science, Engineering and Computing to include a work placement element in their course starting from September 2017. The placement scheme is available for both international and home/EU students.

-The work placement, up to 12 months; is optional.
-The work placement takes place after postgraduate students have successfully completed the taught portion of their degree.
-The responsibility for finding the placement is with the student. We cannot guarantee the placement, just the opportunity to undertake it.
-As the work placement is an assessed part of the course for international students, this is covered by a student's tier 4 visa.

Details on how to apply will be confirmed shortly.

Course structure

Please note that this is an indicative list of modules and is not intended as a definitive list.

Core modules
-Research Techniques and Scientific Communication
-Immunology and the Biology of Disease
-Research Project

Haematology modules
-Anaemia, Haemostasis and Blood Transfusion
-Haematological Malignancy

Medical Microbiology modules
-Taxonomy of Microorganisms and Diagnosis of Infectious Disease
-Microbial Pathogenesis and Control of Infectious Disease

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Why choose this course?. 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

Why choose this course?

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.

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 click here

What happens on the course?

Typical modules may include

· Molecular Genetics & Genomics

· Principles of Integrated Biomedical Science

· Clinical Immunology

· Haematology

· Independent Study Module 1 or 2

· Research Methods in Biomedical Science

· Biomedical Science Research Project

Why Wolverhampton?

IBMS accredited for 30 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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This module will develop a student’s knowledge and understanding of haematological disorders and their treatment, care and rehabilitation of patients. Read more
This module will develop a student’s knowledge and understanding of haematological disorders and their treatment, care and rehabilitation of patients.

Students will synthesise theoretical evidence and research based knowledge to inform clinical practice and role development in haematology and BMT care delivery.

Learning is through a combination of lectures and seminars, providing students with the opportunity to acquire an in-depth knowledge of policy, organisation and delivery of care, and the biological basis of haematological disorders and their treatment. Group discussions will help to share practice and consolidate knowledge. Directed study will help students to develop individual portfolios of learning which can be related to their own clinical areas.

Why Bradford?

At the Faculty of Health Studies, University of Bradford, you can choose to study for individual modules, a named award or build module credits through the SSPRD Framework for Flexible Learning to achieve an award relevant to your professional needs.

The Framework for Flexible Learning in Health and Social Care is a Faculty-wide academic structure for Specialist Skills and Post-Registration Development. It offers students increased flexibility and choice in the modules and courses that can be undertaken and it is also responsive to employer needs. The flexibility also allows you to move from one award to another if your career changes or you take time out from regular studying. Shared teaching and research expertise from across the Faculty is offered through interdisciplinary teaching across our core research modules.

The Faculty of Health Studies is regionally, nationally and internationally recognised for its teaching and research, and works with a number of healthcare partners to ensure clinical excellence.

Modules

This module is provided as part of this interdisciplinary Framework within the Faculty of Health Studies. The Framework enables students to create an individualised programme of study that will meet either their needs and/or the employers’ needs for a changing diverse workforce within a modern organisation.

The modules and academic awards are presented in areas representing employment practice or work based or clinical disciplines.

Whilst some students can build their own academic awards by choosing their own menu of module options, other students will opt for a named academic award. The Framework also provides the option for students to move from their chosen named award to another award if their job or personal circumstances change and they need to alter the focus of their studies. The majority of named awards also offer students, the option of choosing at least one module, sometimes more, from across the Faculty module catalogue enabling them to shape their award more specifically to their needs.

Learning activities and assessment

Assessment of the module includes a written case study, seminar presentation and the achievement of clinical competencies (for which a clinical assessor is required).

Career support and prospects

The University is committed to helping students develop and enhance employability and this is an integral part of many programmes. Specialist support is available throughout the course from Career and Employability Services including help to find part-time work while studying, placements, vacation work and graduate vacancies. Students are encouraged to access this support at an early stage and to use the extensive resources on the Careers website.

Discussing options with specialist advisers helps to clarify plans through exploring options and refining skills of job-hunting. In most of our programmes there is direct input by Career Development Advisers into the curriculum or through specially arranged workshops.

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The School of Life Science has developed an extremely active and successful undergraduate, Biomedical Science programme. We have embraced specialists working in local NHS Trusts to develop outstanding, collaborative relationships covering key diagnostic and clinical specialties. Read more

Overview

The School of Life Science has developed an extremely active and successful undergraduate, Biomedical Science programme. We have embraced specialists working in local NHS Trusts to develop outstanding, collaborative relationships covering key diagnostic and clinical specialties. Not only do students benefit from the inclusion of such specialist practitioners onto our teaching programmes, but could also be offered highly competitive research opportunities working within the hospital itself.

This MSc programme builds on this wealth of experience and best practice to enable well-qualified students to develop their scientific training and employability skills within a Biomedical context. The need for innovation and a multidisciplinary approach to Biomedical Science has never been more important. The teaching strategies embedded within this programme embrace these principles in its pursuit of Clinical Biochemistry, Medical Immunology and Haematology.

IBMS Accreditation

This programme is accredited by the Institute of Biomedical Science (IBMS) as 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 he best possible service for patient care and safety.

Accreditation is a process of peer review and recognition by the profession of the achievement of quality standards for delivering Masters level programmes.

Individuals awarded a Masters degree accredited by the Institute are eligible for the title of Chartered Scientist and the designation CSci if they meet the other eligibility criteria of corporate membership and active engagement in Continued Professional Development. A Masters level qualification is also one of the entry criteria for the Institute’s Higher Specialist Examination and award of the Higher Specialist Diploma, a pre-requisite for the membership grade of Fellowship and designation FIBMS.

The aim of IBMS accreditation is to ensure that, through a spirit of partnership between the Institute and the University, a good quality degree is achieved that prepares the student for employment in circumstances requiring sound judgement, critical thinking, personal responsibility and initiative in complex and unpredictable professional environments.

The Institute lists 10 advantages of IBMS accreditation:
1. Advances professional practice to benefit healthcare services and professions related to biomedical science.

2. Develops specific knowledge and competence that underpins biomedical science.

3. Provides expertise to support development of appropriate education and training.

4. Ensures curriculum content is both current and anticipatory of future change.

5. Facilitates peer recognition of education and best practice and the dissemination of information through education and employer networks.

6. Ensures qualification is fit for purpose.

7. Recognises the achievement of a benchmark standard of education.

8. The degree award provides access to professional body membership as a Chartered Scientist and for entry to the Higher Specialist Diploma examination.

9. Strengthens links between the professional body, education providers employers and students.

10. Provides eligibility for the Higher Education Institution (HEI) to become a member of HUCBMS (Heads of University Centres of Biomedical Science)

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

Course Aims

The main aim of the programme is to provide multidisciplinary, Masters Level postgraduate training in Biomedical Blood Science. This will involve building on existing, undergraduate knowledge in basic science and applying it to clinical, diagnostic and research applications relevant to Clinical Biochemistry, Medical Immunology and Haematology.

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 develop students’ knowledge and understanding of different theoretical perspectives, methodological approaches, research interests and practical applications within Blood Science

- To explore and explicitly critique the clinical, diagnostic and research implications within the fields of Clinical Biochemistry,

- Medical Immunology and Haematology, and to place this in the context of a clinical laboratory, fully considering the potential implications for patients, health workers and research alike

- To develop a critical awareness of Biomedical ethics and to fully integrate these issues into project management including grant application and business planning

- To support student autonomy and innovation by providing opportunities for students to demonstrate originality in developing or applying their own ideas

- To direct students to integrate a complex knowledge base in the scrutiny and accomplishment of professional problem-solving scenarios and project development

- To enable student acquirement of advanced laboratory practical competencies and high level analytical skills

- To promote and sustain communities of practice that allow students to share best practice, encourage a multidisciplinary approach to problem-solving and to develop extensive communication skills, particularly their ability to convey complex, underpinning knowledge alongside their personal conclusions and rationale to specialist and nonspecialist listeners

- 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

Course Content

This one year programme is structured so that all taught sessions are delivered in just two days of the working week. Full-time students are expected to engage in independent study for the remaining 3 days per week. Consolidating taught sessions in this way allows greater flexibility for part-time students who will be expected to attend one day a week for two academic years, reducing potential impact in terms of workforce planning for employers and direct contact for students with needs outside of their academic responsibilities.

Semester 1 will focus on two main areas, the first being Biomedical ethics, grant application and laboratory competencies. The second area focuses on the clinical and diagnostic implications of Blood Science for patients and health workers, with the major emphasis being on Clinical Biochemistry.

Semester 2 will also focus on two main themes; firstly, business planning methodological approaches, analytical reasoning and research. Secondly, the clinical and diagnostic implications of Blood Science for patients and health workers, with the major emphasis being on Haematology and Immunology.

Compulsory Modules (each 15 credits) consist of:
- Biomedical Ethics & Grant Proposal
- Project Management & Business Planning
- Advanced Laboratory Techniques*
- Research Methodologies *
- Case Studies in Blood Science I
- Case Studies in Blood Science II
- Clinical Pathology I
- Clinical Pathology II

*Students who have attained the IBMS Specialist Diploma and are successfully enrolling with accredited prior certified learning are exempt from these two modules.

Dissertation – Biomedical Blood Science Research Project (60 credits)

This research project and final dissertation of 20,000 words is an excellent opportunity for students to undertake laboratory based research in their chosen topic and should provide an opportunity for them to demonstrate their understanding of the field via applications in Biomedical Science. Biomedical Science practitioners are expected to complete the laboratory and data collection aspects of this module in conjunction with their employers.

Requirements for an Award:
In order to obtain the Masters degree, students are required to satisfactorily accrue 180 M Level credits. Students who exit having accrued 60 or 120 M Level credits excluding the ‘Dissertation – Biomedical Blood Science Research Project’ are eligible to be awarded the Postgraduate Certificate (PgC) and Postgraduate Diploma (PgD) respectively

Teaching and Learning Methods

This programme places just as much emphasis on developing the way in which students approach, integrate and apply new knowledge and problem-solving as it is with the acquisition of higher level information. As such, particular emphasis is placed on developing critical thinking, innovation, reflective writing, autonomous learning and communication skills to prepare candidates for a lifetime of continued professional development.

The teaching and learning methods employed throughout this programme reflect these principles. For example, there is greater emphasis on looking at the subject from a patient-orientated, case study driven perspective through problem-based learning (PBL) that encourages students to think laterally, joining up different pieces of information and developing a more holistic level of understanding.

Assessment

The rich and varied assessment strategy adopted by this programme ensure student development of employability
and academic skills, providing an opportunity to demonstrate both professional and academic attainment. Assessment design is
largely driven by a number of key principles which include: promotion of independent learning, student autonomy, responsibility for personal learning and development of innovation and originality within one’s chosen area of interest. Note that not all modules culminate in a final examination.

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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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 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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This MSc is for biomedical scientists registered with the Health and Care Professions Council (HCPC) who want to undertake flexible, part-time study towards a masters qualification in a specialist area of clinical pathology. Read more
This MSc is for biomedical scientists registered with the Health and Care Professions Council (HCPC) who want to undertake flexible, part-time study towards a masters qualification in a specialist area of clinical pathology.

The degree programme has been informed by consultation with laboratory managers and NHS training staff. It consists of specialist modules in the blood sciences that explore the theoretical, applied and professional aspects of clinical haematology, transfusion science and biochemistry.

Designed to complement the professional qualifications of the Institute of Biomedical Science (IBMS), the course allows you to expand your knowledge and skills in diagnostic laboratory medicine; to apply these skills to clinical diagnosis, laboratory management and research; and to develop as a reflective practitioner, all within the context of the Modernising Scientific Careers (MSC) initiative.

Course structure

You attend university for a maximum of one day per week. A typical week consists of six hours of teaching time (lectures, seminars and workshops) and a further six hours of student-centred learning, for example directed reading and assessment preparation.

Assessment methods vary between modules, but all contain coursework assignments such as essays and presentations, while only some have examination components.

The course is designed to be flexible and fit in with a variety of personal and professional circumstances. For example, you can study the blood sciences modules alone to qualify for a PGCert, take additional modules for a PGDip or commit to the research project for the full MSc.

The MSc qualification is normally achieved after three years of part-time study.

Areas of study

If you follow the full MSc programme, you will study:

• two blood sciences modules exploring theoretical, applied and professional aspects of clinical haematology, transfusion science and biochemistry
• two modules that focus on the professional area of practice and work based learning to deepen your knowledge of biomedical science.
These modules are only available to part-time students who are employed in clinical pathology departments
• applied molecular biology modules
• service delivery in clinical pathology modules
• a special topic option: you can select a topic from a range available in the School of Pharmacy and Biomolecular Sciences; examples include diabetes, biomedical statistics, and oxidative stress and human disease
• research methods module: you will focus on research methods and project design. This module includes preparation for the research project
• a laboratory-based research project: so you can explore the discipline of blood sciences in depth. The project is based on a topic within blood sciences and includes work conducted in the clinical pathology laboratory workplace.

You will study some of the listed modules with students from the Cellular Sciences and the Infection Sciences masters, allowing for a multidisciplinary environment where different perspectives on clinical pathology can be shared.

Modules:

Clinical Haematology and Transfusion Science
Clinical Biochemistry
Seminars in Blood Sciences
Applied Molecular Biology
Service Delivery in Clinical Pathology
Advanced Professional Practice in Clinical Pathology
Research Methods
Research project

Options include:

Diabetes
Oxidative Stress and Human Disease
Pharmacogenomics
Advanced Instrumental Analysis
Biomedical Statistics
Clinical and Applied Immunology

Careers and Employability

The Blood Sciences MSc contains both professional elements and discipline-specific content, and is therefore a suitable part of training and development for the role of a band 7 healthcare scientist.

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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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Either biomedical science Masters offered at Nottingham Trent University are accredited by the Institute of Biomedical Science. This. Read more

Either biomedical science Masters offered at Nottingham Trent University are accredited by the Institute of Biomedical Science.

This MSc Biomedical Science course provides a biological understanding of human disease processes, the treatment principles of such diseases, and the underlying biological disciplines that enable their study and explanation. It has extensive links with BioCity Nottingham, the city's groundbreaking healthcare and biosciences centre. One of the largest innovation and incubation centres of its kind in Europe.

This course can be taken full-time for one year or add an additional work placement year to make it two years; or go part-time.

If you would like to study part-time and through distance learning for a Masters qualification while continuing to work, then this flexible programme is for you - MSc Biomedical Science (Flexible Learning). It is designed to further your career in the healthcare profession, biomedical industry or in academia and has the potential to lead on to a professional doctorate.

With multiple entry points in September, January and April, take this Masters as a part-time option or study individual modules for continuing professional development points.

Modules

  • Cell culture and antibody technology
  • Research methods and bioethics
  • Research project
  • Microbial diagnostics
  • Pharmacology
  • Molecular biology
  • Biology of disease
  • Cellular pathology
  • Clinical chemistry
  • Haematology and transfusion science
  • Medical microbiology
  • Scientific analysis, review and presentation
  • Cytology
  • Cancer and heart disease
  • Molecular biology and DNA technology
  • Special topics in molecular biology
  • Cellular pathology with professional studies
  • Clinical chemistry with professional studies
  • Haematology and transfusion science with professional studies
  • Medical microbiology with professional studies

COME VISIT US ON OUR NEXT OPEN DAY!

Visit us on campus throughout the year, find and register for our next open event on http://www.ntu.ac.uk/pgevents.



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The MSc Biomedical Science course is aimed at students who want to take their biomedical science skills and knowledge to a higher level. Read more
The MSc Biomedical Science course is aimed at students who want to take their biomedical science skills and knowledge to a higher level. It's ideally suited to those with an undergraduate degree in Biomedical Science or other degrees that have a significant amount of human biology or biomedical content, as well as medical, dental or veterinary degrees and some biotechnology degrees depending on what modules you studied at undergraduate level.

Key benefits

The course is accredited by The Institute of Biomedical Science (IBMS) for the 2017 intake.

Course detail

An intensive modular programme offering specialist routes in Medical Microbiology, Immunology, Cellular Pathology, Clinical Biochemistry, Haematology, and Medical Genetics.

Modules

Core Modules:

• Current Issues in Biomedical Sciences
• Practical Skills for Biomedical Science
• Research and Diagnostic Methodologies
• Advanced Topics in Biomedical Science
• Research Project

Choose from one of the specialist modules:

• Clinical Biochemistry
• Medical Microbiology
• Applied Immunology
• Medical Genetics
• Cellular Pathology and Oncology
• Haematology

Format

You learn and develop experience through a mixture of lectures, tutorials, workshops, laboratory practicals, computer-based activities and a conference week.

Assessment

We assess modules using a range of methods, including practical report writing, statistical analysis, oral presentations, poster presentations, researched essays and exams.

Careers / Further study

Graduates from this course have gone on to employment in the healthcare sector, teaching and academia, with many going on to take PhDs in the biomedical sciences.

How to apply

Information on applications can be found at the following link: http://www1.uwe.ac.uk/study/applyingtouwebristol/postgraduateapplications.aspx

Funding

- New Postgraduate Master's loans for 2016/17 academic year –

The government are introducing a master’s loan scheme, whereby master’s students under 60 can access a loan of up to £10,000 as a contribution towards the cost of their study. This is part of the government’s long-term commitment to enhance support for postgraduate study.

Scholarships and other sources of funding are also available.

More information can be found here: http://www1.uwe.ac.uk/students/feesandfunding/fundingandscholarships/postgraduatefunding.aspx

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This course allows you to plan your own taught programme to match your interests and experience by selecting modules from a diverse range of option modules from a diverse range offered by the biosciences masters course in the in the Faculty of Science and Technology, with the advice of the Course Leader. Read more
This course allows you to plan your own taught programme to match your interests and experience by selecting modules from a diverse range of option modules from a diverse range offered by the biosciences masters course in the in the Faculty of Science and Technology, with the advice of the Course Leader. For example, you could combine modules on microbiology and molecular biology or those on haematology and clinical chemistry.

Alternatively, you can combine basic science with study of the communication or commercialisation of science. We also offer the opportunity to consider the increasing role of automation in diagnostic laboratories. Those studying part time are free to develop their module choices as they progress.

Whatever the combination, you will be able to expand your understanding of human diseases, their investigation and therapy, and develop your competence in the design and execution of a laboratory-based project.

Modules

The following modules are indicative of what you will study on this course.

Core modules
-POSTGRADUATE PROJECT
-POSTGRADUATE RESEARCH METHODS

Option modules
-ADVANCED CANCER BIOLOGY
-ADVANCES IN CELLULAR PATHOLOGY
-AUTOMATION IN BIOMEDICAL SCIENCES
-CELL SIGNALLING AND GENETICS
-CELLULAR HAEMATOLOGY
-CLINICAL ASPECTS OF MICROBIAL PHYSIOLOGY AND CHEMOTHERAPY
-CLINICAL ENDOCRINOLOGY AND METABOLISM
-COMMUNICATING SCIENCE
-CONCEPTS AND PRINCIPLES OF HUMAN NUTRITION
-DIAGNOSTIC CELLULAR PATHOLOGY
-DIAGNOSTIC CLINICAL BIOCHEMISTRY
-EXTENDED POSTGRADUATE PROJECT
-IMMUNOHAEMATOLOGY AND HAEMOSTASIS
-IMMUNOPATHOLOGY
-IMMUNOTHERAPY
-INFECTIOUS DISEASES AND PUBLIC HEALTH
-MOLECULAR AND CELLULAR THERAPEUTICS
-MOLECULAR BIOINFORMATICS
-MOLECULAR SCIENCE AND DIAGNOSTICS
-PRINCIPLES OF MOLECULAR MEDICINE
-PRINCIPLES OF PHARMACOLOGY AND DRUG DISCOVERY
-REGENERATIVE MEDICINE
-SCIENCE, TECHNOLOGY AND COMMERCIALISATION
-SYSTEMS BIOLOGY

Associated careers

You will develop a range of transferable skills that will enhance your employment prospects and your research opportunities in the UK or overseas. This course has a diverse intake pf both full and part-time home/EU students range from recent graduates top those working in diagnostic laboratories who wish to gain additional qualification while our international students often have experience in biomedical science laboratories and following completion of their studies will return to their home countries pursue promotion or research opportunities.

Professional recognition

The course is accredited by the Institute of Biomedical Science (IBMS). However students interested in gaining professional registration should consider our Applied Biomedical Science MSc.

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