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Masters Degrees (Cancer Pathology)

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Laboratory medicine is facing an exciting era in the transforming Molecular Pathology landscape that aims to foster the delivery of high-impact innovation on the bases of complex informatics, for benefits to patient care, academic research and UK industry. Read more
Laboratory medicine is facing an exciting era in the transforming Molecular Pathology landscape that aims to foster the delivery of high-impact innovation on the bases of complex informatics, for benefits to patient care, academic research and UK industry. With a vision of creating the next generation of leaders in Molecular Pathology, this programme will provide the state of the art training programme for Molecular Pathology, in order to facilitate the pathologists, clinical scientists, trainees, and to those in the related health professions, to acquire essential knowledge, skills and attributes in the current and future diagnosis that incorporates molecular knowledge.

Why this programme

● In August 2014, MRC published a review of the UK Molecular Pathology Landscape, in which the critical needs and challenges are pin downed in the delivery of improved diagnostics incorporating the molecular approaches.

● With a vision of creating the next generation of leaders, this programme provides state of the art training for Molecular Pathology

● We are one of the few centres where molecular pathology and diagnostic histopathology are amalgamated on one site, permitting the delivery of a clinically relevant molecular pathology course.

● The areas of main focus include diagnostic molecular pathology, clinical trials and translational research in molecular pathology, pathology bioinformatics and digital pathology. The core courses (PgCert) are designed to cover the intended learning outcomes within Royal College of Pathologists curriculum for Specialty Training in Histopathology 2015.

● The programme is led by the national leaders directly engaged in the various molecular pathology initiatives. Students are kept up-to-date with information and the current needs identified by the professional societies, research councils and charity organizations.

● You will be trained at the purpose-built Laboratory Medicine Building at the Queen Elizabeth University Hospital, which provides services to 52% of the Scottish population. This is one of the largest NHS department of pathology in Europe, accommodating about 50 consultant pathologists.

● The courses will be delivered by a range of professionals with expertise from geneticists, pathologists, clinical, lab scientists and academics, informaticians and clinicians provided across hospital practice and primary care. They are experts based in QEUH and those nationally and internationally recognized experts of molecular pathology.

Programme structure

The main aims of the MSc Molecular Pathology programme are to enable students:

• to fully provide a high quality service in molecular pathology diagnosis
• to participate in research in the area of molecular pathology
• to participate in the training of future generations of molecular pathologists

The "Blended Learning" programme offers the maximum flexibility for students who wish to study Molecular Pathology while on clinical duties and pathology training. "Moodle-Based Learning" sessions offer an advantage allowing clinicians to study within their own schedule. "In person review" sessions will enable active interactions with the course contributors and other students. Case-based and "hands-on" sessions facilitate the knowledge and skills acquired in clinical diagnosis as the programme proceeds, so it is easy to keep motivated throughout the course.

Core Courses

– 3 x compulsory, 20-credit courses; 1 per semester

• Fundamentals of Molecular Biology and Genetics for Histopathology (20 credits)
• Molecular Tests and Techniques for Histopathology (20 credits)
• Multidisciplinary Approaches to Molecular Pathology (20 credits)

The first three core components will provide the minimum requirement for students to apply molecular knowledge and skill in pathology diagnosis currently on-going and in the immediate future.

These courses will form the PgCert.

Advanced Courses

- Courses must be selected from the following options to obtain a total of 60 credits.

• Translational Medical Research Approaches (10 credits)
• Medical and Research Ethics (10 credits)
• Molecular Pathology (20 credits)
• Omics technologies for biomedical sciences: from genomics and metabolomics (20 credits)
• Frontiers in Cancer Science (20 credits)
• Disease Screening in Populations (10 credits)
• Governance and ethics in education research (10 credits)

In the advanced component, students will further their training of Molecular Pathology to acquire the knowledge needed to get involved in research, or development and improvement of diagnostics. There are options for learning of advanced technologies, wider disease areas, research methods, in-depth bioinformatics, and health professional education.

Successful completion of core and advanced courses will be awarded with the PgDip.‌

Dissertation

- 1 x 60-credit project-based course assessed by a dissertation of approximately 8,000 words followed by an oral presentation.

The Masters dissertation project gives students the opportunity to conduct research in an area of Molecular Pathology with supervisor(s) assigned to each project. For example, the opportunity to conduct an independent research project, audit or critical review of the literature in selected topics in the area of Molecular Pathology, current and future diagnosis, clinical and scientific research.

Successful completion of all core and advanced courses and the dissertation will lead to the award of the MSc.

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This Masters in Cancer Sciences will prepare you for a career in cancer science, whether you aim to pursue a PhD or further medical studies, or seek a career in the health services sector, in the life sciences, biotechnology or pharmaceutical industries. Read more
This Masters in Cancer Sciences will prepare you for a career in cancer science, whether you aim to pursue a PhD or further medical studies, or seek a career in the health services sector, in the life sciences, biotechnology or pharmaceutical industries. Our programme takes a “bench to bedside” approach, enabling graduates to work within a multidisciplinary environment of world-leading scientists and cancer-specialists to address the latest challenges in cancer research.

Why this programme

-University of Glasgow is rated in the UK top five and best in Scotland for Cancer Studies. You will be taught by a multidisciplinary team of world leading cancer scientists and clinicians within the Cancer Research UK Glasgow Centre.
-This MSc in Cancer Science programme is unique in the UK as it delivers integrated teaching in molecular biology, pathology and clinical service.
-The Cancer Research UK Glasgow Centre brings together scientists and clinicians from research centres, universities and hospitals around Glasgow to deliver the very best in cancer research, drug discovery and patient care. The Centre’s world leading teams have made major advances in the understanding and treatment of many cancers. For more information, please visit: http://www.wecancentre.org/
-In the first semester, each week is focused around one of the new Hallmarks of Cancer, with the focus on the molecular/cellular biology of this hallmark. A tutorial session will enable you to discuss and integrate your learning from the week. This will enable you to understand how research into the fundamental principles of cancer cell biology can translate to advances in cancer treatment.
-The aim of this MSc in Cancer Science is to train cancer researchers who can break down the barriers that currently prevent discoveries at the bench from being translated into treatments at the bedside. By understanding the science, methodology and terminology used by scientists and clinicians from different disciplines, you will learn to communicate effectively in a multidisciplinary environment, critically evaluate a wide range of scientific data and research strategies and learn how to make a significant contribution to cancer research.

Programme structure

Semester 1: Hallmarks of Cancer

This 13 week core course aims to:
 provide you with a critical understanding of the molecular and cellular events that drive cancer development and progression
 demonstrate how an understanding of these events underpins current and future approaches to cancer diagnosis and treatment
 integrate the teaching of molecular biology, cell biology, diagnosis and treatment of cancer
 describe how all these disciplines communicate and work together in the fight against cancer
 provide you with theoretical training in fundamental molecular and cell biology techniques used in cancer research
One week of practical training is provided at the start of the course. This course is assessed through a lab notebook, group assessment, critical essay and an exam that focuses on data analysis and interpretation.

Semester 2

In the second semester, you can choose from a range of 3 week optional courses, before taking the core course “Designing a Research Project”.
• Drug Discovery
• Drug Development and Clinical trials
• Viruses and Cancer
• Diagnostic technologies and devices
• Technology transfer and commercialisation of bioscience research
• Current trends and challenges in biomedical research and health
or
• Frontiers in Cancer Sciences – 5 week optional course
• Omic technologies for the biomedical sciences: from genomics to metabolomics - – 5 week optional course
or
• Designing a research project: biomedical research methodology - 6 week optional course

Semester 3

Bioscience Research Project

In this 14 week core course you will:
 have an opportunity to perform a piece of original research to investigate a hypothesis or research questions within the area of cancer research. The project may be “wet” or “dry”, depending what projects are available
 develop practical and/or technical skills, analyse data critically and draw conclusions, and suggest avenues for future research to expand your research findings
Note: students must have a minimum of grade C in semesters 1 and 2 in order to proceed to the research project.

[[Career prospects ]]
The knowledge and transferable skills developed in this programme will be suitable for those contemplating a PhD or further medical studies; those wishing to work in the health services sector; and those interested in working in the life sciences, biotechnology or pharmaceutical industries, including contract research organisations (CROs). This programme is designed for students with undergraduate degrees in the life sciences, scientists working in the pharmaceutical and biotechnology industries, and clinicians and other healthcare professionals.

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The Cancer MSc reflects the depth and breadth of research interests, from basic science to translational medicine, within the UCL Cancer Institute. Read more
The Cancer MSc reflects the depth and breadth of research interests, from basic science to translational medicine, within the UCL Cancer Institute. The programme, taught by research scientists and academic clinicians, provides students with an in-depth look at the biology behind the disease processes which lead to cancer.

Degree information

This programme offers a foundation in understanding cancer as a disease process and its associated therapies. Students learn about the approaches taken to predict, detect, monitor and treat cancer, alongside the cutting-edge research methods and techniques used to advance our understanding of this disease and design better treatment strategies.

Students undertake modules to the value of 180 credits. The programme consists of two core modules (60 credits), four specialist modules (60 credits) and a research project (60 credits). A Postgraduate Diploma (120 credits, full-time nine months) is offered. A Postgraduate Certificate (60 credits, full-time 12 weeks) is offered.

Core modules
-Basic Biology and Cancer Genetics
-Cancer Therapeutics

Specialist modules
-Behavioural Science and Cancer
-Biomarkers in Cancer
-Cancer Clinical Trials
-Haematological Malignancies and Gene Therapy

Dissertation/report
All MSc students undertake a laboratory project, clinical trials project or systems biology/informatics project, which culminates in a 10,000–12,000 word dissertation and an oral research presentation.

Teaching and learning
Students develop their knowledge and understanding of cancer through lectures, self-study, database mining, wet-lab based practicals, clinical trial evaluations, laboratory training, assigned reading and self-learning. Each taught module is assessed by an unseen written examination and/or coursework. The research project is assessed by the dissertation (75%) and oral presentation (25%).

Careers

The knowledge and skills developed will be suitable for those in an industrial or healthcare setting, as well as those individuals contemplating a PhD or medical studies in cancer.

Top career destinations for this degree:
-Research Technician, NHS Imperial College Healthcare NHS Trust
-Cancer and Genetics, ETH Zurich
-PhD Cancer Research, University of New South Wales (UNSW)
-Clincial Trial Project Manager, Beijing Lawke Health Laboratory Inc.
-Research Scientist, SporeGen

Employability
Skills include critical evaluation of scientific literature, experimental planning and design interpretation of data and results, presentation/public speaking skills, time management, working with a team, working independently and writing for various audiences.

Why study this degree at UCL?

UCL is one of Europe's largest and most productive centres of biomedical science, with an international reputation for leading basic, translational and clinical cancer research.

The UCL Cancer Institute brings together scientists from various disciplines to synergise multidisciplinary research into cancer, whose particular areas of expertise include: the biology of leukaemia, the infectious causes of cancer, the design of drugs that interact with DNA, antibody-directed therapies, the molecular pathology of cancer, signalling pathways in cancer, epigenetic changes in cancer, gene therapy, cancer stem cell biology, early phase clinical trials, and national and international clinical trials in solid tumours and blood cancers.

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This programme aims to respond to a national and international need for clinicians, scientists and allied health professions who can apply a molecular approach to the investigation, diagnosis and management of clinical disease. Read more
This programme aims to respond to a national and international need for clinicians, scientists and allied health professions who can apply a molecular approach to the investigation, diagnosis and management of clinical disease.

We will provide you with theoretical and practical knowledge of modern molecular technologies as applied to human disease, with an emphasis on cancer, and train you in the application and interpretation of advanced molecular technologies.

Compulsory Modules

• Basic Pathology
• Cancer Biology
• Cancer Prevention & Screening
• Genomic Approaches to Human Diseases
• Molecular Diagnostic & Therapeutics
• Molecular Pathology of Solid Tumours
• Research Lab Skills
• Research Methods

Elective Modules

• Introduction to Bioinformatics
• Biological Therapies
• Molecular Targeted Therapies and Immunotherapy for Blood Cancers

Core Modules for MSc

• Lab project



Barts Cancer Institute is a Cancer Research UK Centre of Excellence and one of the leading cancer institutes in the country.
Based in the heart of London, our programmes are all taught by experts in the field.

Find out more about the BCI at http://www.bci.qmul.ac.uk/study-with-us

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This programme aims to provide you with a clear understanding of the scientific basis underlying the principles and practice of treating cancer. Read more
This programme aims to provide you with a clear understanding of the scientific basis underlying the principles and practice of treating cancer.

This will be underpinned by a thorough knowledge of cancer biology and pathology and research methodologies.

This knowledge will provide an excellent grounding in the development, use and evaluation of cancer therapies, which will enhance career prospects in many areas of early phase clinical trials and clinical drug development in the cancer setting.

Compulsory Modules

• Ablative Therapies
• Cancer Biology
• Cancer Pharmacology
• Cancer Prevention & Screening
• Drug Development
• Molecular Diagnostic & Therapeutics
• Molecular Targeted Therapies and Immunotherapy for Blood Cancer
• Research Methods
• Site Specific Tumour Treatment

Elective Modules

• Genomic Approaches to Human Diseases
• Paediatric & Adolescent Oncology
• Pathology of Cancer

Core Module for MSc

• Dissertation.

Barts Cancer Institute is a Cancer Research UK Centre of Excellence and one of the leading cancer institutes in the country.
Based in the heart of London, our programmes are all taught by experts in the field.

Find out more about the BCI at http://www.bci.qmul.ac.uk/study-with-us

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Molecular Pathology (MP) is a rapidly growing discipline in 21st century medicine. It integrates genomics and bioinformatics with modern pathology to underpin molecular diagnostics, theranostics as well as clinical trials delivery within the academic, health services and industry sectors in an era of precision medicine. Read more
Molecular Pathology (MP) is a rapidly growing discipline in 21st century medicine. It integrates genomics and bioinformatics with modern pathology to underpin molecular diagnostics, theranostics as well as clinical trials delivery within the academic, health services and industry sectors in an era of precision medicine.

This MSc is an exciting, innovative blended learning programme aimed to enhance the participant’s theoretical knowledge and practical skills in MP and to empower them to pursue a career in academia, healthcare or industry. The course has a strong focus on innovation and entrepreneurship; emphasising MP’s central role in molecular diagnostics, clinical trials and biotech/biopharma.

This Masters programme has been developed with a number of options in order to provide maximum flexibility of training. Candidates can take the Certificate/Diploma/MSc in Molecular Pathology of Cancer which will provide a solid foundation for those wishing to study MP at PhD level. The full-time MSc is also available as an intercalated degree for Medical and Dental students. Additionally, the three modules which are offered by Distance Learning are available as a ‘stand-alone’ Certificate in Pathology Informatics and Business Application.



Semester 1

All candidates will undertake traditional ‘face to face’ teaching for the three modules in Semester 1. This will be timetabled teaching. Some of the teaching sessions within the modules also form aspects of formal teaching for other PG programmes, providing the students with the opportunity to interact with other Masters students from different disciplines, which we feel enhances the student experience. Collectively, the modules would be sufficient for a Certificate in Molecular Pathology

(1) Cancer Biology, Immunology and Genomics (15 CATs)

(2) Molecular Pathology – Diagnostics and Technologies (25 CATs)

(3) Translational Research (20 CATs)



Semester 2

Candidates will complete three modules which will be available ‘online’ as distance learning modules. Successful completion of Semester 1 modules plus Semester 2 modules without the research dissertation would be sufficient for a Diploma in Molecular Pathology. Collectively, the modules in Semester 2 without the Semester 1 modules would be sufficient for a Certificate in Pathology Informatics and Business Application.

(1) Digital Molecular Pathology (20 CATs)

(2) Biostatistics and Bioinformatics (20 CATs)

(3) Academia/Industry Interface (20 CATs)



Research component

Students will be able to plan their research project and work on their literature review during semester 1; beginning the practical work for their research project in Semester 2. Research projects will be available across a variety of subjects. Potential project areas for the MSc will include – Molecular Neuropathology; Cancer Immunology; Liquid Biopsies; Digital Pathology; Biobanking; Molecular Diagnostics; Bioinformatics. A number of projects will be put forward from the network of CRUK Accelerator Partners for those students with CRUK Accelerator bursaries who may wish to undertake their research as a placement at one of the partner sites.

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This programme aims to provide you with a clear understanding of molecular and cellular biology that is fundamental to cancer biology and cancer research. Read more
This programme aims to provide you with a clear understanding of molecular and cellular biology that is fundamental to cancer biology and cancer research.

You will learn how research in this area has advanced the treatment and diagnoses of cancer, and gain knowledge of how new therapies are developed, evaluated and implemented.

You will gain a thorough knowledge of research methodologies and laboratory techniques, which you will fully utilise in the laboratory research project stage. The valuable research experience you will gain from working with leading cancer experts, will give you a solid foundation upon which a future career in scientific research can be built.

Compulsory Modules

• Biological Therapies
• Cancer Biology
• Cancer Pharmacology
• Drug Development
• Genomic Approaches to Human Diseases
• Molecular Diagnostic & Therapeutics
• Pathology of Cancer
• Research Lab Skills
• Research Methods

Elective Modules

• Cancer Prevention & Screening
• Paediatric & Adolescent Oncology

Core Module for MSc

• Lab project


Barts Cancer Institute is a Cancer Research UK Centre of Excellence and one of the leading cancer institutes in the country.
Based in the heart of London, our programmes are all taught by experts in the field.

To find out more about BCI visit http://www.bci.qmul.ac.uk/study-with-us

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This programme aims to provide you with a clear understanding of the scientific basis underlying the principles and practice of clinical oncology and the development, evaluation and implementation of new treatments. Read more
This programme aims to provide you with a clear understanding of the scientific basis underlying the principles and practice of clinical oncology and the development, evaluation and implementation of new treatments.

This will be underpinned by a thorough knowledge of cancer biology and pathology, drug development and research methodologies.

This knowledge will provide you with a good grounding in oncology within a clinical setting which will enhance prospects for those wanting to pursue a clinical academic career.

Compulsory Modules

• Ablative Therapies
• Cancer Biology
• Cancer Pharmacology
• Cancer Prevention & Screening
• Drug Development
• Genomic Approaches to Human Diseases
• Imaging
• Paediatric & Adolescent Oncology
• Pathology of Cancer
• Research Methods
• Site Specific Tumour Treatment

Elective Modules

• Biological Therapies
• Molecular Targeted Therapies and Immunotherapy for Blood Cancer

Core Module for MSc

• Dissertation

Barts Cancer Institute is a Cancer Research UK Centre of Excellence and one of the leading cancer institutes in the country.
Based in the heart of London, all our programmes are taught by experts in the field.

To find out more about BCI visit http://www.bci.qmul.ac.uk/study-with-us

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This exciting new course is designed to equip future scientists with the knowledge to make a difference in the understanding and treatment of cancer. Read more
This exciting new course is designed to equip future scientists with the knowledge to make a difference in the understanding and treatment of cancer. The course will take the mechanistic understanding of cancer biology and apply it to the analysis of risk, prevention, diagnosis, prognosis and therapy. Building on a foundation of the understanding of basic cancer cell biology, translational coverage will consider design of treatment modalities, mechanisms of action of anti-cancer drugs, therapy resistance and biomarker discovery. The course will allow the students to gain expertise and knowledge in therapy, cancer chemoprevention, anti-cancer target discovery, clinical trials, imaging, cancer risk and epidemiology and biostatistics. A key component of the course is a five/six-month research project, which will give students an opportunity to study one of these areas in depth.

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Our flexible, blended Molecular Pathology MSc course will enable you to take advantage of growing opportunities within this field, which is critically important for translational medicine, both in cancer and non-cancer diseases. Read more
Our flexible, blended Molecular Pathology MSc course will enable you to take advantage of growing opportunities within this field, which is critically important for translational medicine, both in cancer and non-cancer diseases.

The number of academic pathologists trained in molecular pathology has steadily declined over the past 20 years. As such, it has been identified as an area requiring support and development by the Medical Research Council (MRC) and the Royal College of Pathologists, creating careers opportunities for students and professionals alike.

Our master's course is aimed at medical students, biomedical scientists, medical practitioners and trainee pathologists who want to learn more about molecular pathology. Trainee pathologists can take our course as part of an existing training programme.

You will benefit from a unique focus on the molecular analysis of tissue samples and take optional units in various areas of laboratory medicine and emerging diagnostic methods, such as proteomics and chemical pathology.

Students will also become part of Manchester's world leading precision medicine research community, learning practical skills that will be directly applicable to this emerging field.

In addition, you will benefit from our association with the network of MRC and Engineering and Physical Sciences Research Council funded Molecular Pathology nodes, which have been partly established to train more scientists to work in this field. This will enable you to connect with colleagues and related opportunities across the UK.

Aims

This course aims to provide you with a wide and detailed understanding of the various aspects of molecular pathology.

Provided as part of The University of Manchester MRC/EPSRC Molecular Pathology node (Manchester Molecular Pathology Innovation Centre), we recognise the need for providing more training in molecular pathology among histopathology trainees, clinical scientists and biomedical scientists.

As such, the course addresses a wide audience, and has a broad range of both core and non-core course units to facilitate the different learning and training needs of different groups of professionals.

In addition to the taught components, which will give an in-depth understanding of molecular pathology and associated disciplines (including genomics and bioinformatics), the full MSc course will also develop your experience of and skills in scientific investigation, analytical thought and scientific criticism.

Special features

This course has been designed to take into consideration the training requirements of biomedical scientists, clinical scientists and medical histopathologists. We have consulted with local Postgraduate Deaneries, associated professional bodies including the Institute of Biomedical Scientists (IBMS), and the Royal College of Pathologists, to tailor its content appropriately.

The option to take the course over four years will particularly appeal to specialist trainee pathologists, who will be able to fit study around their clinical training.

They can also use Year 4 to undertake the research project over three months on a full-time, salaried basis, as per RCPath regulations and Deanery funding.

Teaching and learning

Teaching is largely delivered through face-to-face, interactive sessions, consisting of some lecture material, with discussions and group work, and with a range of audio-visual stimuli including PowerPoint slides, images and videos.

All units are supported by the use of Blackboard (a virtual learning environment) on which staff post lecture slides, reading lists and other accompanying material.

Each unit on Blackboard also has its own discussion board, where you can interact with staff and other students on the course, for example, by posting and responding to questions, and making comments related to the course.

For students completing the full MSc, a significant amount of teaching and learning will take place through the dissertation research unit (60 credits or 30 credits), in which you will be expected to take a lead role in developing a research project with regular support, input, and mentorship from your project supervisor.

Coursework and assessment

Formative assessments will be given throughout the taught component of the course and will take the form of MCQs, short answer questions, verbal presentations, data and method analysis exercises.

A range of summative assessments will be employed to assess your knowledge and understanding, and the development of your intellectual and transferable skills including:
-Verbal presentations
-Written assignments
-Data analysis and interpretation exercises
-Analytical method analysis
-Evaluation and formal unseen written examinations consisting of short answer questions and essays

The assessment methods employed by each unit will vary and will be tailored to match the material delivered and stated ILOs of that particular unit.

Your ability to gather information from a wide range of sources, evaluate and critically analyse information, make considered judgments about that information and synthesise material into logical and coherent pieces of work will all be assessed.

Examples of the marking proformas used in the assessment of verbal and written assignments will be provided in student handbooks and on Blackboard, the University's virtual learning environment.

As per the postgraduate taught degree regulations, students exiting with a postgraduate diploma (or postgraduate certificate) may be permitted to rescind this award and upgrade to a master's (or postgraduate diploma) by successfully completing the appropriate further component of the course, providing the following conditions are met:
-The rescinding occurs within five years of your initial registration on the original course, subject to the course still being available
-An overall pass at the appropriate standard to assure admission to a master's course has been obtained for the postgraduate diploma (or postgraduate certificate), including any capped or compensated grades

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The Cancer Sciences MRes is a one year, full time programme introduced to offer postgraduate training to suitably qualified science students who are interested in research careers in cancer. Read more
The Cancer Sciences MRes is a one year, full time programme introduced to offer postgraduate training to suitably qualified science students who are interested in research careers in cancer. It is a stand-alone programme that would be of particular interest to students who wish to apply for further training at PhD level.

Designed to offer life and biomedical science graduates the opportunity to gain research training through practical experience in a leading cancer research centre.

The programme consists of three introductory taught modules and an extensive project within a research group in the School of Cancer Sciences. The lecture modules will be taught by leading cancer experts and will cover such topics as the cellular and molecular basis of cancer, the pathology of selected cancers and how translational research is applied to diagnosis and treatment of cancers. The projects will generally be laboratory-based and will provide skills in designing and implementing research strategies to answer fundamental questions relating to cancer causes, diagnosis and/or treatment.

About the College of Medical and Dental Sciences

The College of Medical and Dental Sciences is a major international centre for research and education, make huge strides in finding solutions to major health problems including ageing, cancer, cardiovascular, dental, endocrine, inflammatory diseases, infection (including antibiotic resistance), rare diseases and trauma.
We tackle global healthcare problems through excellence in basic and clinical science, and improve human health by delivering tangible real-life benefits in the fight against acute and chronic disease.
Situated in the largest healthcare region in the country, with access to one of the largest and most diverse populations in Europe, we are positioned to address major global issues and diseases affecting today’s society through our eight specialist research institutes.
With over 1,000 academic staff and around £60 million of new research funding per year, the College of Medical and Dental Sciences is dedicated to performing world-leading research.
We care about our research and teaching and are committed to developing outstanding scientists and healthcare professionals of the future. We offer our postgraduate community a unique learning experience taught by academics who lead the way in research in their field.

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/postgraduate/funding

Open Days

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

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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Research profile. Edinburgh Cancer Research UK Centre (ECRC) strives to take a comprehensive approach to cancer research, combining both laboratory-based research and clinical approaches. Read more

Research profile

Edinburgh Cancer Research UK Centre (ECRC) strives to take a comprehensive approach to cancer research, combining both laboratory-based research and clinical approaches.

Overall the centre studies the genetic and biological basis of cancer and disease pathology, and devises and test new forms of therapy arising from our basic, translational and clinical research programs.

Our ultimate aim is to carry out high quality research into effective cancer prevention, diagnosis and treatment, as well as the symptoms associated with cancer.

ECRC is part of the Edinburgh Medical School's Deanery of Molecular, Genetic and Population Health Sciences at the Western General Hospital. This centre, as part of a unit of Hospital-Based Clinical Subjects, was rated 5* in the most recent Research Assessment Exercise.

We have 18 academic staff, 40 research staff, 35 support staff and 22 students.



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Genomic Medicine MSc is suitable for doctors, healthcare professionals and other students with an interest in Genomic Medicine. This course follows a curriculum designed by Health Education England and is suitable for healthcare professionals and other students with an interest in Genomic Medicine. Read more
Genomic Medicine MSc is suitable for doctors, healthcare professionals and other students with an interest in Genomic Medicine.

Overview

This course follows a curriculum designed by Health Education England and is suitable for healthcare professionals and other students with an interest in Genomic Medicine. As a jointly taught programme delivered by St George’s, University of London and King's College London, students will benefit from the breadth of expertise provided by both institutions.

Students will learn how recent technological advances have transformed how genetic data is generated, analysed and presented and its relevance to a range of clinical scenarios. This will be a flexible programme, structured to provide options for PGCert and PgDip awards as well as the MSc.

Funding is available from Health Education England (HEE) for NHS employees wishing to apply for the programme (and individual modules). Prospective students wishing to apply for this funding should do so before applying for the course.

Highlights

- Taught jointly by St George’s and King's
- Institutions with world-class research, clinical and teaching expertise across the full spectrum of Genomic Medicine
- Integrated within the South London Genomic Medicine Centre
- Both campuses are co-located with leading teaching hospitals
- Institutional expertise in multi-professional education
- St George’s scored 92% overall student satisfaction in Postgraduate Taught Experience Survey 2014
- King’s clinical research ranked third in the UK, eleventh in the world
- St George’s clinical research ranked 4th for impact
- Both institutions are ranked among the top 200 universities in the world according to the recent Times Higher Education World University Rankings

Modules

This MSc award will consist of 8 core modules with a selection of optional modules.

Core modules:
- Introduction to human genetics and genomics (15 credits)
- Omics techniques and their application to genomic medicine (15 credits)
- Genomics of common and rare inherited diseases (15 credits)
- Genomics in cancer pathology (15 credits)
- Pharmacogenomics and stratified healthcare (15 credits)
- Application of genomics in infectious disease (15 credits)
- Bioinformatics, interpretation, statistics and data quality assurance (15 credits)
- 60 Credit Research project or 30 Credit library-based dissertation

Optional modules
- Ethical, legal and social issues in applied genomics (15 credits)
- Counselling skills in genomics (15 credits)
- Cardiovascular genetics and genomics (15 credits)

Careers

This course is designed for students who wish to acquire training in genomic technologies and the interpretation of their findings within a medical context. An MSc in Genomic Medicine will provide career opportunities for a range of professions from laboratory based researchers to diagnostic and healthcare professionals.

Studying

Teaching will be delivered at both St George’s and King's sites and will include a variety of methods including lectures, seminars, workshops and online formats.

Progress throughout the course will be assessed through a variety of methods, including MCQ, written and oral presentations.

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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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