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Medicine×

Full Time MSc Degrees in Medicine, Sheffield, United Kingdom

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Lead academic 2016. Dr Mark Fenwick. The course provides training in reproductive and developmental medicine for scientists, clinicians and others, for instance ethical advisers or lawyers looking to specialise. Read more

About the course

Lead academic 2016: Dr Mark Fenwick

The course provides training in reproductive and developmental medicine for scientists, clinicians and others, for instance ethical advisers or lawyers looking to specialise. It’s a good platform for a research career or a career in clinical laboratory training for IVF or embryology.

Through the taught modules you’ll develop a solid understanding of reproductive science relevant to clinical applications. We cover the breadth of processes from gonadal development and production of gametes through to pregnancy and parturition. Each module is taught by leading scientists and clinicians in that field.

You’ll also have the opportunity to learn about the ethical issues and international laws regulating reproductive medicine. Finally, you’ll undertake a research project to develop a depth of knowledge in a specialist topic.

Our study environment

You’ll be based in teaching hospitals that serve a population of over half a million people and refer a further two million. We also have close links with the University’s other health-related departments.

Our research funding comes from many sources including the NIHR, MRC, BBSRC, EPSRC, the Department of Health, EU, and prominent charities such as the Wellcome Trust, ARC, YCR, Cancer Research UK and BHF. Our partners and sponsors include Novartis, GlaxoSmithKline, Pfizer, Astra Zeneca and Eli Lilly.

You’ll also benefit from our collaboration with the Department of Biomedical Sciences.

How we teach

Classes are kept small (15–20 students) to make sure you get the best possible experience in laboratories and in clinical settings.

Our resources

We have a state-of-the-art biorepository and a £30m stem cell laboratory. The Sheffield Institute of Translational Neuroscience (SITraN) opened in November 2010. We also have microarray, genetics, histology, flow cytometry and high-throughput screening technology, and the latest equipment for bone and oncology research.

At our Clinical Research Facility, you’ll be able to conduct studies with adult patients and volunteers. The Sheffield Children’s Hospital houses a complementary facility for paediatric experimental medical research.

Hepatitis B policy

If your course involves a significant risk of exposure to human blood or other body fluids and tissue, you’ll need to complete a course of Hepatitis B immunisation before starting. We conform to national guidelines that are in place to protect patients, health care workers and students.

Core modules

Research Skills in Reproductive Medicine; Gonads to Gametes: fundamentals of reproduction; Fertilisation, Implantation and Embryology; Fetal Development, Pregnancy and Parturition; Reproductive Technology and Infertility; Law, Ethics and Policy in Reproductive Medicine.

Read less
This course blends theory and practice to help you develop the skills required for a career in molecular and cellular biology. Our teaching focuses on integrated mammalian biology and animal models of human disease, drawing on our pioneering biomedical research. Read more

About the course

This course blends theory and practice to help you develop the skills required for a career in molecular and cellular biology. Our teaching focuses on integrated mammalian biology and animal models of human disease, drawing on our pioneering biomedical research.

Where your masters can take you

Graduates with skills in stem cell and regenerative medicine are in demand. Your degree will prepare you for a career in research in academia or industry, or in a clinical-related field. Our graduates are working all over the world – from the UK to China, India and the USA – and over half go on to doctoral study.

Learn from the experts

The 2014 Research Excellence Framework (REF) rates us No 1 in the UK for research in this field. Our international reputation attracts highly motivated staff and students. Sheffield is a vibrant place to take a masters based on pioneering research.

Regular seminars from distinguished international experts help you to connect your studies to the latest developments. We’re also part of collaborative research groups for developmental biology, cell biology, physiology, pharmacology, neuroscience, models of human disease, stem cell science and regenerative medicine.

Our three research centres focus on translating laboratory research to the clinical environment: Bateson Centre, the Centre for Stem Cell Biology, and the Centre for Membrane Interactions and Dynamics.

Leaders in our field

We have a long track record of groundbreaking discoveries. These include breakthroughs in human stem cells for hearing repair, and the generation of animal models for Parkinson’s disease, schizophrenia, muscular dystrophies and their use for therapeutic studies.

Labs and equipment

We have purpose-built facilities for drosophila, zebrafish, chick and mouse genetics and for molecular physiology. Other facilities provide all the tools you’ll need to examine and analyse a range of cellular structures. We have an electron and a light microscopy centre, a PCR robotics facility, a flow cytometry unit and an RNAi screening facility.

Teaching and assessment

There are lectures, practical classes, tutorials and seminars. In small group teaching classes you’ll discuss, debate and present on scientific and ethical topics. Laboratory placements within the department provide you with one-to-one attention, training and support to do your individual research project. Assessment is by formal examinations, coursework assignments, debates, poster presentations and a dissertation.

Our teaching covers ethics, practical scientific skills and an overview of the current literature. You’ll also develop useful career skills such as presentation, communication and time management.

Core modules

Literature Review; Practical Research Project; Analysis of Current Science; Ethics and Public Understanding.

Examples of optional modules

Integrated Mammalian Biology; Practical Cell Biology; Practical Developmental Genetics; Cancer Biology; Modelling Human Diseases; Epithelia in Health and Disease.

Read less
If you’re an international fee-paying student you could be eligible for a £3,000 discount when you start your course in January 2017. Read more
If you’re an international fee-paying student you could be eligible for a £3,000 discount when you start your course in January 2017.
http://www.shu.ac.uk/VCAwardJanuary2017

If you have a background in biomedical science, biology, medicine and life sciences, this course allows you to develop your knowledge in selected areas of biomedical science.

You gain advanced knowledge and understanding of the scientific basis of disease, with focus on the underlying cellular processes that lead to disease. You also learn about the current methods used in disease diagnosis and develop practical skills in our well-equipped teaching laboratories.

As well as studying the fundamentals of pathology, you can choose one specialist subject from:
Cellular pathology
-Microbiology and immunology
-Blood sciences.

Your work focuses on the in vitro diagnosis of disease. You develop the professional skills needed to further your career. These skills include: research methods and statistics; problem solving; the role of professional bodies and accreditation; regulation and communication.

This course is taught by active researchers in the biomedical sciences who have on-going programmes of research in the Biomolecular Sciences Research Centre together with experts from hospital pathology laboratories.

Most of your practical work is carried out in our teaching laboratories which contain industry standard equipment for cell culture, quantitative nucleic acid and protein analysis and a sophisticated suite of analytical equipment such as HPLC and gas chromatography.

Many of our research facilities including flow cytometry, confocal microscopy and mass spectrometry are also used in taught modules and projects and our tutors are experts in these techniques.

The teaching on the course is split between formal lectures and tutorials, and laboratory-based work. A third of the course is a laboratory-based research project, where full-time students are assigned to a tutor who is an active research in the biomedical research centre. Part-time students carry out their research project within the workplace under the guidance of a workplace and university supervisor.

Three core modules each have two full-day laboratory sessions and the optional module applied biomedical techniques is almost entirely lab-based. Typically taught modules have a mixture of lectures and tutorials. The research methods and statistics modules are tutorial-led with considerable input from the course leader who acts as personal tutor.

The course content is underpinned by relevant high quality research. Our teaching staff regularly publish research articles in international peer-reviewed journals and are actively engaged in research into: cancer; musculoskeletal diseases; human reproduction; neurological disease; hospital acquired infection; immunological basis of disease.

For more information, see the website: https://www.shu.ac.uk/study-here/find-a-course/mscpgdippgcert-biomedical-sciences

Professional recognition

This course is accredited by the Institute of Biomedical Science (IBMS) who commended us on:
-The excellent scientific content of our courses
-The supportive nature of the staff which provides a positive student experience
-The laboratory and teaching facilities, which provide an excellent learning environment

Course structure

Full time – 14 months to Masters. Part time – typically 2 years to Masters. The certificate and diploma are shorter January and September intakes.

Course structure
The masters (MSc) award is achieved by successfully completing 180 credits.

Core modules
-Biomedical laboratory techniques (15 credits)
-Evidence based laboratory medicine (15 credits)
-Cell biology (15 credits)
-Molecular diagnostics (15 credits)
-Research methods and statistics (15 credits)
-Research project (60 credits)

Optional modules
45 credits from
-Applied biomedical techniques (15 credits)
-Cellular and molecular basis of disease (15 credits)
-Cellular and molecular basis of cancer (15 credits)
-Human genomics (subject to approval) (15 credits)
-Blood sciences (30 credits)
-Cellular pathology (30 credits)
-Microbiology and immunology (subject to approval) (30 credits)

The Postgraduate Certificate (PgCert) is achieved by successfully completing 60 credits. The Postgraduate Diploma (PgDip) is achieved by successfully completing 120 credits.

Assessment
Assessment methods include written examinations and coursework such as: problem solving exercises; case studies; reports from practical work; presentations. Research project assessment includes a written report, presentation and portfolio.

Read less
Our department is home to a world-renowned sensory neuroscience research group. Their projects provide the basis for teaching and research training on this MSc. Read more

About the course

Our department is home to a world-renowned sensory neuroscience research group. Their projects provide the basis for teaching and research training on this MSc.

The course covers molecular, cell and developmental biology of auditory and visual systems. Advanced imaging and behavioural analysis focus on information processing: from sensory transduction to the central nervous system and behaviour. You’ll also study animal models of sensory deficits and the development of therapeutic treatments for hearing loss and blindness.

Where your masters can take you

Graduates with skills in stem cell and regenerative medicine are in demand. Your degree will prepare you for a career in research in academia or industry, or in a clinical-related field. Our graduates are working all over the world – from the UK to China, India and the USA – and over half go on to doctoral study.

Learn from the experts

The 2014 Research Excellence Framework (REF) rates us No 1 in the UK for research in this field. Our international reputation attracts highly motivated staff and students. Sheffield is a vibrant place to take a masters based on pioneering research.

Regular seminars from distinguished international experts help you to connect your studies to the latest developments. We’re also part of collaborative research groups for developmental biology, cell biology, physiology, pharmacology, neuroscience, models of human disease, stem cell science and regenerative medicine.

Our three research centres focus on translating laboratory research to the clinical environment: Bateson Centre, the Centre for Stem Cell Biology, and the Centre for Membrane Interactions and Dynamics.

Leaders in our field

We have a long track record of groundbreaking discoveries. These include breakthroughs in human stem cells for hearing repair, and the generation of animal models for Parkinson’s disease, schizophrenia, muscular dystrophies and their use for therapeutic studies.

Labs and equipment

We have purpose-built facilities for drosophila, zebrafish, chick and mouse genetics and for molecular physiology. Other facilities provide all the tools you’ll need to examine and analyse a range of cellular structures. We have an electron and a light microscopy centre, a PCR robotics facility, a flow cytometry unit and an RNAi screening facility.

Teaching and assessment

There are lectures, practical classes, tutorials and seminars. In small group teaching classes you’ll discuss, debate and present on scientific and ethical topics. Laboratory placements within the department provide you with one-to-one attention, training and support to do your individual research project. Assessment is by formal examinations, coursework assignments, debates, poster presentations and a dissertation.

Our teaching covers ethics, practical scientific skills and an overview of the current literature. You’ll also develop useful career skills such as presentation, communication and time management.

Core modules

Literature Review; Practical Research Project; Analysis of Current Science; Ethics and Public Understanding.

Examples of optional modules

Integrated Mammalian Biology; Practical Developmental Genetics; Neuroscience Techniques; Sensory Neuroscience; Developmental Neurobiology; Computational Neuroscience.

Read less
This unique research-led masters course provides laboratory training to future scientists in drug screening and gene discovery using the latest automated genomics techniques. Read more

About the course

This unique research-led masters course provides laboratory training to future scientists in drug screening and gene discovery using the latest automated genomics techniques. Students will also gain training in the pharmaceutical industry practices through direct contact with industry leaders from a wide range of companies.

Your research project will be undertaken in conjunction with the internationally renowned Sheffield RNAi Screening Facility, providing you with world-class training and professional skills in the use of pharmaco-genomics. You’ll also benefit from our modern research laboratories and equipment, including purpose-built facilities for drug screening, laboratory automation, cellular assays, imaging and processing.

Where your masters can take you

Graduates with skills in stem cell and regenerative medicine are in demand. Your degree will prepare you for a career in research in academia or industry, or in a clinical-related field. Our graduates are working all over the world – from the UK to China, India and the USA – and over half go on to doctoral study.

Learn from the experts

The 2014 Research Excellence Framework (REF) rates us No 1 in the UK for research in this field. Our international reputation attracts highly motivated staff and students. Sheffield is a vibrant place to take a masters based on pioneering research.

Regular seminars from distinguished international experts help you to connect your studies to the latest developments. We’re also part of collaborative research groups for developmental biology, cell biology, physiology, pharmacology, neuroscience, models of human disease, stem cell science and regenerative medicine.

Our three research centres focus on translating laboratory research to the clinical environment: Bateson Centre, the Centre for Stem Cell Biology, and the Centre for Membrane Interactions and Dynamics.

Leaders in our field

We have a long track record of groundbreaking discoveries. These include breakthroughs in human stem cells for hearing repair, and the generation of animal models for Parkinson’s disease, schizophrenia, muscular dystrophies and their use for therapeutic studies.

Labs and equipment

We have purpose-built facilities for drosophila, zebrafish, chick and mouse genetics and for molecular physiology. Other facilities provide all the tools you’ll need to examine and analyse a range of cellular structures. We have an electron and a light microscopy centre, a PCR robotics facility, a flow cytometry unit and an RNAi screening facility.

Teaching and assessment

There are lectures, practical classes, tutorials and seminars. In small group teaching classes you’ll discuss, debate and present on scientific and ethical topics. Laboratory placements within the department provide you with one-to-one attention, training and support to do your individual research project. Assessment is by formal examinations, coursework assignments, debates, poster presentations and a dissertation.

Our teaching covers ethics, practical scientific skills and an overview of the current literature. You’ll also develop useful career skills such as presentation, communication and time management.

Core modules

Literature Review; Practical Research Project; Analysis of Current Science; Ethics and Public Understanding.

Examples of optional modules

Practical Approaches to Small Molecule and Functional Genomic Screening; 3D Tissue Culture and Genome Editing; Genomic Approaches to Drug Discovery; The Biotech and Pharmaceutical Industry; Modelling Human Disease

Read less
University of Sheffield School of Medicine
Distance from Sheffield: 0 miles
Lead academic 2016. Dr Jonathan Wood. Translational Neuroscience looks at how laboratory research relating to brain structure and function informs the development of new therapies for diseases of the nervous system. Read more

About the course

Lead academic 2016: Dr Jonathan Wood

Translational Neuroscience looks at how laboratory research relating to brain structure and function informs the development of new therapies for diseases of the nervous system.

Combining the research strengths from the Faculty of Medicine, Dentistry and Health and the Faculty of Science, leading international basic and clinical scientists will provide an innovative and progressive programme. You’ll study basic neurobiology and molecular biology through to neuroimaging and applied clinical practice.

The MSc will provide you with up-to-date knowledge of advances in the field, research experience with internationally renowned research groups and transferable skills to provide a springboard for your future career.

Our study environment

You’ll be based in teaching hospitals that serve a population of over half a million people and refer a further two million. We also have close links with the University’s other health-related departments.

Our research funding comes from many sources including the NIHR, MRC, BBSRC, EPSRC, the Department of Health, EU, and prominent charities such as the Wellcome Trust, ARC, YCR, Cancer Research UK and BHF. Our partners and sponsors include Novartis, GlaxoSmithKline, Pfizer, Astra Zeneca and Eli Lilly.

You’ll also benefit from our collaboration with the Department of Biomedical Sciences.

How we teach

Classes are kept small (15–20 students) to make sure you get the best possible experience in laboratories and in clinical settings.

Our resources

We have a state-of-the-art biorepository and a £30m stem cell laboratory. The Sheffield Institute of Translational Neuroscience (SITraN) opened in November 2010. We also have microarray, genetics, histology, flow cytometry and high-throughput screening technology, and the latest equipment for bone and oncology research.

At our Clinical Research Facility, you’ll be able to conduct studies with adult patients and volunteers. The Sheffield Children’s Hospital houses a complementary facility for paediatric experimental medical research.

Hepatitis B policy

If your course involves a significant risk of exposure to human blood or other body fluids and tissue, you’ll need to complete a course of Hepatitis B immunisation before starting. We conform to national guidelines that are in place to protect patients, health care workers and students.

Core modules

Molecular Neuroscience; CNS Structure and Function; Genetics and Modelling of Neurodegenerative Disease; Mechanisms of Neurodegenerative Disease; Applied Neuroimaging; Neurophysiology and Psychiatry. A 20 week Research Project will be undertaken in the Summer Term.

Examples of optional modules

Option one: Literature Review and Critical Analysis of Science; Ethics and Public Awareness of Science.

Option two: Computational Neuroscience: Neurons and Neuronal Codes; Mathematical Modelling and Research Skills.

Teaching and assessment

Lectures, seminars, tutorials, laboratory demonstrations, computer practicals and student-led group work. Assessment is primarily by written assignments and coursework, although there are some written examinations and oral presentations. The research project is assessed by a thesis 
and presentation.

Read less
If you’re an international fee-paying student you could be eligible for a £3,000 discount when you start your course in January 2017. Read more
If you’re an international fee-paying student you could be eligible for a £3,000 discount when you start your course in January 2017.
http://www.shu.ac.uk/VCAwardJanuary2017

You gain advanced level knowledge and understanding of the scientific basis of disease, with focus on the underlying cellular processes that lead to disease. You also learn about the current methods used in disease diagnosis and develop relevant practical skills.

As well as studying the fundamentals of pathology, you can choose one specialist subject from:
-Cellular pathology
-Microbiology and immunology
-Blood sciences.
If you choose the MSc route you also take a project module.

Most of your practical work is carried out in our teaching laboratories which contain industry standard equipment for cell culture, quantitative nucleic acid and protein analysis and a sophisticated suite of analytical equipment such as HPLC and gas chromatography.

Many of our research facilities including flow cytometry, confocal microscopy and mass spectrometry are also used in taught modules and projects, and our tutors are experts in these techniques

You develop the professional skills needed to further your career. These skills include:
-Research methods and statistics.
-Problem solving.
-The role of professional bodies and accreditation.
-Regulation.
-Communication.

The teaching on the course is split between formal lectures and tutorials, and laboratory-based work. A third of the course is a laboratory-based research project, where you are assigned to a tutor who is an active researcher in the Biomolecular Sciences Research Centre.

Three core modules each have two full-day laboratory sessions and the optional module applied biomedical techniques is almost entirely lab-based. Typically taught modules have a mixture of lectures and tutorials. The professional development and research methods and statistics modules are tutorial-led with considerable input from the course leader who acts as personal tutor.

This course is taught by active researchers in the biomedical sciences who have on-going programmes of research in the Biomolecular Sciences Research Centre together with experts from hospital pathology laboratories.

The course content is underpinned by relevant high quality research. Our teaching staff regularly publish research articles in international peer-reviewed journals and are actively engaged in research into:
-Cancer.
-Musculoskeletal diseases.
-Human reproduction.
-Neurological disease.
-Hospital acquired infection.
-Immunological basis of disease.

For more information, see the website: https://www.shu.ac.uk/study-here/find-a-course/mscpgdippgcert-biomedical-laboratory-sciences

Course structure

Full time – 14 months to Masters. Part time – typically 2 years to Masters. The diploma and certificate are shorter. January and September intakes.

Course structure
The masters (MSc) award is achieved by successfully completing 180 credits.
Core modules
-Biomedical laboratory techniques (15 credits)
-Professional development (15 credits)
-Cell biology (15 credits)
-Molecular diagnostics (15 credits)
-Research methods and statistics (15 credits)
-Research project (60 credits)

Options
45 credits from
-Applied biomedical techniques (15 credits)
-Cellular and molecular basis of disease (15 credits)
-Cellular and molecular basis of cancer (15 credits)
-Evidence based laboratory medicine (15 credits)
-Blood sciences (30 credits)
-Infection and immunity (30 credits)
-Cellular pathology (30 credits)

The Postgraduate Certificate (PgCert) is achieved by successfully completing 60 credits. The Postgraduate Diploma (PgDip) is achieved by successfully completing 120 credits.

Assessment
Assessment methods include written examinations and coursework, such as: problem solving exercises; case studies; reports from practical work. Research project assessment involves a written report and viva voce.

Read less
University of Sheffield School of Medicine
Distance from Sheffield: 0 miles
Lead academic 2016. Dr Peter Grabowski. This course will give you a good understanding of the fundamentals of human nutrition. You’ll learn research skills and techniques. Read more
Lead academic 2016: Dr Peter Grabowski

This course will give you a good understanding of the fundamentals of human nutrition. You’ll learn research skills and techniques.

It will prepare you for a career in research, the food industry, academia, community nutrition and nutrition consultancy.

Teaching and assessment

You’ll learn through lectures and seminars, practical sessions, workshops, group debates, self-study units and individual presentations.

The taught modules include research skills tutorials. You’ll work independently on the research and library projects, with guidance from an academic.

You’re assessed on written reports, laboratory practical classes and group and individual assignments, which may involve oral presentations.

There is a written examination at the end of each module with an original research project for the MSc and a library-based project for the Diploma.

The research project is assessed by a written dissertation and an oral presentation. The library project is assessed by written dissertation.

Read less
University of Sheffield School of Medicine
Distance from Sheffield: 0 miles
Lead academic 2016. Dr Thomas Jenkins. Read more

About the course

Lead academic 2016: Dr Thomas Jenkins

This course, offering practical clinical exposure, enables you to apply the fundamentals of neuroanatomy and physiology to better understand the clinical features of patients with neurological disease and learn how insights from the laboratory are translated into benefits for patients.

In small group teaching sessions and clinics, you’ll have the opportunity to apply theoretical knowledge to patients with neurological disease. In the final term you may take a research option (Route A) or a Clinical Neurology Experiential Learning Module (Route B).

Students opting for Route A will choose from a range of clinical research projects based at SITraN or within the Royal Hallamshire Hospital. Students opting for Route B will attend additional specialist clinics with patient-centred teaching from experts in the field who will emphasise recent advances in clinical practice.

Our study environment

You’ll be based in teaching hospitals that serve a population of over half a million people and refer a further two million. We also have close links with the University’s other health-related departments.

Our research funding comes from many sources including the NIHR, MRC, BBSRC, EPSRC, the Department of Health, EU, and prominent charities such as the Wellcome Trust, ARC, YCR, Cancer Research UK and BHF. Our partners and sponsors include Novartis, GlaxoSmithKline, Pfizer, Astra Zeneca and Eli Lilly.

You’ll also benefit from our collaboration with the Department of Biomedical Sciences.

How we teach

Classes are kept small (15–20 students) to make sure you get the best possible experience in laboratories and in clinical settings.

Our resources

We have a state-of-the-art biorepository and a £30m stem cell laboratory. The Sheffield Institute of Translational Neuroscience (SITraN) opened in November 2010. We also have microarray, genetics, histology, flow cytometry and high-throughput screening technology, and the latest equipment for bone and oncology research.

At our Clinical Research Facility, you’ll be able to conduct studies with adult patients and volunteers. The Sheffield Children’s Hospital houses a complementary facility for paediatric experimental medical research.

Hepatitis B policy

If your course involves a significant risk of exposure to human blood or other body fluids and tissue, you’ll need to complete a course of Hepatitis B immunisation before starting. We conform to national guidelines that are in place to protect patients, health care workers and students.

Core modules

During the autumn and spring terms, you’ll take four taught modules worth 30 credits each: Applied Neuroanatomy and Clinical Neuroscience; Cerebrovascular Disease and Disorders of Consciousness; Neuroinflammation (CNS) and diseases of the PNS; Neurodegeneration.

Complementing the taught modules is a comprehensive programme of clinical demonstrations, integrated learning activities, themed clinics and neuro-anatomy dissection (autumn term) where students will be able to apply the taught theory and further substantiate their understanding of the topic area being studied.

Examples of optional modules

Either a research project (Route A) or a Clinical Neurology Experiential Learning Module (CNELM) (Route B) worth 60 credits is completed in the summer term.

Teaching and assessment

The taught component of the MSc is delivered through lectures, seminars, tutorials, practical demonstrations and student-led group work. Each of the 30-credit modules is assessed using a formal examination (15 credits) and ongoing assessments during the module (15 credits), including essays and oral presentations.

The research project (Route A) is assessed from the written dissertation and research presentation examination. The CNELM (Route B) is assessed by means of a portfolio (30 credits) and a 6,000-word dissertation (30 credits) on an aspect of the sub-speciality chosen for the module. The portfolio will contain a reflective log, anonymised details of cases seen, and work-based assessments.

Read less
University of Sheffield School of Medicine
Distance from Sheffield: 0 miles
Lead academic 2016. Dr Julie Simpson. This course combines taught modules on the fundamental aspects of the major nervous system diseases, with the development of practical laboratory skills encompassing histopathology, molecular pathology and microscopy. Read more

About the course

Lead academic 2016: Dr Julie Simpson

This course combines taught modules on the fundamental aspects of the major nervous system diseases, with the development of practical laboratory skills encompassing histopathology, molecular pathology and microscopy.

You’ll be trained to use tissue samples in neuroscience research aimed at understanding the pathophysiology of nervous system diseases and you’ll discover how laboratory breakthroughs have been translated into clinical benefits.

The course will be taught by scientists and consultant neuropathologists who are experts in their fields. You’ll get the opportunity to carry out neuroanatomy dissection and you’ll work with leading research groups during the research project.

Our study environment

You’ll be based in teaching hospitals that serve a population of over half a million people and refer a further two million. We also have close links with the University’s other health-related departments.

Our research funding comes from many sources including the NIHR, MRC, BBSRC, EPSRC, the Department of Health, EU, and prominent charities such as the Wellcome Trust, ARC, YCR, Cancer Research UK and BHF. Our partners and sponsors include Novartis, GlaxoSmithKline, Pfizer, Astra Zeneca and Eli Lilly.

You’ll also benefit from our collaboration with the Department of Biomedical Sciences.

How we teach

Classes are kept small (15–20 students) to make sure you get the best possible experience in laboratories and in clinical settings.

Our resources

We have a state-of-the-art biorepository and a £30m stem cell laboratory. The Sheffield Institute of Translational Neuroscience (SITraN) opened in November 2010. We also have microarray, genetics, histology, flow cytometry and high-throughput screening technology, and the latest equipment for bone and oncology research.

At our Clinical Research Facility, you’ll be able to conduct studies with adult patients and volunteers. The Sheffield Children’s Hospital houses a complementary facility for paediatric experimental medical research.

Hepatitis B policy

If your course involves a significant risk of exposure to human blood or other body fluids and tissue, you’ll need to complete a course of Hepatitis B immunisation before starting. We conform to national guidelines that are in place to protect patients, health care workers and students.

Core modules

Neuro-anatomy; Basic Principles of Pathology and Histopathology; Molecular Neuroscience; Ethics and Public Awareness of Science; Pathology and Modelling of Neurodegenerative Disease; Neuroinflammation, Neuro-Oncology and Neurovascular Disease; Literature Review and Critical Analysis of Science; Research Project.

Teaching and assessment

The taught component of the MSc is delivered through practical laboratory classes and demonstrations, lectures, seminars and tutorials. Assessment is primarily through written assignments and coursework, along with practical laboratory assessments, spotter exams, presentations and debates. The research project is assessed by a thesis and oral presentation.

Read less
If you’re an international fee-paying student you could be eligible for a £3,000 discount when you start your course in January 2017. Read more
If you’re an international fee-paying student you could be eligible for a £3,000 discount when you start your course in January 2017.
http://www.shu.ac.uk/VCAwardJanuary2017

This course increases your knowledge and skills in pharmacology and biotechnology to increase your competitiveness in the job market or complete research at PhD level. If you are already employed, this course can help you to further your career prospects.

The course is delivered by internationally recognised academics who are involved in biotechnology and pharmacology research. Research projects include studying the manipulation of proteins and their application to Alzheimer's disease, epilepsy, ion channels and the development of novel drugs from natural products.

You learn in detail how drugs act at the molecular and cellular level and then how biotechnological techniques are used to produce new drugs. Examples include developing new and effective treatments for diseases, such as Alzheimer’s and rheumatoid arthritis.
You also gain experience of the latest techniques used by the pharmaceutical industry to produce and study the effects of novel drugs.

The course gives you:
-Up-to-date knowledge of cellular and molecular pathology of various human diseases.
-The basis of therapeutic rationales for treating diseases and their development.
-An advanced understanding of recombinant DNA technology and how it is used to produce drugs.
-Experience of the latest practical techniques, such as cell culture, quantitative PCR analysis, cloning, western blotting, and analytical techniques such as HPLC and mass spectrometry.
-The transferable and research skills to enable you to continue developing your knowledge and improve your employment potential.

For more information, see the website: https://www.shu.ac.uk/study-here/find-a-course/mscpgdippgcert-pharmacology-and-biotechnology

Course structure

Full time – 14 months to Masters. Part time – typically 2 years to Masters. The certificate and diploma are shorter. Starts September and January.

The Masters (MSc) award is achieved by successfully completing 180 credits. The Postgraduate Certificate (PgCert) is achieved by successfully completing 60 credits. The Postgraduate Diploma (PgDip) is achieved by successfully completing 120 credits.

Core modules
-Cell biology (15 credits)
-Fundamentals of pharmacology (15 credits)
-Molecular biology (15 credits)
-Biotechnology (15 credits)
-Professional development (15 credits)
-New approaches to pharmacology (15 credits)
-Research methods and statistics (15 credits)
-Research project (60 credits)

Optional modules (one from)
-Applied biomedical techniques (15 credits)
-Cellular and molecular basis of cancer (15 credits)
-Pharmaceutical drug development (15 credits)
-Human genomics and proteomics (15 credits)

Assessment
Assessment is mostly by written examination and coursework including problem solving exercises, case studies and input from practical laboratory work. Research project assessment includes a written report and viva voce.

Read less
If you’re an international fee-paying student you could be eligible for a £3,000 discount when you start your course in January 2017. Read more
If you’re an international fee-paying student you could be eligible for a £3,000 discount when you start your course in January 2017.
http://www.shu.ac.uk/VCAwardJanuary2017

Gain the knowledge and practical skills needed to develop methods to determine the levels of active ingredients and contaminants in pharmaceutical preparations.

You learn the skills of an analyst and become familiar with the principles of modern instrumental analytical techniques, analytical methods and statistics. You learn how to conduct your tests according to regulations which demand that you work under a strict quality assurance and quality control regime.

Because we have designed the course in close consultation with the pharmaceutical industry, your training is excellent preparation for a career in the industry. In addition to giving input on course structure, industrial practitioners deliver lectures on a variety of topics which relate to industry. You can take modules individually for continuing professional development.

Your laboratory work is carried out in our teaching laboratories which are extensively equipped with the latest models of analytical instruments such as HPLCs and GCs. We also have excellent research facilities where you have access to more sophisticated equipment, such as NMR and a suite of various types of mass spectrometers, which are used in taught modules and research projects.

As a student, you:
-Gain knowledge and practical skills to operate commonly used analytical laboratory instruments.
-Become familiar with automated approaches to analysis and process analytical technology.
-Apply good experimental design techniques and use statistical methods for data evaluation.
-Develop your knowledge of validated analysis methods for determining chemical compounds and elements in a range of sample types.
-Understand the principles and practice of laboratory quality systems.
-Interpret mass spectra and nuclear magnetic resonance data.

For more information, see the website: https://www.shu.ac.uk/study-here/find-a-course/mscpgdippgcert-pharmaceutical-analysis

Course structure

Full time – 14 months to Masters. Part time – typically 2 years to Masters. The diploma and certificate are shorter. Starts September and January.

The Masters (MSc) award is achieved by successfully completing 180 credits. The Postgraduate Certificate (PgCert) is achieved by successfully completing 60 credits. The Postgraduate Diploma (PgDip) is achieved by successfully completing 120 credits.

Core modules
-Quality issues, laboratory accreditation and the analytical approach (15 credits)
-Separation, detection and online techniques (15 credits)
-Pharmaceutical drug development (15 credits)
-Drug detection and analysis (15 credits)
-Methods for analysis of molecular structure (15 credits)
-Process analytical technology (15 credits)
-Professional development (15 credits)
-Research methods and statistics (15 credits)
-Research project (60 credits)

Assessment
Mostly by coursework including: problem solving exercises; case studies; practical laboratory work; written examinations. Research project assessment includes a written report and viva voce.

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Develop your knowledge and skills of working with clients with developmental speech and literacy difficulties. This course is designed for speech and language therapists, and other professionals with a special interest in communication difficulties. Read more

About the course

Develop your knowledge and skills of working with clients with developmental speech and literacy difficulties. This course is designed for speech and language therapists, and other professionals with a special interest in communication difficulties. You can study part-time by distance learning or full-time.

Your career

Your masters will give you the skills and knowledge to make a difference. Our MMedSci course provides the necessary training to meet the requirements of the UK Health and Care Professions Council which is the accreditation body for UK speech and language therapy. Our other courses provide professional development training. They can also lead to careers in university teaching and research.

How we teach

We have a reputation for high quality research in the field of human communication and its disorders. That research informs our teaching. We offer professional training for students who are considering speech and language therapy as a career. If you’re interested in a research career, we can prepare you for a PhD.

We also run professional development courses for students already working in the field, so you can study alongside your current job. We have links with the NHS, special schools and specialist charities to ensure that what we teach you is in line with current developments in the field.

We work with other departments across the University including the School of Education, the Department of Psychology, the Department of Computer Science and the School of English Language and Linguistics.

Core modules

PGCert

Spoken and Written Language; Developing an Evidence-Based Practice; Speech Difficulties I: nature and investigation; Speech Difficulties II: intervention and management.

PGDip

Same four modules as for the PGCert; Research Methods; Two option modules.

MSc

Same four modules as for the PGCert; Spoken and Written Language; Developmental Speech Difficulties: Nature and Investigation; Developmental Speech Difficulties: Intervention and Management; Developing an Evidence Base for Practice; Research Methods; Two optional modules; Research Dissertation.

Examples of optional modules

Developmental Language and Communication Disorders (single or double option); Special Topics in Human Communication Sciences (two option modules); Cleft Palate (single or double option); Methods in Clinical Linguistics; Acquired Language Disorders; Acquired Speech Disorders.

Part-time students study online via distance learning plus optional attendance at the study blocks. Full-time students may also attend lectures, seminars and practical workshops offered in the department.

Assessment

Each module is assessed by a written assignment. Masters students are also assessed on their research dissertation.

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University of Sheffield School of Clinical Dentistry
Distance from Sheffield: 0 miles
This course focuses on the provision of highly advanced and technically demanding dental appliances and treatments. After training in research methods, you’ll carry out a research project of your own and learn how to apply your findings in practice. Read more

About the course

This course focuses on the provision of highly advanced and technically demanding dental appliances and treatments. After training in research methods, you’ll carry out a research project of your own and learn how to apply your findings in practice.

Your career

We offer clinical and non-clinical courses that will further your career and develop your interests. Many of our clinical graduates go on to specialist dental practice, hospital practice or academic posts.

World-leading dental school

Our internationally recognised oral and dental research is organised into two overarching themes: ‘clinical and person centred’ and ‘basic and applied’. These themes are supported by three interdisciplinary research groups: Bioengineering and Health Technologies, Integrated Bioscience, and Person Centred and Population Oral Health.

We believe that dental science should not be constrained by the traditional boundaries created by specific clinical disciplines and that progress derives from a multidisciplinary approach. Our research supports our teaching enabling a blended approach to learning.
Your course will make the most of virtual learning environments and advanced practical sessions, as well as traditional lectures and seminars.

Facilities

You’ll develop your clinical skills in one of our two clinical skills labs or in our new virtual reality Simulation Suite where you can use haptic technology to undertake a range of clinical techniques.

You’ll complete your clinical training in Sheffield’s Charles Clifford Dental Hospital, part of the Sheffield Teaching Hospitals NHS Foundation Trust. There are 150 dental units with modern facilities for treatment under sedation, a well-equipped dental radiography department, oral pathology laboratories and a hospital dental production laboratory.

We have new modern research facilities and laboratories for tissue culture, molecular biology, materials science and histology- microscopy. All laboratories have dedicated technical support and academic expertise to guide you.

Core modules

Dental Technology; Introduction to Digital Dentistry and Dental Manufacturing; Dental Materials Science; Scientific Writing and Health Informatics; Dental Laboratory Governance; Research Methods in Clinical Dentistry; Research Project.

Teaching

There are lectures, seminars, tutorials and practical classes.

Assessment

You’ll be assessed on written assignments and examinations, practical laboratory work and objective structured practical examinations (OSPE).

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This course is for qualified physiotherapists and aims to improve your practice by developing your assessment skills and clinical reasoning. Read more
This course is for qualified physiotherapists and aims to improve your practice by developing your assessment skills and clinical reasoning. You explore ways to measure the effectiveness of your clinical practice as well as issues such as collaborative practice and engaging patients.

All modules focus on elements of clinical practice, and we encourage you to apply your learning to the setting in which you work or wish to specialise. This ensures that the course gives you a balance of practical and academic skills. Assessments are designed to replicate the challenges you may face within the workplace. This offers an authentic experience and the opportunity to develop skills that are directly transferable to practice.

The course helps to improve your employment prospects and clinical skills, enabling you to lead clinical teams or work in teaching or research. If you study the course full-time, we provide placement experience in the UK where you work with an experienced clinician who is also an experienced tutor. The placement is an integral part of the course, so you choose the field in which you specialise and then apply your learning to clinical practice. If you study the course part-time and already work in clinical practice, you will be supported to apply your learning in your current post.

You learn from enthusiastic tutors including academics who have physiotherapy research published in peer reviewed journals. This includes Dr Stephen May, who is an internationally renowned physiotherapist who has contributed to several well known textbooks including the key text on the McKenzie Approach 'Lumbar Spine: Mechanical Diagnosis and Therapy'.

For more information, see the website: https://www.shu.ac.uk/study-here/find-a-course/msc-advancing-physiotherapy-practice

Distance learning study

A key feature of this course is that all modules can be studied as distance learning or as university-based teaching. Distance learning allows you to study from any location in the world, and at times that are convenient for your work and life commitments. To aid your professional and clinical development we use a range of online learning and teaching activities, such as interactive tutor and peer group discussions, patient video case studies and reflective journals around clinical practice. Experienced tutors also provide regular personal guidance and feedback.

Course structure

Full time – 18 months. Part time – typically 3 years. Distance learning – typically 3 years. Starts September.

Course structure
-The Postgraduate Certificate (PgCert) is achieved by successfully completing 60 credits.
-The Postgraduate Diploma (PgDip) is achieved by successfully completing 120 credits.
-The Masters (MSc) award is achieved by successfully completing 180 credits.

Postgraduate Certificate core modules
-Advancing clinical reasoning (15 credits)
-Improving clinical effectiveness (15 credits)
-Optimising therapeutic outcomes (15 credits)
Postgraduate Certificate options (choose one from)
-Pain management (15 credits)
-Pathology and patient management (15 credits)
-Concepts of learning and teaching (15 credits)
-Personalised study module (15 credits)

Postgraduate Diploma core modules
-Improving therapy services (15 credits)
-Researching for Practice (15 credits)
Postgraduate diploma optional modules (choose one from)
-Contemporary musculoskeletal rehabilitation (30 credits)
-Advanced practice in neurological therapy (30 credits)
-Advanced practice in cardiorespiratory care (30 credits) (only available as distance learning)
-Personalised study module (30 credits)

Masters
-Dissertation (60 credits)

Assessment: presentations; practical assessments; vivas; written assessments.

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