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Masters Degrees (Infection And Immunity)

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SOLVE PUBLIC HEALTH PROBLEMS OF THE FUTURE. We need well-trained and creative minds to help us solve public health problems of the future. Read more

SOLVE PUBLIC HEALTH PROBLEMS OF THE FUTURE

We need well-trained and creative minds to help us solve public health problems of the future. Do you see yourself tackling the increasing incidences of allergies and autoimmune disease, working on emerging infections such as Ebola and MRSA? Would you spend your time on developing personalised medicine to treat cancer or chronic inflammatory diseases? Join our programme!

THE RIGHT CHOICE FOR YOU?

This Master’s programme gives you the knowledge and research expertise needed to solve the public health problems of the future. Emerging infectious are a threat to human and animal well-being and an increasing number of allergies and chronic inflammatory diseases have a major impact on individuals and society as a whole. Knowledge of the immune system provides us with potential health care solutions for cancer, transplantation and downregulation of a hyperactive immune system as for example in rheumatoid arthritis. By training students in the field of Infection and Immunity, this programme contributes to accumulation of knowledge that is directly or indirectly leading to faster diagnosis of diseases and better treatment options.

This Master’s programme will give you a firm foundation in the field of infection and immunity and covers a variety of topics such as fundamental and clinical immunology, vaccines, immunotherapy, mechanisms of infectious diseases, molecular epidemiology of infections, virulence factors of microorganisms, and resistance to treatment.

WHY STUDY INFECTION AND IMMUNITY AT UTRECHT UNIVERSITY?

Infection, immunity, and the role of microflora in human and animal welfare is one of Utrecht University’s core research areas and the Graduate School of Life Sciences is home to a large number of world-leading research groups working in this field. Utrecht’s life science campus comprises over 50 Infection and Immunity groups in the field of human and animal health covering the whole range from molecular biology to population level. This two-year research Master's offers an unique combination of studying Immunology and infectious diseases in one comprehensive Master’s programme including extensive training in laboratory research skills. As a student you will have the opportunity to carry out two hands-on research projects at renowned research groups.

Infection and Immunity has intensive collaboration with international research institutes, allowing students to do their minor internship abroad at prestigious partner universities all around the world.

Read more on why in Utrecht

WHAT YOU’LL LEARN

As a Master’s student of Infection and Immunity, you will take theory courses and seminars, as well as master classes led by specialists in the field. You will study molecular, cellular, and clinical aspects of pathogens and immune responses. During your six to nine month internships you work in a lively research environment during which you will gain hands-on experience of biomedical research in Infection and Immunity. We believe that understanding both pathogens and host reactions provides deeper insight into the mechanisms of illness, so you will complete internships in both infection and immunity.

The annual scientific symposium is a particular highlight. This symposium is organised by Master’s students and features talks by international experts and poster presentations by second year Master’s Infection and Immunity students on their own areas of research.

Read more on our study programme



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The language and concepts of infection and immunity, from basic science to translational clinical research, are taught by our world-class investigators. Read more

The language and concepts of infection and immunity, from basic science to translational clinical research, are taught by our world-class investigators. The programme emphasises data interpretation, critical analysis of current literature and culminates in a full-time research project: excellent preparation for a research career.

About this degree

The programme provides insight into state-of-the-art infection and immunity research, current issues in the biology of infectious agents, the pathogenesis, prevention and control of infectious diseases, and immunity and immune dysfunction. 

Students learn from UCL scientists about their research and are trained in the art of research by carrying out a full-time research project in a UCL laboratory.

Students undertake modules to the value of 180 credits.

The programme consists of five core modules (75 credits), three optional modules (45 credits) and a research dissertation (60 credits).

A Postgraduate Diploma comprising four core modules and four optional modules (120 credits, full-time nine months, part-time, flexible study two to five years) is offered.

A Postgraduate Certificate comprising four core modules (60 credits, full-time three months, and flexible study up to two years) is offered.

Core modules

  • Laboratory Introduction to Basic Bacteriology
  • Molecular Virology
  • Immunology in Health and Disease
  • Epidemiology and Infectious Diseases
  • Data Interpretation

Optional modules

  • Microbial Pathogenesis
  • Tropical Microbiology
  • Advanced Virology
  • HIV Frontiers from Research to Clinic
  • Immunological Basis of Disease
  • Immunodeficiency and Therapeutics
  • Infectious Diseases Epidemiology and Global Health Policy
  • Global eradication of viruses

Dissertation/report

All MSc students undertake independent research which culminates in a 4,000-word dissertation.

Teaching and learning

The programme is delivered through a combination of lectures, tutorials, paper review sessions, laboratory practicals, an independent research project and self-directed learning. A diverse range of assessment methods is used; coursework may be in the form of presentations, essays, data interpretation exercises, poster preparation, and group working. Many modules also have unseen written examination.

Further information on modules and degree structure is available on the department website: Infection and Immunity MSc

Careers

The programme produces graduates who are equipped to embark on research careers. Immersion in the superb research and teaching environment provided by UCL and the Division of Infection & Immunity, gives our graduates a unique understanding of the cutting edge of infection and immunity research and how world-class research is carried out. 

Opportunities for networking with UCL senior investigators with international reputations and their worldwide collaborators can provide the inside track for career development. Graduates are well placed to move onto PhD programmes, research positions in diverse biomedical fields, clinical research positions, further training and positions in associated professions.

Recent career destinations for this degree

  • PhD Student, Universitホ catholique de Louvain
  • Research Assistant, Imperial College London
  • Research Assistant, UCL
  • PhD in Molecular Immunology, UCL

Employability

Graduates are exceptionally well prepared for a career in research. The combination of research-informed teaching and practical research training provides an ideal preparation for a PhD and is equally applicable for clinicians seeking specialist training or wishing to pursue the clinical academic career track.

More broadly, a rigorous grounding in scientific method, critical analysis, data interpretation and independent thinking provides a pallet of marketable and transferable skills applicable to many professional career paths.

Careers data is taken from the ‘Destinations of Leavers from Higher Education’ survey undertaken by HESA looking at the destinations of UK and EU students in the 2013–2015 graduating cohorts six months after graduation.

Why study this degree at UCL?

The UCL Division of Infection & Immunity is a vibrant and world-class research community. Students are embedded in this superb training environment which provides a challenging and stimulating academic experience. 

Programme content reflects the research and clinical excellence within the division as well as cross-disciplinary research from all over UCL. First-class teaching and research supervision is provided by UCL academics, many of whom have international reputations.

Research Excellence Framework (REF)

The Research Excellence Framework, or REF, is the system for assessing the quality of research in UK higher education institutions. The 2014 REF was carried out by the UK's higher education funding bodies, and the results used to allocate research funding from 2015/16.

The following REF score was awarded to the department: Division of Infection & Immunity

80% rated 4* (‘world-leading’) or 3* (‘internationally excellent’)

Learn more about the scope of UCL's research, and browse case studies, on our Research Impact website.



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With diseases such as tuberculosis and malaria killing millions of people every year and recent outbreaks of Ebola and Zika, there is a pressing need for accelerating research into infectious disease. Read more

With diseases such as tuberculosis and malaria killing millions of people every year and recent outbreaks of Ebola and Zika, there is a pressing need for accelerating research into infectious disease. This specialist pathway will equip you with a critical understanding of infection, immunity and the cellular and molecular processes involved.

Highlights

-Shared campus with one of the largest teaching hospitals in the UK.

-Expertise in clinical, epidemiological and laboratory research within the University and St George’s Hospital

-Excellent Image Resource and Biomedical Research facilities to gain strong research knowledge and skills

Infection and Immunity Module

The specialist Infection and Immunity module is 30 credits and will cover the broad area of infectious disease, taking advantage of active research taking place at St George’s by exploring some of the specific causes of infection such as tuberculosis, malaria, MRSA and viral infections such as HIV. You will learn about the cellular and molecular responses to infection, including innate and adoptive immune responses and those responses that are deleterious.

The module will provide insight into the pathogenesis of infection and the virulence mechanisms involved. It will also demonstrate how an understanding of these processes drives vaccine development, antibiotic treatment and immunotherapy. The module will also provide you with insight into how new sequencing technologies and ‘omics’ methodologies are providing novel insights into the human microbiota, susceptibility to infection, tracking of infectious disease and mechanisms underlying resistance to antibiotics.

Careers

The course is highly effective for accelerating your development within your general healthcare career. As a direct result of the depth and quality of the academic research that you’ll undertake on your nin8e month project, you will also be in primary position when it comes to successfully applying for PhDs.

Application

Apply at https://sgul.ac.uk/study/postgraduate/taught-degrees-postgraduate/biomedical-science-mres-infection-and-immunity/apply



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The Global Health, Infection and Immunity MSc is designed for students interested in immunology, especially the role of the immune system in protection against infection. Read more
The Global Health, Infection and Immunity MSc is designed for students interested in immunology, especially the role of the immune system in protection against infection.

Highlights

- Flexible structure for the MSc Global Health suite allows you to select a specialism of your choice.
- Excellent academic connections for potential placements in London and overseas.
- Students from a range of backgrounds creating a diverse learning community where knowledge is shared across disciplines.
- Enjoy working with other students, researchers and clinicians as part of a small, close-knit team, with all the advantages that brings for personal networking and development.

Core Modules

- Global Health for Governance for Health
- Infection and Immunity
- MSc Research Project

Optional Modules

- Antimicrobial Resistance
- Conflict and Catastrophe Medicine
- Global Health Diseases
- Global Health, Ethics and Law
- Culture and Mental Health
- Global Health and Comparative Health Systems
- Global Health Humanities
- Humanitarian Action and Ethics

Careers

The breadth of experience that you will gain on the course will place you in prime position to make impactful change relating to your area of interest. You will have the skills to go on to work as global health practitioners, policy makers, consultants or researchers in both government and private sectors, as well as national and international agencies.

Application

Apply at https://sgul.ac.uk/study/postgraduate/taught-degrees-postgraduate/global-health-msc-infection-and-immunity/apply

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Infectious diseases are increasing in importance around the world as we see the rise in the incidence of antibiotic resistance and our MSc in Infection and Immunity is designed to provide an up-to-date advanced understanding of the interactions between bacterial, fungal and parasitic pathogens and their hosts. Read more
Infectious diseases are increasing in importance around the world as we see the rise in the incidence of antibiotic resistance and our MSc in Infection and Immunity is designed to provide an up-to-date advanced understanding of the interactions between bacterial, fungal and parasitic pathogens and their hosts.

Why Study Infection and Immunity with us?

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

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

The content of the course is mapped to The Joint Royal Colleges of Physicians Training Board Speciality Training Curriculum for Immunology, and Speciality Training Curriculum for Infectious Diseases and Tropical Medicine.

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

What will I learn?

Our course investigates the different types of infection, our immune response to them and various complications. You will review current guidelines and their evidence base in the therapeutic management of infections, and explore potential new therapies. You will also study vaccination protocols and explore novel immunological approaches.

Seminars and tutorials will be held with various healthcare professionals and clinical researchers.

How will I be taught?

Our course consists of taught modules and a Research Dissertation.

We deliver taught modules as three-day intensive courses to facilitate attendance from students in employment. Weekly support sessions and journal club supplement learning – all held in our modern facilities in Bache Hall on the Countess of Chester Hospital Campus.

How will I be assessed?

You will be assessed via clinical reviews, laboratory reports, posters, oral presentations, or data manipulation exercises.

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Course Aims. The MSc course is designed to integrate current cutting-edge research knowledge and expertise in important infectious diseases and their relationship to the immune system. Read more
Course Aims
The MSc course is designed to integrate current cutting-edge research knowledge and expertise in important infectious diseases and their relationship to the immune system. The course is carefully integrated and combines up-to-date practical and theoreticalteaching methods to prepare students for careers in medicine, postgraduate research and opportunities in the bio-pharmaceutical industry.

Course Modules
In semester 1, students acquire and apply knowledge in three modules. These are Core Theory & Practical Techniques, Infection & Immunity, and a more specialised interactive module entitled Advanced Topics in Infection and Immunity, all taught by research-active lecturers of international standing. Students participate in a set of practicals generic to all MSc students in the School of Biological Sciences at the University. In addition special microbiology and immunology practicals cover techniques relevant to the research projects. The research project is conducted during semester 2 under supervision of a member of staff of the Department of Infection, Immunity and Inflammation, andis submitted as a research dissertation at the end of the project. The research project is chosen by the students at the end of semester one.

Teaching and Assessment methods
The course caters for different student learning styles by offering a variety of teaching (formal lectures, practicals, tutorials and student presentations) and assessment modes (written, oral, practical, MCQ).

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Our Postgraduate Diploma in Paediatric Infectious Diseases, directed by Professor Andrew Pollard of Oxford University Department of Paediatrics, is designed to provide a variety of different teaching methods (face-to-face and online) directing students through the syllabus required in the EU for clinical training in the subspecialty. Read more
Our Postgraduate Diploma in Paediatric Infectious Diseases, directed by Professor Andrew Pollard of Oxford University Department of Paediatrics, is designed to provide a variety of different teaching methods (face-to-face and online) directing students through the syllabus required in the EU for clinical training in the subspecialty. The Programme will also be appropriate for those outside the EU.

Visit the website https://www.conted.ox.ac.uk/about/pgdip-in-paediatric-infectious-diseases

Description

The Postgraduate Diploma in Paediatric Infectious Diseases is supported by the European Society for Paediatric Infectious Diseases (ESPID), the Paediatric European Network for Treatment of AIDS (PENTA), and the IIC Course: Oxford.

Worldwide, two thirds of the deaths in children under five years of age are caused by infectious diseases, and the prevention and treatment of infections in children is the number one priority for global health.

Reflecting this imperative, we recognise that investment in research and intervention programmes related to leading causes of childhood morbidity and mortality, including acute respiratory infections, measles, infectious diarrhoea, malaria, HIV, and TB is vitally important. We believe that professionally-oriented education in paediatric infectious diseases is essential in the training of clinicians and clinical academics who will provide the future leadership in this key area for global health.

The Postgraduate Diploma also places the practice of paediatric infectious diseases in the broader context of applied sciences, such as pathogenesis, population biology and epidemiology. The Programme focuses on clinical (applied) aspects, underpinned by basic science to provide both breadth and depth.

The Postgraduate Diploma in Paediatric Infectious Diseases is a part-time two-year programme taught via a blend of online and residential components.

Syllabus:

- Infectious Syndromes
- Therapeutics and Infection Control
- Epidemiology, Immunity and Immunization
- Bacterial Infections
- Important Viral Infections and Prions
- Imported and Tropical Diseases and Mycobacterial Infection
- Congenital and Neonatal Infection, Sexually Transmitted Disease, and Parasitic Disease
- The Immunocompromised Host
- Fungal Infection

Dates:
The 2016 Paediatric Infectious Diseases Programme starts in September 2016. The next PENTA-ESPID HIV course online component beings in May 2016, with the residential component taking place in October 2016. The Infection and Immunity in Children: Oxford residential course takes place in June/July each year.

The Postgraduate Diploma is normally completed within two years.

The following course components can be taken before applying for the Postgraduate Diploma and if successfully completed and if taken within two years of starting the Postgraduate Diploma, then these elements of the Programme requirements will normally be dispensed:The Infection and Immunity in Children course, which runs each summer in Oxford, and thePENTA-ESPID online and residential HIV course. For example, the online PENTA-ESPID paediatric HIV Medicine course starts in May each year culminating in the residential course in October. Whether undertaken before registration for the Postgraduate Diploma or within the two-year duration of the Postgraduate Diploma, all components must be completed in order to satisfy the requirements of the Postgraduate Diploma. See the course structure above for further details.

Course aims

The Programme will provide students with:

- Knowledge and critical understanding of the well-established principles of paediatric infectious diseases, and of the way in which those principles have developed

- An ability to apply underlying concepts and principles outside the context in which they were first studied, including, where appropriate, the application of those principles the real world of paediatrics

- Knowledge of the main methods of enquiry in the paediatric infectious diseases and ability to evaluate critically the appropriateness of different approaches to solving problems

- An understanding of the limits of your knowledge, and how this influences analyses and interpretations based on that knowledge

At the end of the Programme students will know and understand how to:

- Use your broad knowledge of paediatric infectious disease in your practice and have learnt where to find the necessary resources when you have reached your limit of knowledge

- Understand how to find evidence-based information to facilitate rational decision making in diagnosis and management of children with infection

- Effectively communicate information, arguments, and analysis about paediatric infection, in a variety of forms, to specialist and non-specialist audiences

- Undertake further training, develop existing skills, and acquire new competences that will enable you to assume significant responsibility within organisations

- Qualities and transferable skills necessary for your future career in paediatrics and infectious diseases

Assessment methods

Assessment is via "formative elements" (online case rounds and discussions and multiple choice sessions) and "summative elements" (including written assignments, an oral presentation and an examination).

Formative elements:

- Online Case Rounds: at least seven ESPID case rounds over two years.
- Online Case Discussions in paediatric HIV medicine ([email protected]): actively participate in one four-week session over two years.
- Online multiple choice sessions: at least six sessions over two years.

Summative elements:

Written assignments:
Three written assignments of no more than 4000 words each over the course of two years.

Year 1: Oral presentation
A short oral presentation based on one of the written assignments.

Year 2: Examination
An examination consisting of multiple choice questions in paediatric infectious diseases.

Teaching methods

There are three main teaching elements to the Programme:

- A two-year online course in Paediatric Infectious Diseases which covers the full syllabus outlined above with online tutor support and student discussion forums

- Two residential courses in Oxford: Infection and Immunity in Children.

- A PENTA_ESPID online course Training for Paediatric HIV in Europe (paediatric HIV medicine) followed by a PENTA_ESPID residential course in Rome: Training for Paediatric HIV in Europe (paediatric HIV medicine).

Find out how to apply here - http://www.ox.ac.uk/admissions/graduate/applying-to-oxford

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OVERVIEW. The MSc in Experimental Medicine offers advanced research training in a broad range of laboratory based biomedical sciences. Read more

OVERVIEW

The MSc in Experimental Medicine offers advanced research training in a broad range of laboratory based biomedical sciences.

MSc in Experimental Medicine is designed for students wishing to pursue a career in experimental medicine, whether it is in academia, clinical practice, industry or government. The programme will also provide an excellent platform for progression to PhD programmes either in Queen’s or worldwide. 

MSc in Experimental Medicine will develop a strong fundamental understanding of high quality biomedical research, including experimental design and execution, data management and interpretation, and scientific communication, including publishing, presentation, and use of social media. 

The programme offers comprehensive research training with access to over 40 research groups and the state-of-the-art research facilities at the Centre for Experimental Medicine (CEM). Research facilities include Central Technology Units for Imaging and Genomics which are leading the way in research excellence and innovative healthcare. 

Experimental medicine aims to identify mechanisms of pathophysiology of disease, and demonstrate proof-of-concept evidence of the efficacy and importance of new discoveries or treatments. There is an increasing need for graduates who can undertake basic and clinical research, and translate it into improved medical treatments for patients.

This research-intensive MSc programme in Experimental Medicine will equip you with the rigorous research skills, and the innovative mentality to tackle the major medical and therapeutic challenges of the 21st century.

For further information email  or send us a message on WhatsApp

EXPERIMENTAL MEDICINE HIGHLIGHTS

The strong links between the Centre for Experimental Medicine and the biotech or biopharmaceutical sectors provides a stimulating experimental and translational environment, while also expanding your career opportunities.

PROFESSIONAL ACCREDITATIONS

  • You will have an opportunity to obtain a formally accredited certificate of training in good clinical practice (GCP) via the Inflammation, Infection and Immunity module. Students working with animal models of disease will also receive official training in animal handling, leading to a UK official animal handling personal license.

WORLD CLASS FACILITIES

  • You will be taught and mentored within the Centre for Experimental Medicine: a brand new, purpose-built institute at the heart of the Health Sciences Campus, boasting state-of-the-art research facilities. The programme offers comprehensive research training with access to over 40 research groups and the state-of-the-art research facilities at the Centre for Experimental Medicine (CEM). Research facilities include Central Technology Units for Imaging and Genomics which are leading the way in research excellence and innovative healthcare.

STUDENT EXPERIENCE

  • A strength of this MSc incorporates transdisciplinary elements throughout the degree programme, which contribute to the delivery of innovative postgraduate education and research training. Central to this programme is a multi-disciplinary team of academic and clinical specialists, with expertise ranging from molecular disease phenotyping, functional genomics, infectious disease biology, vascular biology, genetic epidemiology, imaging, immunology, stem cell biology and exploitation, unique pre-clinical models of disease, and patient-based investigation and clinical trials. The transdisciplinary expertise provided is complemented with programme access to state-of-the-art research facilities, including a diverse range of new and emerging technologies in genomics, advanced imaging, and patient-orientated research tools

COURSE STRUCTURE

Semester 1

It comprises 3 months of intensive teaching, which includes essential research skills followed by specialist chosen modules entitled “Infection & Immunity”, or “Diabetes and Cardiovascular Disease”. The remaining period will provide a unique opportunity to focus for 8 months on an extensive research project chosen from a large panel of projects offered by Principal Investigators in the CEM in one of the above themes. This period will be interspersed with monthly training to develop project-specific transferable skills, such as oral and poster presentation, and scientific writing.Semester 2

Semester 2 

You will specialise in one of these two research streams:

  • The Diabetes and Cardiovascular Disease stream is a specialised pathway within the MSc in Experimental Medicine which builds on our major strategic research strength in this globally significant area. This stream contains two complementary taught modules focusing on fundamental, experimental and translational principles of diabetes and cardiovascular disease, thereby providing good understanding of the pathophysiology of the diseases as well as current and experimental treatments. These modules will instil an appreciation of how this knowledge is being applied in the search for novel diagnostic, prognostic and therapeutic approaches for the clinical management of cardiovascular disease in diabetic patients, which is the biggest killer worldwide. Within this MSc programme, we offer a wide range of complementary experimental and translational research projects focused on the major cardiovascular complications of diabetes, including retinopathy, cardiomyopathy, peripheral vascular disease, nephropathy and pre-eclampsia (in pregnancy). 
  • The Infection and Immunity stream is another specialised pathway within the MSc in Experimental Medicine programme and exposes students to exciting concepts and their application in the field of infection biology, antimicrobial resistance, inflammatory processes and the role of immunity in health and disease. There is a strong emphasis on current developments in this rapidly accelerating field of translational medicine. Students will learn how the immune system maintains health, identifies and responds to invading pathogens or allergens and prevents repeated infections through strong adaptive immune responses. Lectures will provide an in-depth understanding of the immune system, an overview of research models used, key areas of research in inflammatory and immune-mediated pathology, and how to use this basic knowledge to identify and test new therapies. There is a considerable emphasis on clinical trial methodology within this stream and students will be introduced to the concepts of clinical trials and approaches to designing a trial to test novel methods to diagnose/prevent or treat illness.

RESEARCH PROJECT

You’ll undertake a project at the Centre of Experimental Medicine, QUB, relating to the research stream that you have chosen.

For further information email  or send us a message on WhatsApp



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Research profile. Research on Infection and Immunity aims to enhance understanding of the mechanisms of host defence against infection, and translate this understanding into prevention and treatment. Read more

Research profile

Research on Infection and Immunity aims to enhance understanding of the mechanisms of host defence against infection, and translate this understanding into prevention and treatment.

The research programmes include a wide range of activities including studies of host/pathogen interactions (including work on viruses, bacteria, parasites and spongiform encephalopathy agents), the immune systems of animals and how they respond to pathogen challenge, genetic resistance to disease and epidemiology of disease. These activities are underpinned by major programmes in animals genomics and bioinformatics.

Training and support

Studentships are of 3 or 4 years duration and students will be expected to complete a novel piece of research which will advance our understanding of the field. To help them in this goal, students will be assigned a principal and assistant supervisor, both of whom will be active scientists at the Institute. Student progress is monitored in accordance with School Postgraduate (PG) regulations by a PhD thesis committee (which includes an independent external assessor and chair). There is also dedicated secretarial support to assist these committees and the students with regard to University and Institute matters.

All student matters are overseen by the Schools PG studies committee. The Roslin Institute also has a local PG committee and will provide advice and support to students when requested. An active staff:student liaison committee and a social committee, which is headed by our postgraduate liaison officer, provide additional support.

Students are expected to attend a number of generic training courses offered by the Transkills Programme of the University and to participate in regular seminars and laboratory progress meetings. All students will also be expected to present their data at national and international meetings throughout their period of study.

Facilities

In 2011 the Roslin Institute moved to a new state-of-the-art building on the University of Edinburgh's veterinary campus at Easter Bush. Our facilities include: rodent, bird and livestock animal units and associated lab areas; comprehensive bioinformatic and genomic capability; a range of bioimaging facilities; extensive molecular biology and cell biology labs; café and auditorium where we regularly host workshops and invited speakers.



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Overview. Respiratory illnesses affect all children. Almost every child in the UK attends their GP in the first 5 years of life with a respiratory infection. Read more

Overview

Respiratory illnesses affect all children. Almost every child in the UK attends their GP in the first 5 years of life with a respiratory infection. 1 in 10 children have some chronic respiratory condition of which asthma is the most common. Despite the commonness of respiratory disorders, the presence of good evidenced-based guidelines care and outcomes vary widely. Provision of care is even more varied for rarer conditions and where there have been recent important advances in technology. There is a pressing need to facilitate training in primary, secondary and tertiary care to ensure that children achieve the best possible health outcomes.

This course allows students to learn how to provide optimum care for children with acute and chronic respiratory diseases. Each of the four modules has been designed to complement clinical experience and accelerate learning and professional development. The modules tackle asthma and allergy, cystic fibrosis, infection and immunity and non-invasive ventilation and sleep. Taken in combination they cover the breadth of knowledge required to deliver secondary care services for children and they complement the Royal College of Paediatrics and Child Health Special Interest module in Paediatric Respiratory Medicine. Delivered by an experienced local faculty with an enthusiasm for teaching and national and international reputation for paediatric respiratory medicine this course offers a combination of self-directed, interactive and practical learning. 

Course Aims

The aim of the course is to help clinicians in primary and secondary care settings to develop their knowledge base, enhance their skills and motivate and empower them to act as effective leaders in the delivery of respiratory healthcare for children. 

Career Development

This course recognises that clinicians require a combination of knowledge, skills and experience to support the delivery of optimal healthcare for children. Whilst completion of all four modules will be particularly helpful to secondary care paediatricians with a stated special interest in paediatric respiratory medicine individual modules are likely to be of particular interest to those working in specific environments. For instance, doctors and nurses working in primary care are likely to find the module on asthma and allergy particularly helpful. Similarly, the module on non-invasive ventilation and sleep may be particularly valuable to clinicians working on high dependency units or those who support community teams who look after technology-dependent children.

Course Content

Each module is given a credit rating within the national Masters framework. These may be transferable from or to other institutions where the learning outcomes are comparable. Undertaking all four currently available modules will lead to the award of a postgraduate certificate in Medical Science. Individuals who wish to proceed to higher degrees may choose to undertake further credits as part of other Masters programmes.

  • Postgraduate Certificate in Medical Science: 60 credits 
  • Postgraduate Diploma in Medical Science: 120 credits
  • Masters in Medical Science: total 180 credits

(The Masters Degree must be completed within five years of registration, the Diploma within four years and the Certificate within three years. It will be possible to complete a Masters Degree in Medical Science in two years.)

It is not necessary to carry out a piece of original research to complete the award. The final 60 credits can be for a practice-based project, a teaching project such as robust evaluation of a programme you might be running, or it may be possible to accumulate credits from independent studies or a reflective portfolio. Individual programmes will be constructed for you at this stage through negotiation with the award leader.

Course Modules

Teaching & Assessment

This is a modular part-time programme, designed to meet the needs of full-time health professionals, able to take study leave in short blocks (2-days face-to-face teaching for each module) and augmented by background reading and independent study. The modules are offered on a regular basis throughout the year, usually repeated annually, and students can join the programme at any stage. It is possible to complete the PG Certificate within one year, though up to three years are allowed.

Most teaching is based on interactive small group methods, interspersed with practical tasks and supplemented with background reading and materials developed by the course faculty. A variety of assessment methods are used, including essays skills and completion of a portfolio.

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 postgraduate programme.

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



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

Key features

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

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

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

Course details

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

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

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

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

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The need to develop new strategies to combat diseases remains a major global challenge. This degree aims to enhance your employability and prepare you to tackle this challenge. Read more

The need to develop new strategies to combat diseases remains a major global challenge. This degree aims to enhance your employability and prepare you to tackle this challenge.

We’ll give you advanced training in the mechanisms underpinning a spectrum of infectious and non-infectious diseases, including viral, bacterial and parasitic infections, cancer, neurodegeneration, cardiovascular disease and chromosomal abnormalities. You’ll also explore current and emerging diagnostic and treatment strategies.

You’ll learn about the latest molecular, genetic and cellular approaches being used to understand, diagnose and treat human disease, including traditional methods such as polymerase chain reaction (PCR) and enzyme-linked immunosorbent assay (ELISA), and novel methods involving genome and proteome analysis.

You’ll also have the opportunity to investigate the role of the immune system in the response to infection and disease, covering topics such as innate and adaptive immunity, allergy and immune evasion.

If you choose to study at Leeds, you’ll join a faculty ranked 6th in the UK for its research impact in the recent Research Excellence Framework (REF 2014), and you’ll graduate with the solid base of scientific knowledge and specialist skills highly valued by employers.

Course content

On this course you’ll gain an overview of a range of modern techniques and methodologies that underpin contemporary biomolecular sciences. You’ll investigate five topic areas: molecular biology, structural biology, cell imaging and flow cytometry, high throughput techniques and transgenic organisms.

You’ll also apply your knowledge to an extended practical investigation in the form of a laboratory-based project, involving practical training in a range of modern molecular biology and protein engineering techniques such as gene cloning, PCR, mutagenesis, protein expression, protein purification and analysis.

To help you to develop and specialise, you’ll get substantial subject-specific training through an independent research project in an area of infection, immunity or human disease.

You’ll also take specialist taught modules covering topics such as infectious and non-infectious disease, advanced immunology, medical diagnostics and treatment of infectious diseases and cancer.

If you have previous experience of immunology, you could opt to investigate the structure, regulation and development of the pharmaceutical manufacturing sector, or explore aspects of human toxicology. These could include the actions of toxicants on the cardiovascular, immune and nervous systems, kidneys, liver and lungs, genetic toxicology and chemical carcinogenesis, and the effects of chemicals on fetal development.

In the final part of the course you'll work on an independent laboratory-based research project related to your course options. You’ll receive extensive training in experimental design, the practical use of advanced techniques and technologies, data analysis and interpretation, and will be assigned a research project supervisor who will support and guide you through your project.

Course structure

These are typical modules/components studied and may change from time to time. Read more in our Terms and conditions.

Compulsory modules

  • Advanced Immunology 10 credits
  • Infectious & Non-infectious Diseases 10 credits
  • Practical Bioinformatics 10 credits
  • Medical Diagnostics 10 credits
  • MSc Bioscience Research Project Proposal 5 credits
  • Treatment of Infectious Disease and Cancer 10 credits
  • Research Planning and Scientific Communication 10 credits
  • Advanced Biomolecular Technologies 20 credits
  • Protein Engineering Laboratory Project 15 credits
  • Bioscience MSc Research Project 80 credits

For more information on typical modules, read Infection, Immunity and Human Disease MSc in the course catalogue

Learning and teaching

You’ll have access to the very best learning resources and academic support during your studies. We’ve been awarded a Gold rating in the Teaching Excellence Framework (TEF, 2017), demonstrating our commitment to delivering consistently outstanding teaching, learning and outcomes for our students.

Your learning will be heavily influenced by the University’s world-class research as well as our strong links with highly qualified professionals from industry, non-governmental organisations and charities.

You’ll experience a wide range of teaching methods including formal lectures, interactive workshops, problem-solving, practical classes and demonstrations.

Through your research project and specialist modules, you’ll receive substantial subject-specific training. Our teaching and assessment methods are designed to develop you into a scientist who is able to think independently, solve problems, communicate effectively and demonstrate a high level of practical ability.

Assessment

We use a variety of assessment methods: multiple-choice testing, practical work, data handling and problem solving exercises, group work, discussion groups (face-to-face and online), computer-based simulation, essays, posters and oral presentations.

Career opportunities

The strong research element of the Infection, Immunity and Human Disease MSc, along with the specialist and generic skills you develop, mean you’ll graduate equipped for a wide range of careers.

Our graduates work in a diverse range of areas, ranging from bioscience-related research through to scientific publication, teacher training, health and safety and pharmaceutical market research.

Links with industry

We have a proactive Industrial Advisory Board who advise us on what they look for in graduates and on employability-related skills within our programmes.

We collaborate with a wide range of organisations in the public and commercial sectors. Many of these are represented on our Industrial Advisory Board. They include:

  • GlaxoSmithKline
  • Ernst and Young
  • The Food and Environment Research Agency
  • The Health Protection Agency
  • MedImmune
  • Thermofisher Scientific
  • Hays Life Sciences
  • European Bioinformatics Institute
  • Smaller University spin-out companies, such as Lumora

Industrial research placements

Some of our partners offer MSc research projects in their organisations, allowing students to develop their commercial awareness and build their network of contacts.

Professional and career development

We take personal and career development very seriously. We have a proactive Industrial Advisory Board who advises us on what they look for in graduates and on employability related skills within our courses.

Our dedicated Employability and Professional Development Officer ensures that you are aware of events and opportunities to increase your employability. In addition, our Masters Career Development Programme will support you to:

  • explore career options and career planning
  • understand the PhD application process and optimise PhD application
  • learn how to use LinkedIn and other social media for effective networking and career opportunities
  • practice interviews for both job and PhD applications.


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The MRes in Biomedical Research. Bacterial Pathogenesis and Infection is a 12 month postgraduate course providing exemplary academic and research training. Read more
The MRes in Biomedical Research: Bacterial Pathogenesis and Infection is a 12 month postgraduate course providing exemplary academic and research training. The Bacterial Pathogenesis and Infection stream is a specialised stream on a larger course (the MRes in Biomedical Research). This programme will provide research training in fundamental aspects of bacterial pathogenesis, host immunity and antibiotic resistance, with particular attention to the scientific, technical and professional acumen required to establish research independence. The emphasis will be on molecular approaches to understanding bacterial infection biology, as a function of bacterial pathogenic strategy and physiology, as well as resistance to host defences and antibiotic therapy, and is comprised of two 20-week research projects embedded within research-intensive groups and a series of lectures, seminars, tutorials and technical workshops.

Based in the MRC Centre for Molecular Bacteriology and Infection, the course provides an opportunity to learn directly from internationally-respected scientists through sustained interaction for the duration of the course. This programme will deliver training in: Molecular microbiology, including integration of molecular and cellular information to understand the genetic basis of virulence; modelling host and microbial aspects of infection to help characterise the host-pathogen interaction and immunity; functionality and physiological relevance of microbial virulence factors; mechanisms of antibiotic resistance and persistence; derivation of mechanistic approaches to problem-solving in molecular and cellular biomedical science.

Course Objectives
The emphasis is on molecular approaches to understanding infection as a function of bacterial pathogenic strategy and physiology. This research-oriented approach to training in biomedical science will comprise both theoretical and practical elements. The course will expose students to the latest developments in the field through two mini-research projects and a series of technical workshops. Students will gain experience in applying technologically advanced approaches to biomedical research questions.

Specifically the course will deliver research training in:

• Molecular bacteriology, integrating molecular and cellular information to understand the genetic basis of microbial virulence.
• Modelling host and microbial aspects of infection to help characterise the host-pathogen interaction and immunity.
• By experimentation, understanding the biochemical functions and physiological relevance of microbial virulence factors and antibiotic resistance.
• Derivation of mechanistic approaches to problem-solving in molecular and cellular biomedical science.

Individuals who successfully complete the course will have developed the ability to:

• Demonstrate practical dexterity in the commonly employed and more advanced practical techniques of molecular and cellular microbiology
• Exercise theoretical and practical knowledge and competence required for employment in a variety of biomedical environments
• Identify appropriate methodology during experimental planning
• Interpret and present scientific data
• Interrogate relevant scientific literature and develop research plans
• Recognise the importance of justifying expenditure (cost and time) during experimental planning
• Recognise potential methodological failings and strategise accordingly
• Perform novel laboratory-based research, and exercise critical scientific thought in the interpretation of findings
• Write and defend research reports, which appraise the results of laboratory based scientific study
• Communicate effectively through writing, oral presentations and IT to facilitate further study or employment in molecular, cellular and physiological science
• Exercise a range of transferable skills

This will be achieved by providing:

• A course of lectures, seminars, tutorials and technical workshops. The programme is underpinned by the breadth and depth of scientific expertise in the participating department.
• Hands-on experience of a wide repertoire of scientific methods
• Two research projects
• Training in core transferable skills

The MRC Centre for Molecular Bacteriology and Infection (Departments of Medicine and Life Science) is located at the South Kensington Campus of Imperial College London. http://www.imperial.ac.uk/mrc-centre-for-molecular-bacteriology-and-infection

Candidates are expected to hold a good first degree (upper second class or better) from a UK university or an equivalent qualification if obtained outside the UK.

Please visit the course website for more information about how to apply, and for more information about the various streams of specialism which run within the course.

Early application is strongly advised. Please note that while applications can be considered after receipt of one recent reference, two will be required as standard for confirmation of acceptance by College.

If you have any questions, please contact:

Kylie Glasgow
Manager, Centre for Molecular Bacteriology and Infection
Imperial College London
London, SW7 2AZ
E-mail

-----------------------------------------------
Home, EU and Overseas applicants hoping to start this course in October 2017 will be eligible to apply for the Faculty of Medicine Dean's Master’s Scholarships. This scheme offers a variety of awards, including full tuition payment and a generous stipend. For more information, please visit http://www.imperial.ac.uk/medicine/study/postgraduate/deans-masters-scholarships/. Applications for 2017 are not yet open (do check the website again early in the new year).

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Course description. Our MRes Infection Biology programme will equip you with the knowledge and skills required to join the global fight against infectious diseases which threaten humanity. Read more

Course description

Our MRes Infection Biology programme will equip you with the knowledge and skills required to join the global fight against infectious diseases which threaten humanity.

Infectious disease remains a major cause of human death but the efficacy of antimicrobial interventions continues to decline. The discovery of novel preventative and therapeutic interventions now critically dependent upon a detailed mechanistic understanding of disease processes, their impact upon human pathobiology and the feasibility of therapeutically targeting such mechanisms.

With a view to training a generation of infection biologists equipped with the skills to tackle this global challenge, the MRes in Infection Biology provides outstanding academic and research training in the molecular and cellular basis of host-microbe interactions in health and disease.

You will learn directly from internationally recognised scientists through joint research, thereby securing a sustained interaction with expert mentors for the duration of the course.

The course provides research training in fundamental aspects of infectious diseases, microbial pathogenesis, host interactions, antimicrobial immunity, and antimicrobial therapy. For the talented student this course provides an excellent training prior to registration for a PhD.

This course will equip you with:

  • a detailed theoretical and practical understanding of molecular microbiology and antimicrobial immunology;
  • a thorough understanding of methods for analysing the biological functions and physiological relevance of microbial virulence factors and host responses to pathogenic challenge; 
  • a working knowledge of mechanistic approaches to problem-solving in molecular and cellular biomedical science;
  • an understanding of a wide repertoire of cutting edge scientific methods including flow cytometry, single cell technologies, imaging and proteomics;
  • transferable skills in critical reasoning and reflection, collaborative team working, scientific communication, use of IT/health informatics, innovation in the application of knowledge to practice and logical/systematic approaches to solving problems and making decisions.

Aims

This course aims to:

  • equip you with a detailed theoretical and practical understanding of molecular microbiology and immunology, delivered in-context during laboratory-based research and self-directed research of the literature;
  • enable you to integrate molecular and cellular information to understand the genetic basis of microbial virulence, host responses to pathogen challenge, and complexity of infectious disease, diagnostics, and antimicrobial therapies;
  • give you an understanding of the principles of modelling of host and microbial aspects of infection to help characterise the host-pathogen interaction;
  • equip you with an understanding of methods for analysing the biological functions and physiological relevance of microbial virulence factors and host responses to pathogenic challenge;
  • provide you with a working knowledge of mechanistic approaches to problem-solving in molecular and cellular biomedical science;
  • ensure you have a working understanding of the application of a wide repertoire of advanced scientific methods at the cutting edge of scientific research, including flow cytometry, single cell technologies, imaging and proteomics;
  • give you transferable skills in critical reasoning and reflection, collaborative team working, communication, use of IT/health informatics, innovation in the application of knowledge to practice and logical/systematic approaches to solving problems and making decisions.


Special features

  • In regular technology workshops you will learn, from the skilled experimental officers and technicians who support these key technologies, how to harness modern research technologies including single cell methodologies, live cell imaging, CRISPR, flow cytometry, proteomics, and next generation sequencing technologies to address cutting edge questions in infectious diseases research.
  • You will learn from clinician scientists and global leaders in infectious diseases research by attending our fortnightly seminars in infection.
  • In our grant writing exercise you will learn how to budget for, and become competitive in, securing funding for scientific research programmes.
  • You will benefit from studying amongst a small, talented and motivated peer group, selected at interview for their competitive potential.


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Develop a broad understanding of organisms, including bacteria, viruses, plants and humans. Gain the specialist research skills needed to prepare for your career. Read more

Develop a broad understanding of organisms, including bacteria, viruses, plants and humans. Gain the specialist research skills needed to prepare for your career.

The course focuses on the outstanding research expertise in the department, with study topics including cell and developmental biology, medical and industrial biotechnology, infection and immunity, evolution and biodiversity. You’ll be able to select from a diverse range of topics and projects, allowing you to tailor your studies.

Your studies will help you develop the skills you need to move into a wide range of careers in the sciences or to take on further research. Our graduates have an excellent employment record with companies and academic institutions across the globe.

Graduates have moved into roles with employers including the Institute of Cancer Research and Oxford Biomedica in the UK, Chembiotek in India and Tsinghua University in China.

You’ll study with some of the world’s top academics, as well as having the opportunity to attend seminars by visiting experts. Teaching methods are varied, combining hands-on laboratory work with lectures, seminars, tutorials and presentations.

Visit the website http://www.bath.ac.uk/courses/postgraduate-2018/taught-postgraduate-master-s-courses/msc-biosciences/

Why study Biology and Biochemistry with us?

- 85% of our research judged to be internationally recognised, excellent or world-leading

- Our current research funding portfolio stands at £14 million, supporting internationally excellent research in the biosciences

Career opportunities

Since graduating, our students have gone on to employment or further research at institutions in the US, Europe, Australia, Asia and Africa.

Recent employers include:

Morvus-Technology Ltd

Janssen-Cilag

Royal United Hospital, Bath

Ministry of Defence

State Intellectual Property Office, Beijing

Wellcome Trust Centre for Human Genetics, Oxford University

AbCam

Salisbury Foundation Trust Hospital

BBSRC

Lonza

Find out more about the department here - http://www.bath.ac.uk/bio-sci/

Find out how to apply here - http://www.bath.ac.uk/science/graduate-school/taught-programmes/how-to-apply/



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