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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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The aim of the project is to decipher how genes which are associated with susceptibility to psoriatic disease influence inflammatory responses of joint and skin associated cells. Read more
The aim of the project is to decipher how genes which are associated with susceptibility to psoriatic disease influence inflammatory responses of joint and skin associated cells. Products from many of those genes could potentially interfere with intracellular signalling pathways (e.g. MAPK, NF-B). The project will focus on expression of such genes (e.g. A20) and their influence on signalling pathways, using cells grown from patients with or without psoriatic arthritis. Techniques include Western Blot, flow cytometric analysis, luciferase assays (NF-B), ELISA, transfection (e.g. A20 plasmid, shRNA), cell culture of primary human cells.

Deadline 5pm 5 September 2012

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This course provides comprehensive knowledge and practical training in the spread of microorganisms (predominantly bacterial and viral pathogens), disease causation and diagnosis and treatment of pathogens significant to public health. Read more
This course provides comprehensive knowledge and practical training in the spread of microorganisms (predominantly bacterial and viral pathogens), disease causation and diagnosis and treatment of pathogens significant to public health. The increasing incidence of microbial infections worldwide is being compounded by the rapid evolution of drug-resistant variants and opportunistic infections by other organisms. The course content reflects the increasing importance of genomics and molecular techniques in both diagnostics and the study of pathogenesis.

In response to a high level of student interest in viral infections, the School has decided to offer the opportunity for students who focus on viruses in their module and project choices to be awarded a Master's degree in Medical Microbiology (Virology). This choice will depend on the module selection of the individual student in Terms 2 and 3 and choice of project.

Graduates from this course move into global health careers related to medical microbiology in research or medical establishments and the pharmaceutical industry.

The Bo Drasar Prize is awarded annually for outstanding performance by a Medical Microbiology student. This prize is named after Professor Bohumil Drasar, the founder of the MSc Medical Microbiology course.

The Tsiquaye Prize is awarded annually for the best virology-based project report.

- Full programme specification (pdf) (http://www.lshtm.ac.uk/edu/qualityassurance/mm_progspec.pdf)
- Intercalating this course (http://www.lshtm.ac.uk/study/intercalate)

Visit the website http://www.lshtm.ac.uk/study/masters/msmm.html

Objectives

By the end of the course students should be able to:

- demonstrate advanced knowledge and understanding of the nature of viruses, bacteria, parasites and fungi and basic criteria used in the classification/taxonomy of these micro-organisms

- explain the modes of transmission and the growth cycles of pathogenic micro-organisms

- demonstrate knowledge and understanding of the mechanisms of microbial pathogenesis and the outcomes of infections

- distinguish between and critically assess the classical and modern approaches to the development of therapeutic agents and vaccines for the prevention of human microbial diseases

- demonstrate knowledge of the laboratory diagnosis of microbial diseases and practical skills

- carry out a range of advanced skills and laboratory techniques, including the purification of isolated microbial pathogens, study of microbial growth cycles and analyses of their proteins and nucleic acids for downstream applications

- demonstrate research skills

Structure

Term 1:
There is a one-week orientation period that includes an introduction to studying at the School, sessions on key computing and study skills and course-specific sessions, followed by two compulsory modules:

- Bacteriology & Virology
- Analysis & Design of Research Studies

Recommended module: Molecular Biology

Sessions on basic computing, molecular biology and statistics are run throughout the term for all students.

Terms 2 and 3:
Students take a total of five modules, one from each timetable slot (Slot 1, Slot 2 etc.). The list below shows recommended modules. There are other modules that can be taken only after consultation with the Course Director.

- Slot 1:
Clinical Virology
Molecular Biology & Recombinant DNA Techniques

- Slot 2:
Clinical Bacteriology 1
Molecular Virology

- Slot 3:
Advanced Training in Molecular Biology
Basic Parasitology

- Slot 4:
Clincal Bacteriology 2
Molecular Biology Research Progress & Applications

- Slot 5:
Antimicrobial Chemotherapy
Molecular Cell Biology & Infection
Mycology
Pathogen Genomics

Further details for the course modules - http://www.lshtm.ac.uk/study/currentstudents/studentinformation/msc_module_handbook/section2_coursedescriptions/tmmi.html

Project Report

During the summer months (July - August), students complete a laboratory-based original research project on an aspect of a relevant organism, for submission by early September. Projects may take place within the School or with collaborating scientists in other colleges or institutes in the UK or overseas.

The majority of students who undertake projects abroad receive financial support for flights from the School's trust funds set up for this purpose

Course Accreditation

The Royal College of Pathologists accepts the course as part of the professional experience of both medical and non-medical candidates applying for membership. The course places particular emphasis on practical aspects of the subjects most relevant to current clinical laboratory practice and research.

Find out how to apply here - http://www.lshtm.ac.uk/study/masters/msmm.html#sixth

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Research profile. This programme is organised by Edinburgh Infectious Diseases (EID), which is hosted by the College of Medicine and Veterinary Medicine and the College of Science and Engineering. Read more

Research profile

This programme is organised by Edinburgh Infectious Diseases (EID), which is hosted by the College of Medicine and Veterinary Medicine and the College of Science and Engineering.

It provides an introduction to research methodology for biologists, medics and veterinarians. The training also provides an entry into PhD studies. Previous students have undertaken projects in the following areas:

antibiotic resistance and hospital-acquired infections

arthropod vector biology and vectorborne diseases

epidemiology and mathematical modelling of animal and human infections

functional genomics and bioinformatics

molecular diagnosis and point-of-care detection of infectious diseases

the immunology of bacterial and parasitic infections (including major tropical diseases such as malaria, lymphatic filariasis and river blindness)

the immunology of ruminant infections (for example Johne's Disease)

the pathogenesis of prion and viral diseases (animal and human, including herpes and HIV)

The learning process includes a one-year research project and during the study period students will be required to attend research seminars and lectures, including those on the related areas of immunology, microbiology and pathology. Training will also be given in generic skills including: statistics; project management and planning; oral and written presentational skills.

Depending on the project selected, students will learn how to apply modern molecular and biochemical techniques to the investigation of pathogenesis of infections, or the use of statistics and mathematical models to study the epidemiology of diseases.

Programme Structure

The learning process includes a one-year research project and during the study period students will be required to attend research seminars and lectures, including those on the related areas of immunology, microbiology and pathology. Training will also be given in generic skills including: statistics; project management and planning; oral and written presentational skills.



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The MSc course in Microbiology and Immunology was set up to enhance the training of scientists studying the interactions between microbes and the immune system, and for those students wishing to enter a research career and gain high level skills in Microbiology and Immunology. Read more
The MSc course in Microbiology and Immunology was set up to enhance the training of scientists studying the interactions between microbes and the immune system, and for those students wishing to enter a research career and gain high level skills in Microbiology and Immunology.

The course aims to provide training in theoretical and practical aspects of microbiology and immunology, with particular emphasis on molecular biological techniques and the interactions at the interface between microbes and the immune system. Students will gain basic and advanced knowledge of important viral, bacterial and parasitic infections. Alongside this, students will acquire an understanding and knowledge of the immune system and how it detects and responds to pathogens.

Students who have completed the course will acquire relevant transferable skills such as data management, interpretation and presentation, time management and organisation, and effective verbal and written communication skills. In addition, the students' ability for analytical and creative thinking will also be improved whilst undertaking the course.

The MSc will consist of seven taught modules and a laboratory-based project. Successful completion of the course will necessitate accumulation of 180 credits, 120 of which will derive from the taught modules and 60 from the research project. All of the modules are compulsory. There is an additional non-credit bearing module to provide the students with factfinding networking opportunities with each other and the staff alongside navigation of teaching facilities.

Autumn Semester:

Microbiology and Immunology General Sessions
Introduction to Medical Microbiology
Research Methods in Immunology and Microbiology
Viral Pathogenesis and Infections

Spring Semester:

Bacterial Pathogenesis and Infection
Immunity and the Immune System
Therapeutic Immunology
Innate Immune Recognition
Research Project

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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.

Degree information

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

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.

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 world-wide 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.

Top career destinations for this degree:
-Research Assistant, UCL (University College London)
-Research Officer, A*STAR Agency for Science, Technology and Research
-Biology, The University of Cambridge
-Research Assistant, Stanford University
-PhD Immunology, Cardiff University (Prifysgol Caerdydd)

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.

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.

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This MSc programme is designed to provide students with an in-depth working knowledge of the principles and practice related to Oral Sciences. Read more
This MSc programme is designed to provide students with an in-depth working knowledge of the principles and practice related to Oral Sciences. The major strength of this programme is that the programme is aligned to and delivered by internationally renowned members from the Oral Sciences Research Group located within Glasgow Dental School. Students will experience and participate in cutting edge research within the theme while learning techniques widely relevant to biomedical sciences. This programme will be of particular interest to those interested in pursuing or furthering careers in oral and dental related occupations, as well as laboratory scientists or academics. This programme also enables graduates to gain experience in research before applying to a doctoral programme.

Why this programme

◾If you are passionate about oral sciences and keen to learn through an in-depth, evidence based, critical approach, and enthusiastic about specialising in a particular area – oral disease pathogenesis or infection control and decontamination, then this programme is for you.
◾Our staff are internationally experienced researchers and academics with both clinician and science backgrounds, experts in biofilm infections, oral inflammation and infection control.
◾There is a long tradition of excellence in Oral Sciences at the University of Glasgow, with pioneering research by MacFarlane, Samaranayake and Bagg, and other current Glasgow academics continue to make important contributions in the field of Oral Sciences.
◾A range of transferable skills are integrated and embedded into this programme, which will improve possibilities in the job market.
◾You will undertake research alongside pre- and post-doctoral researchers and learn how to work as a team and improve technical skills and communication.
◾Students can learn first-hand within a dedicated oral sciences research laboratory infrastructure linked directly to clinical research facilities.
◾There is a direct link with our doctoral research programme.

Programme structure

◾Translational research approaches
◾Evidence based medicine and statistics
◾Laboratory techniques in oral sciences
◾Principles of oral sciences
◾Research methods in oral sciences
◾Research dissertation in oral sciences

Core and optional courses

Core

Statistics 1

Evidence based medicine

Translational medical research approaches

Medical research and ethics

Principles and critical interpretation of laboratory methodologies

Research methods

Research Dissertation

Optional

Microbes in medicine

Translational immunology

Pathogenesis in oral disease

Decontamination and infection control

Career prospects

Graduates are well placed for a variety of employment opportunities in the oral and dental industries, as well as a wide array of the biomedical science sectors. This course provides a sound basis from which to apply for employment in laboratory positions in industry or in academia, or to continue professional training in dentistry and oral hygiene, or for further doctoral-level research training for academic or teaching careers.

A high proportion of our graduates go on to complete PhDs in Glasgow or other high quality institutions across the world. Careers of some of our recent graduates include:
◾Clinical research scientist (NHS)
◾Senior clinical scientist (GlaxoSmithKline)
◾Laboratory scientist (BluTest Laboratories)
◾Assistant professor (Khyber Medical University)
◾Associate professor (University Sains Malaysia)
◾Postdoctoral research fellows (University of Glasgow)
◾Scientist (Scottish Environmental Protection Agency)

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-Gain the specialist knowledge, understanding and skills you need to practice rheumatology. -Cover topics including epidemiology, aetiology and pathogenesis, and the diagnosis and management of musculoskeletal disease. Read more
-Gain the specialist knowledge, understanding and skills you need to practice rheumatology.
-Cover topics including epidemiology, aetiology and pathogenesis, and the diagnosis and management of musculoskeletal disease.
-Study at a university ranked 9th in the UK and among the top 50 in the world for medicine (QS World University Rankings 2017).
-Become able to contribute to the development of rheumatology services at both a regional and national level.

Course description

Our MSc Clinical Rheumatology and Musculoskeletal Medicine course is designed for doctors who are pursuing a career in rheumatology or a related subject.

You will cover topics including:
-Aetiology and pathogenesis
-Epidemiology
-Diagnosis and management of the different forms of musculoskeletal disease
-The structure and function of joints and supporting tissues in health and when diseased

You will also gain an understanding of the principles of clinical research methods, including:
-Clinical trials
-Developing measurement tools
-Designing and conducting observational studies
-Reading scientific papers critically

In addition, you will build the knowledge and skills you need to carry out and write up a piece of supervised research.

Aims

This course aims to:
-Develop your knowledge, understanding and skills relevant to the clinical practice of rheumatology
-Enable you to contribute to rheumatology service development regionally and nationally
-Provide experience in undertaking and analysing research
-Emphasise the importance of research as a basis for evidence-based practice
-Help you to gain skills required for scientific and clinical presentations

[[Teaching and learning[[
We use a range of teaching and learning methods, including lectures, seminars and demonstrations.

Facilities

Teaching will take place at various locations around Manchester, including:
-University Hospital of South Manchester
-Manchester Royal Infirmary
-Salford Royal Foundation Trust
-The Stopford Building, The University of Manchester

The University also offers extensive library and online services to help you get the most out of your studies.

Career opportunities

Some of our graduates have continued their studies and gone on to complete a PhD at The University of Manchester.

There is a wide variety of possible areas of research from the broad spectrum of musculoskeletal disease. The majority of clinical trainees use their knowledge to augment their clinical training and, as the curriculum aligns with the rheumatology core curriculum, this MSc provides the tools required to pass the Specialty Certificate Examination in Rheumatology.

The MSc qualification can also be a useful tool for international students to carry back to their home country.

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This course combines theoretical and practical training in biology and control of disease vectors and the human pathogens they transmit. Read more
This course combines theoretical and practical training in biology and control of disease vectors and the human pathogens they transmit. Students will gain specialised skills in the molecular biology of infectious diseases, and will cover all aspects of major vector-borne diseases. The course also offers a thorough grounding in the systematics of medically important arthropods, processes regulating vector populations, and the biology of vector–parasite and vector–vertebrate interactions.

Graduates enter operational control programmes, applied basic research and academic fields. Students benefit from close interaction with staff who have extensive international expertise.

The James Busvine Memorial Medal and Prize, donated by Professor James Busvine in 1987, is awarded each year for outstanding performance.

- Full programme specification (pdf) (http://www.lshtm.ac.uk/edu/qualityassurance/medic_progspec.pdf)
- Intercalating this course (http://www.lshtm.ac.uk/study/intercalate)

Visit the website http://www.lshtm.ac.uk/study/masters/msbcdv.html

Objectives

By the end of this course students should be able to:

- demonstrate advanced knowledge and understanding of the biology of vectors and intermediate hosts of human pathogens together with methods for their control

- describe the biology, pathogenesis and diagnosis of parasitic infections in humans and relate these to human health and disease control strategies

- demonstrate a range of specialised technical and analytical skills relevant to vectors and vector-borne diseases

- design and carry out a research project on biology or control of disease vectors, analyse and interpret the results and prepare a report including a critical literature review

- design, undertake and evaluate vector control interventions, and show written and verbal competence in communicating scientific information

Structure

Term 1:
There is a one-week orientation period that includes an introduction to studying at the School, sessions on key computing and study skills and an introduction to major groups of pathogens, followed by three compulsory core modules:

- Parasitology & Entomology
- Analysis & Design of Research Studies
- Critical Skills for Tropical Medicine

Sessions on basic computing, molecular biology and statistics are run throughout the term for all students.

Terms 2 and 3:
Students take a total of five modules, one from each timetable slot (Slot 1, Slot 2 etc.). Some modules can be taken only after consultation with the Course Director.

*Recommended modules

- Slot 1:
Epidemiology & Control of Malaria*
Designing Disease Control Programmes in Developing Countries
Molecular Biology & Recombinant Techniques

- Slot 2:
Advanced Diagnostic Parasitology*
Design & Analysis of Epidemiological Studies
Statistical Methods in Epidemiology

- Slot 3:
Vector Sampling, Identification & Incrimination (compulsory)

- Slot 4:
Vector Biology & Vector Parasite Interactions*
Epidemiology & Control of Communicable Diseases
Molecular Biology Research Progress & Applications
Population Dynamics & Projections

- Slot 5:
Integrated Vector Management (compulsory)

Further details for the course modules - http://www.lshtm.ac.uk/study/currentstudents/studentinformation/msc_module_handbook/section2_coursedescriptions/tbcd.html

Residential Field Trip

There is a compulsory one week field course, after the Term 3 examinations, on vector and parasite sampling and identification methods. The cost of £630 is included in the field trip fee.

Project Report

During the summer months (July - August), students complete a field or laboratory research project on an appropriate entomological topic, for submission by early September.

Titles of some of the recent summer projects completed by students on this MSc

Due to our collaborative networking, students are given the opportunity to conduct research projects overseas. This unique experience provides students with skills that are highly desirable to potential employers. The majority of students who undertake projects abroad receive financial support for flights from the School's trust funds set up for this purpose.

Find out how to apply here - http://www.lshtm.ac.uk/study/masters/msbcdv.html#sixth

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This course provides core training in the theoretical and practical aspects of medical parasitology, covering the protozoan and metazoan parasites of humans and the vectors which transmit them. Read more
This course provides core training in the theoretical and practical aspects of medical parasitology, covering the protozoan and metazoan parasites of humans and the vectors which transmit them. Students will gain specialised skills to enable them to pursue a career in research, control or teaching related to medical parasitology.

Graduates enter a range of global health fields ranging from diagnostics through to applied basic research and operational control to higher degree studies and academic/teaching-related positions.

The Patrick Buxton Memorial Medal and Prize is awarded to the best student of the year. Founded by relatives of Patrick Alfred Buxton, Professor in Entomology, who died in 1955.

- Full programme specification (pdf) (http://www.lshtm.ac.uk/edu/qualityassurance/mp_progspec.pdf)
- Intercalating this course (http://www.lshtm.ac.uk/study/intercalate)

Visit the website http://www.lshtm.ac.uk/study/masters/msmp.html

Additional Requirements

An additional preferred requirement for the MSc Parasitology is an interest in parasites of public health importance and disease transmission. Any student who does not meet the minimum entry requirement above but who has relevant professional experience may still be eligible for admission. Qualifications and experience will be assessed from the application.

Objectives

By the end of this course students should be able to demonstrate:

- detailed knowledge and understanding of the biology, life cycles, pathogenesis, and diagnosis of parasitic infections in humans and their relevance for human health and control

- detailed knowledge and understanding of the biology and strategies for control of the vectors and intermediate hosts of human parasites

- carry out practical laboratory identification of parasite stages both free and in tissues and diagnose infections

- specialised skills in: advanced diagnostic, molecular, immunological, genetic, chemotherapeutic, ecological and/or control aspects of the subject

- the ability to design a laboratory or field-based research project, and apply relevant research skills

- prepare a written report including a critical literature review of relevant scientific publications, and show competence in communicating scientific findings

Structure

Term 1:
There is a two-week orientation period that includes an introduction to studying at the School, sessions on key computing and study skills and an introduction to major groups of pathogens, followed by three compulsory core modules:

- Parasitology & Entomology
- Analysis & Design of Research Studies
- Critical Skills for Tropical Medicine

Recommended module: Molecular Biology

Sessions on basic computing, molecular biology and statistics are run throughout the term for all students.

Terms 2 and 3:
Students take a total of five modules, one from each timetable slot (Slot 1, Slot 2 etc.). Some modules can be taken only after consultation with the Course Director.

*Recommended modules

- Slot 1:
Epidemiology & Control of Malaria*
Molecular Biology & Recombinant DNA Techniques*
Advanced Immunology 1
Designing Disease Control Programmes in Developing Countries

- Slot 2:
Advanced Diagnostic Parasitology*
Advanced Immunology 2
Design & Analysis of Epidemiological Studies
Statistical Methods in Epidemiology

- Slot 3:
Vector Sampling, Identification & Incrimination*
Advanced Training in Molecular Biology
Spatial Epidemiology in Public Health
Tropical Environmental Health

- Slot 4:
Immunology of Parasitic Infection: Principles*
Molecular Biology Research Progress & Applications*
Vector Biology & Vector Parasite Interactions*
Epidemiology & Control of Communicable Diseases
Genetic Epidemiology

- Slot 5 :
Antimicrobial Chemotherapy*
Integrated Vector Management*
Molecular Cell Biology & Infection*
AIDS

Further details for the course modules - http://www.lshtm.ac.uk/study/currentstudents/studentinformation/msc_module_handbook/section2_coursedescriptions/tmpa.html

Residential Field Trip

There is a compulsory one week field course, after the Term 3 examinations, on vector and parasite sampling and identification methods.The cost of £630 is included in the field trip fee.

Project Report

During the summer months (July - August), students complete a research project, for submission by early September. This may be based on a critical review of an approved topic, analysis of a collection of results or a laboratory study.Students undertaking projects overseas will require additional funding of up to £1,500 to cover costs involved.

The majority of students who undertake projects abroad receive financial support for flights from the School's trust funds set up for this purpose.

Find out how to apply here - http://www.lshtm.ac.uk/study/masters/msmp.html#sixth

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This course develops the careers of doctors whose interest is the practice of medicine in tropical and low- and middle-income countries. Read more
This course develops the careers of doctors whose interest is the practice of medicine in tropical and low- and middle-income countries. The course offers a wide choice of modules and provides training in clinical tropical medicine at the Hospital for Tropical Diseases.

The Diploma in Tropical Medicine & Hygiene (DTM&H):
All students going on the MSc will take the Diploma in Tropical Medicine & Hygiene. Students with a prior DTM&H, or holding 60 Masters level credits from the East African Diploma in Tropical Medicine & Hygiene may apply for exemption from Term 1 via accreditation of prior learning.

Careers

Graduates from this course have taken a wide variety of career paths including further research in epidemiology, parasite immunology; field research programmes or international organisations concerned with health care delivery in conflict settings or humanitarian crises; or returned to academic or medical positions in low- and middle-income countries.

Awards

The Frederick Murgatroyd Award is awarded each year for the best student of the year. Donated by Mrs Murgatroyd in memory of her husband, who held the Wellcome Chair of Clinical Tropical Medicine in 1950 and 1951.

- Full programme specification (pdf) (http://www.lshtm.ac.uk/edu/qualityassurance/tmih_progspec.pdf)

Visit the website http://www.lshtm.ac.uk/study/masters/mstmih.html

Objectives

By the end of this course students should be able to:

- understand and describe the causation, pathogenesis, clinical features, diagnosis, management, and control of the major parasitic, bacterial, and viral diseases of developing countries

- demonstrate knowledge and skills in diagnostic parasitology and other simple laboratory methods

- understand and apply basic epidemiological principles, including selecting appropriate study designs

- apply and interpret basic statistical tests for the analysis of quantitative data

- critically evaluate published literature in order to make appropriate clinical decisions

- communicate relevant medical knowledge to patients, health care professionals, colleagues and other groups

- understand the basic sciences underlying clinical and public health practice

Structure

Term 1:
All students follow the course for the DTM&H. Term 1 consists entirely of the DTM&H lectures, seminars, laboratory practical and clinical sessions, and is examined through the DTM&H examination and resulting in the award of the Diploma and 60 Master's level credits at the end of Term 1.

Terms 2 and 3:
Students take a total of five study modules, one from each timetable slot (Slot 1, Slot 2 etc.). Recognising that students have diverse backgrounds and experience, the course director considers requests to take any module within the School's portfolio, provided that this is appropriate for the student.

*Recommended modules

- Slot 1:
Clinical Infectious Diseases 1: Bacterial & Viral Diseases & Community Health in Developing Countries*
Clinical Virology*
Epidemiology & Control of Malaria*
Advanced Immunology 1
Childhood Eye Disease and Ocular Infection
Designing Disease Control Programmes in Developing Countries
Drugs, Alcohol and Tobacco
Economic Evaluation
Generalised Liner Models
Health Care Evaluation
Health Promotion Approaches and Methods
Maternal & Child Nutrition
Molecular Biology & Recombinant DNA Techniques
Research Design & Analysis
Sociological Approaches to Health
Study Design: Writing a Proposal

- Slot 2:
Clinical Infectious Diseases 2: Parasitic Diseases & Clinical Medicine*
Conflict and Health*
Design & Analysis of Epidemiological Studies*
Advanced Diagnostic Parasitology
Advanced Immunology 2
Clinical Bacteriology 1
Family Planning Programmes
Health Systems; History & Health
Molecular Virology; Non Communicable Eye Disease
Population, Poverty and Environment
Qualitative Methodologies
Statistical Methods in Epidemiology

- Slot 3:
Clinical Infectious Diseases 3: Bacterial & Viral Diseases & Community Health in Developing Countries*
Control of Sexually Transmitted Infections*
Advanced Training in Molecular Biology
Applied Communicable Disease Control
Clinical Immunology
Current Issues in Safe Motherhood & Perinatal Health
Epidemiology of Non-Communicable Diseases
Implementing Eye Care: Skills and Resources
Medical Anthropology and Public Health
Modelling & the Dynamics of Infectious Diseases
Nutrition in Emergencies
Organisational Management
Social Epidemiology
Spatial Epidemiology in Public Health
Tropical Environmental Health
Vector Sampling, Identification & Incrimination

- Slot 4:
Clinical Infectious Diseases 4: Parasitic Diseases & Clinical Medicine*
Epidemiology & Control of Communicable Diseases*
Ethics, Public Health & Human Rights*
Global Disability and Health*
Immunology of Parasitic Infection: Principles*
Analytical Models for Decision Making
Clinical Bacteriology 2
Design & Evaluation of Mental Health Programmes
Environmental Epidemiology
Evaluation of Public Health Interventions
Genetic Epidemiology
Globalisation & Health
Molecular Biology Research Progress & Applications
Nutrition Related Chronic Diseases
Population Dynamics & Projections
Reviewing the Literature
Sexual Health
Survival Analysis and Bayesian Statistics
Vector Biology & Vector Parasite Interactions

- Slot 5:
AIDS*
Antimicrobial Chemotherapy*
Mycology*
Advanced Statistical Methods in Epidemiology
Analysing Survey & Population Data
Applying Public Health Principles in Developing Countries
Environmental Health Policy
Integrated Vector Management
Integrating Module: Health Promotion
Molecular Cell Biology & Infection
Nutrition Programme Planning
Pathogen Genomics
Principles and Practice of Public Health

Further details for the course modules - http://www.lshtm.ac.uk/study/currentstudents/studentinformation/msc_module_handbook/section2_coursedescriptions/ttmi.html

Project Report:
During the summer months (July - August), students complete a research project in a subject of their choice, for submission by early September. Projects may involve writing up and analysing work carried out before coming to the School, a literature review, or a research study proposal. Some students gather data overseas or in the UK for analysis within the project. Such projects require early planning.

Students undertaking projects overseas will require additional funding of up to £1,500 to cover costs involved. The majority of students who undertake projects abroad receive financial support for flights from the School's trust funds set up for this purpose.

Find out how to apply here - http://www.lshtm.ac.uk/study/masters/mstmih.html#sixth

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This one-year, full-time MSc by Research programme aims to introduce students to modern up-to-date molecular and cellular biological research in the field of reproductive sciences, reproductive health and reproductive medicine in a stimulating, challenging and vibrant research atmosphere, at the interface between basic science and clinical patient care. Read more

Research profile

This one-year, full-time MSc by Research programme aims to introduce students to modern up-to-date molecular and cellular biological research in the field of reproductive sciences, reproductive health and reproductive medicine in a stimulating, challenging and vibrant research atmosphere, at the interface between basic science and clinical patient care.

The programme is intended for high-calibre students with biological science, medical or veterinary backgrounds.

It is advised that you contact the Programme Director, Dr Simon Riley, prior to making your application to ensure this programme meets your academic aims. Email:

The main components of the programme are two 20-week research projects, performed on a very wide range of research fields within the reproductive sciences.

Topics that can be offered include using a wide range of models and in human, studying a number of important problems associated with human reproductive health and disease in testis, ovary, the uterus during the menstrual cycle and throughout pregnancy and labour, in the fetus and neonate, and in fetal programming resulting in increased risk of chronic disease in adulthood.

The MRC Centre for Reproductive Health has arranged its research under four themes:

Reproductive Resilience, Proliferation, Differentiation, Repair
Reproductive system cancers: aetiology, pathogenesis and therapy
Optimising Lifelong Health Through Pregnancy and Perinatal Interventions
Immune-endocrine interactions in reproductive health

These theme titles illustrate some of the remarkable properties that make reproductive systems such relevant and powerful models for translational studies across a wide spectrum of human diseases and pathologies in other systems.

The MRC Centre for Reproductive Health (CRH) has close links with other internationally recognised research centres in the Queen’s Medical Research Institute QMRI and elsewhere in Edinburgh, with the Edinburgh Royal Infirmary, the Veterinary School, the University of Edinburgh science campus and the Royal Zoological Society of Scotland.

Many student projects are organised with and between these centres, reflecting the interdisciplinary research environment, where students and trainees are regarded as the ‘lifeblood’ for the future.

Programme structure

The programme provides a core grounding in basic science and interlinked medical aspects of reproductive sciences. It is delivered by undertaking a two-week basic core laboratory skills training course, followed by gaining practical experience by performing two 20 week laboratory-based research projects. Examples of research projects completed in 2016-2017 can be found here: http://www.ed.ac.uk/centre-reproductive-health/students/msc-research-reproductive-sciences

These research projects provide you with hands-on laboratory experience and training in a wide range of up-to-date techniques in molecular and cellular biology. Students also gain a wide range of generic professional and scientific skills such as developing effective communication skills, and scientific writing through project reports and a grant application.

Alongside the project work there is a series of lecture modules and seminars delivered by internationally-recognised experts in the field, together with both staff and student-led small group tutorials.

Career opportunities

This programme is the ideal route for those wishing to embark on a PhD, or in a technical laboratory role, in the field of Reproductive Health, spanning the biosciences, clinical and veterinary fields.

The broad range of skills gained is also readily transferable into careers at the clinical-laboratory interface and in the broader biosciences industry opportunities.

This programme does not amount to specific training to become a clinical embryologist.

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This course offers both taught components and extensive research experience for students with backgrounds in biological, chemical and physical sciences. Read more
This course offers both taught components and extensive research experience for students with backgrounds in biological, chemical and physical sciences. It is particularly suitable for those who wish to gain both theoretical and practical research experience in the techniques of structural biology or biocomputing.

Our research areas include:

Molecular chaperones, amyloid fibrils, pore-forming toxins
M. tuberculosis, cytoskeletal proteins
Signal transduction, bacterial pathogenesis and DNA replication
Electron microscopy, cytoskeletal dynamics and function
Electron cryo-microscopy; electron tomography and image processing; development of methods for recognition and separation of heterogeneous molecular complexes; bacteriophage assembly; structural analysis of the transcription factor p53
Hsp90, the kinetochore
DNA repair
Protein folding and misfolding, in particular at the point of synthesis on intact ribosomes
Viral protein-nucleic acid interactions.

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This internationally recognised course will prepare you for a fulfilling career as a biomedical scientist in the rapidly developing bioscience and healthcare sectors. Read more
This internationally recognised course will prepare you for a fulfilling career as a biomedical scientist in the rapidly developing bioscience and healthcare sectors.

This course is designed to enable you pursue a career as a professional biomedical scientist in a variety of research, development and leadership roles.

You'll be supported by an internationally recognised and highly active biomedicine science group with varied research interests and links with healthcare industries, research institutes and the NHS.

See the website http://www.napier.ac.uk/en/Courses/MSc-Biomedical-Science-Postgraduate-FullTime

What you'll learn

This course provides detailed knowledge of key concepts in immunology, toxicology, pharmacology and disease biology and how these disciplines are applied in biomedical science.

You’ll gain critical understanding of specialist research areas and unique insights into the challenges currently facing biomedical science. You’ll also acquire an in-depth appreciation of research and development practices in the healthcare industries through guest lectures and site visits to specialised laboratories. These experiences will allow you to explore and critique issues of relevance to professional working practice, enhancing your skills in evidence based decision making.

There is an emphasis on developing your practical laboratory skills with various opportunities for hands-on experience in a range of current techniques and practices. In your final trimester you’ll undertake an independent project within a vibrant biomedical research team, allowing you to apply and further develop your technical, research and professional skills. There may be the opportunity to conduct your research project externally in a relevant organisation or industry.

You’ll also develop key skills including communication, problem solving, team work, project management, and leadership. You’ll learn through interactive lectures, workshops, tutorials and laboratory sessions, and by engaging with guided independent study. A variety of assessment tools are used to enhance and evaluate your learning.

This is a full-time course over one year and is split up into three trimesters. You can choose to start in either January or September There may also be some opportunities to study abroad.

This programme is also available as a Masters by Research: http://www.napier.ac.uk/research-and-innovation/research-degrees/courses

Modules

• Advanced immunology
• Biology of disease and therapeutics
• Molecular pharmacology and toxicology
• Research skills
• Molecular pathogenesis of microbial Infection
• Drug design and chemotherapy
• Research project

Study modules mentioned above are indicative only. Some changes may occur between now and the time that you study.

Careers

You’ll be prepared for employment in the rapidly developing bioscience and healthcare sectors. This may be in hospitals, NHS, local government or health and safety divisions in various roles including research, R&D support management and consultancy.

Opportunities also exist for qualified biomedical scientists in a range of industrial settings from smaller medical biotechnology enterprises to global pharmaceutical companies.

If you currently work in the biomedical sector, this programme will enhance your prospects for career progression. Graduates will also be qualified to continue their studies at PhD level and follow an academic career.

How to apply

http://www.napier.ac.uk/study-with-us/postgraduate/how-to-apply

SAAS Funding

Nothing should get in the way of furthering your education. Student Awards Agency Scotland (SAAS) awards funding for postgraduate courses, and could provide the help you need to continue your studies. Find out more: http://www.napier.ac.uk/study-with-us/postgraduate/fees-and-funding/saas-funded-courses

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The MRes in Biomedical Research offers advanced research training in a broad range of laboratory based medical science. The emphasis of the course is how to do successful research and the research area is decided by the student. Read more
The MRes in Biomedical Research offers advanced research training in a broad range of laboratory based medical science. The emphasis of the course is how to do successful research and the research area is decided by the student. Participating departments include Biomolecular Medicine, Molecular Medicine, Cancer Medicine, Reproductive and Developmental Biology, Anaesthetics, Pain Medicine and Intensive Care, Biosurgery and Surgical Technology, Leukocyte Biology and Cardiovascular Sciences.

The research interests of the participating departments cover many aspects of molecular, cellular and physiological science including Bacterial virulence, Biomarkers of disease, Bioinformatics, Carcinogenesis, Cancer Biology, Cell Biology, Cell Signalling, Chemokines and their receptors, DNA damage and Repair, Electrophysiology, Immunosuppression, Leukocyte biology, Live cell imaging, Metabolomics/Metabonomics, Microbial Pathogenesis, Molecular Genetics, Molecular Motors, Molecular Pharmacology, Molecular Toxicology, Muscle Physiology, and Vascular Development, Neurological receptors, Nuclear receptors, Sepsis, Single molecule microscopy, Stem Cell Biology.

Students complete two research projects of their own choosing and through a core programme learn how to collect, analyse and interpret scientific research findings. They learn how to prepare data for publication, how to present and defend research data at scientific meetings and how to put together a grant application. The core programme also introduces students to advanced research techniques through a series of workshops and offers students a wide range of transferable skills courses. In addition to the core programme, the course comprises of other streams that offer further opportunities in specific areas. The course is an excellent grounding for students wishing to pursue a career in research and about 90% of past graduates have progressed to the PhD degree.

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

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