Our part-time blended learning MSc Occupational Medicine course provides an overview of the whole spectrum of medicine and hygiene within the workplace.
The course is aimed at GPs who want to gain an academic qualification in occupational medicine and doctors already working in the field - especially in specialist training posts - who want to prepare for professional exams with the Faculty of Occupational Medicine (FOM).
This MSc is also suitable for doctors in other disciplines who have an interest in occupational medicine.
You will benefit from access to a range of specialist knowledge and resources within occupational health and examine the evidence on which occupational health practice is based.
The course takes place in a research-enriched environment and, for those progressing to the third year of the MSc, you will have the opportunity to undertake research-based activities relevant to occupational health, including formulating a research question, designing and executing an appropriate study and drawing valid conclusions through writing a dissertation.
Our course follows the syllabus requirements of the FOM (London and Ireland).
This course aims to provide you with the information required by medical practitioners working in the field of occupational medicine, and to allow you to pursue an academic qualification in this subject.
We also aim to provide you with the benefit of blended learning methodology, which allows you to apply the knowledge gained during your day-to-day work.
Compliant course content
This course adheres to the syllabus requirements of the FOM, RCP (London) and RCP (Ireland).
The course comprises a blend of specially commissioned written materials in electronic format (PDF), together with interactive teaching material, all delivered via the University's virtual learning environment, Blackboard.
In Year 1, you are required to attend in Manchester for a one-day seminar associated with Module 1 in Month 3, and the same for Module 2 in month 5 for September starters, in Month 6 for April starters and for one exam day in Month 10.
You are allocated to tutorial groups for Modules 4 to 8, each supported by a specialist in occupational medicine. Tutorials are delivered via telephone or web conference.
In Year 2, you are required to attend in Manchester for a four-day practical course in Month 5 and for one exam day in Month 10.
In Year 3, you are required to attend a three-day MSc dissertation course held at the University in Month 1.
Some components of the course are held jointly with students on the MSc Occupational Hygiene course.
All taught course units will be assessed via examinations held at the University at intervals throughout the course, and the third year will be assessed via submission of a dissertation.
Assessment is by eight examination papers, one per course module. The first will be sat at Seminar 1 (Year 1, Month 3) and the second at Seminar 2 (Year 1, Month 5 for September starters and Month 6 for April starters). The remaining Year 1 assessments will be sat in Month 10. For Year 2, assessments will be held in Month 5 and 10.
If you wish to proceed to the MSc, you are also required to complete a third year, during which you will attend a mandatory three-day residential course (in Month 1) and prepare a dissertation. For doctors in approved training posts, the dissertation may also be eligible for submission for the MFOM.
Module 1: Foundation for Postgraduate Practice
Module 2: Fitness for Work
Module 3: Health and Workability
Module 4: Aspects of Good Professional Behaviour
Module 5: Understanding Physical Agents
Module 6: Management of Occupationally Related Disease
Module 7: Research Methods and Data Analysis
Module 8: Management of Workplace Hazards
The 2-year PG Diploma program uses a multi-disciplinary, research-informed approach to teach clinical and basic science related to the human systems (cardiovascular, respiratory, gastrointestinal, musculoskeletal, female reproductive, renal and genitourinary, the eyes, and skin) and diagnostics & therapeutics.
The scientific background is taught in the context of clinical placements in Community Medicine, General Hospital Medicine, Front Door Medicine, Mental Health, General Surgery, Obstetrics & Gynaecology and Paediatrics.
Successful completion of the 2 year PG Diploma enables graduates to take the national certification exam, which is mandatory to register and work as a Physician Associate.
Students benefit from a strong exposure to clinicians and scientists with active research in medically related subjects.
The program is delivered by the Physician Associate Faculty that brings together clinicians and other experts from across the disciplines of primary and secondary medical care. The course content reflects the curriculum and learning requirements for the Physician Associate framework (PA CC 2012).
The Physician Associate programme at Bangor includes an integrated placement programme of work-based learning that will provide progressive experiential learning in a range of clinical settings to allow students to attain the standards of knowledge and understanding in clinical practice, including regulatory structures, professionalism and clinical competences expected of a Physician Associate. Placements will be grouped according to the following clinical subject headings and minimum periods:
During the course you will learn how to recognise and manage common and complex medical conditions as part of multi-professional team, to make independent and informed judgements on clinical problems and be trained to integrate knowledge and clinical practice. As a Physician Associate graduate you’ll be able to demonstrate outstanding interpersonal and professional skills when working with patients, carers and clinical multi-disciplinary teams in a multicultural environment. You will also have a comprehensive understating of I.T., record keeping and communication using a diverse range of media in evidence based practice and understand the importance of health promotion, disease prevention and inequalities in society and local communities.
The programme aims to give students a comprehensive knowledge of the concepts, principles and technologies used in clinical practice in the following areas:
On successful completion of the course, you’ll have gained the key knowledge related to practice as a physician associate, including major concepts related to the principles and theories associated with human anatomy and physiology, cell biology, body/system-drug actions and interactions, mechanisms underlying human pathological conditions and the basis of the clinical and technological methods used to diagnose and monitor these conditions. You be able to demonstrate the qualities and transferable skills necessary for employment in the medical domain including history taking and consultation skills, and physical examinations tailored to the needs of the patient and the demands of the clinical situation. You’ll also be able to demonstrate an understanding and appreciation of the needs of patients/clients, and decision-making in complex and unpredictable contexts.
Teaching occurs via lectures, clinical placements, practical classes and group work including case centred discussions often delivered by academic clinicians who hold joint University and Health board contracts. Students benefit from a high number of contact hours that includes utilisation of our state-of-the art teaching laboratories and simulation suite at the hospital. Academic assessment includes placement reports, observed clinical skills, MCQ and written exams.
Health informatics studies the nature of medical data and the use of information technology to manage health-related information in medical practice, education, and research. With increases in the application and uses of information technology in the medical industry, there is an unprecedented need for professionals who can combine their knowledge of computing and health care to improve the safety and quality of care delivery, as well as to help control costs.
The MS degree in health informatics applies the creative power of information technology to the information and data needs of health care. This includes the acquisition, storage, and retrieval of patient data, as well as access to electronically maintained medical knowledge for use in patient care, research, and education. Professionals in the field require computing expertise; an understanding of formal medical terminology, clinical processes, and guidelines; and an understanding of how information and communication systems can be used to successfully deliver patient information in various health care settings. The program is offered online only.
The program offers two tracks: the clinician track and analyst track.
To be considered for admission into the MS program in health informatics, candidates must fulfill the following requirements:
We invite postgraduate research proposals in a number of disease areas that impact significantly on patient care. We focus on exploring the mechanisms of disease, understanding the ways disease impacts patients’ lives, utilising new diagnostic and therapeutic techniques and developing new treatments.
As a student you will be registered with a University research institute, for many this is the Institute for Cellular Medicine (ICM). You will be supported in your studies through a structured programme of supervision and training via our Faculty of Medical Sciences Graduate School.
We undertake the following areas of research and offer MPhil, PhD and MD supervision in:
Newcastle hosts one of the most comprehensive organ transplant programmes in the world. This clinical expertise has developed in parallel with the applied immunobiology and transplantation research group. We are investigating aspects of the immunology of autoimmune diseases and cancer therapy, in addition to transplant rejection. We have themes to understand the interplay of the inflammatory and anti-inflammatory responses by a variety of pathways, and how these can be manipulated for therapeutic purposes. Further research theme focusses on primary immunodeficiency diseases.
There is strong emphasis on the integration of clinical investigation with basic science. Our research include:
We also research the effects of UVR on the skin including mitochondrial DNA damage as a UV biomarker.
This area emphasises on translational research, linking clinical- and laboratory-based science. Key research include:
Focus is on applied research and aims to underpin future clinical applications. Technology-oriented and demand-driven research is conducted which relates directly to health priority areas such as:
This research is sustained through extensive internal and external collaborations with leading UK and European academic and industrial groups, and has the ultimate goal of deploying next-generation diagnostic and therapeutic systems in the hospital and health-care environment.
There is a number of research programmes into the genetics, immunology and physiology of kidney disease and kidney transplantation. We maintain close links between basic scientists and clinicians with many translational programmes of work, from the laboratory to first-in-man and phase III clinical trials. Specific areas:
We have particular interests in:
Novel non-invasive methodologies using magnetic resonance are developed and applied to clinical research. Our research falls into two categories:
Our studies cover a broad range of topics (including diabetes, dementia, neuroscience, hepatology, cardiovascular, neuromuscular disease, metabolism, and respiratory research projects), but have a common theme of MR technical development and its application to clinical research.
We focus on connective tissue diseases in three, overlapping research programmes. These programmes aim to understand:
This research theme links with other local, national and international centres of excellence and has close integration of basic and clinical researchers and hosts the only immunotherapy centre in the UK.
Genetic approaches to the individualisation of drug therapy, including anticoagulants and anti-cancer drugs, and in the genetics of diverse non-Mendelian diseases, from diabetes to periodontal disease, are a focus. A wide range of knowledge and experience in both genetics and clinical sciences is utilised, with access to high-throughput genotyping platforms.
Our scientists and clinicians use in situ cellular technologies and large-scale gene expression profiling to study the normal and pathophysiological remodelling of vascular and uteroplacental tissues. Novel approaches to cellular interactions have been developed using a unique human tissue resource. Our research themes include:
We also have preclinical molecular biology projects in breast cancer research.
We conduct a broad range of research activities into acute and chronic lung diseases. As well as scientific studies into disease mechanisms, there is particular interest in translational medicine approaches to lung disease, studying human lung tissue and cells to explore potential for new treatments. Our current areas of research include:
Our research projects are concerned with the harmful effects of chemicals, including prescribed drugs, and finding ways to prevent and minimise these effects. We are attempting to measure the effects of fairly small amounts of chemicals, to provide ways of giving early warning of the start of harmful effects. We also study the adverse side-effects of medicines, including how conditions such as liver disease and heart disease can develop in people taking medicines for completely different medical conditions. Our current interests include: environmental chemicals and organophosphate pesticides, warfarin, psychiatric drugs and anti-cancer drugs.
Our new School of Pharmacy has scientists and clinicians working together on all aspects of pharmaceutical sciences and clinical pharmacy.
This programme is intended for those who wish to enhance their understanding of the role of microorganisms in animal health and disease, and provides an excellent grounding in molecular biology, immunology, epidemiology and microbiology.
This grounding leads into the study of the complex mechanisms of host/microbe interactions that are involved in the pathogenesis of specific animal diseases, and provides insights into diagnosis and interventions, such as vaccines, essential for disease control.
You will enhance your critical and analytical skills and gain hands-on experience in the diagnosis of veterinary diseases, such that you may identify problems, formulate hypotheses, design experiments, acquire and interpret data, and draw conclusions.
This programme is studied full-time over one academic year.
Example module listing
The following modules are indicative, reflecting the information available at the time of publication. Please note that not all modules described are compulsory and may be subject to teaching availability and/or student demand.
This is a full or part-time programme, intended mainly for graduates, those already working in veterinary diagnostic/research laboratories and staff from other laboratories who want to enhance their understanding of the role of microorganisms in animal health and disease.
Pharmaceutical research personnel, policymakers, veterinarians, public health personnel and environmental biologists will also benefit.
Most modules are offered as standalone short courses. The fee structure for short courses is different to that for registered students, and details may be obtained via admissions enquiries, please refer to the contact details on this page.
The option to study the MSc on a part-time basis is only available following successful completion of three modules as stand-alone/CPD. Please contact the [email protected] for further information.
This Masters programme is delivered by a consortium comprising the University of Surrey and two world class veterinary microbiology institutions: the BBSRC funded Pirbright Institute (PI), and the Government sponsored Animal & Plant Health Agency (APHA).
The Veterinary Medicines Directorate (VMD) and Public Health England (PHE) also contribute to the programme.
You will have the unique opportunity to gain hands-on experience in the diagnosis of important veterinary diseases within the world reference laboratories of the APHA and Pirbright Institute (PI).
There will also be an opportunity to visit Public Health England (PHE) to gain a detailed knowledge of how zoonotic diseases outbreaks are investigated, and to visit the Veterinary Medicines Directorate (VMD), a livestock abattoir and an intensive livestock farm.
Colleagues from the CEFAS laboratory will also contribute to the programme, and further research training will be provided during your practical research project.
This is a one year full-time programme aimed at preparing graduates to work in a range of fields in which a detailed understanding of veterinary microbiology is a valuable asset.
These fields include research, commerce, government and policy, reference laboratory and diagnostic work, epidemiology and disease mapping, veterinary science, farming especially animal production, wild and zoo animal conservation and education.
As such, it is intended that graduates will achieve the highest levels of professional understanding of veterinary microbiology within a range of contexts.
The programme combines the study of the theoretical foundations of, and scholarly approaches to, understanding the application and various practices of veterinary microbiology within the contexts described above along with the development of practical and research skills.
The main aims are to enable students to:
The programme provides opportunities for students to develop and demonstrate knowledge and understanding, skills, qualities and other attributes in the following areas.
The learning outcomes have been aligned with the descriptor for qualification at level 7 given in the Framework for Higher Education Qualifications (FHEQ) produced by the Quality Assurance Agency (QAA) for Higher Education.
Knowledge and understanding
Following completion of the programme, students should display knowledge of:
Following completion of the programme, students should be able to:
Professional practical skills
Following completion of the programme, students should be able to:
We often give our students the opportunity to acquire international experience during their degrees by taking advantage of our exchange agreements with overseas universities.
In addition to the hugely enjoyable and satisfying experience, time spent abroad adds a distinctive element to your CV.
This taught Postgraduate Certificate in Human Anatomy is a new unique programme offering comprehensive training in all human anatomy, including legislation relevant to working in a human anatomy laboratory.
The Postgraduate Certificate in Human Anatomy comprises three core compulsory courses taught from January – May each year. It comprises approximately 10 hours of direct contact teaching each week during the course.
During your training in anatomy, you will receive tuition using a wide variety of methods from expert staff including tutorials, lectures, group work, laboratory classes and dissection based classes. As such you will develop a wide range of skills useful in an anatomical and clinically applied environment. These skills will aid in teamwork, scientific exploration, problem solving and identifying relevant laboratory protocols.
The course is assessed by a variety of different methods including essay writing, group presentations, “spot” examinations where anatomical structures have to be identified, or potentially, applied anatomy has to be demonstrated through data interpretation, and group work through continuous assessment.
The Postgraduate Certificate in Human Anatomy will provide comprehensive anatomical training which could provide a platform for further study in the field. It could help enhance an individual’s clinical portfolio for a specialty related to the surgical, paramedical and allied health professionals practice which requires an in-depth anatomical knowledge.