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Masters Degrees (Clinical Laboratory Science)

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Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Clinical Science (Medical Physics) at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017). Read more

Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Clinical Science (Medical Physics) at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017).

Medical physicists fill a special niche in the health industry. The role includes opportunities for laboratory work, basic and applied research, management and teaching, which offers a uniquely diverse career path. In addition there is satisfaction in contributing directly to patient treatment and care.

This three-year programme in Clinical Science (Medical Physics), hosted by the College of Medicine, builds on an existing collaboration with the NHS in providing the primary route for attaining the professional title of Clinical Scientist in the field of Medical Physics.

Key Features of MSc in Clinical Science (Medical Physics)

The Clinical Science (Medical Physics) programme is accredited by the NHS and provides the academic component of the Scientist Training Programme for medical physics trainees, within the Modernising Scientific Careers framework defined by the UK Department of Health, and offers students the chance to specialise in either radiotherapy physics or radiation safety. This Master’s degree in Clinical Science (Medical Physics) is only suitable for trainees sponsored by an NHS or an equivalent health care provider.

The MSc in Clinical Science (Medical Physics) is modular in structure, supporting integration of the trainee within the workplace. Students must obtain a total of 180 credits to qualify for the degree. This is made up of 120 credits of taught-course elements and a project that is worth 60 credits and culminates in a written dissertation.

The Clinical Science (Medical Physics) MSc is accredited by the Department of Health.

Modules

Modules on the Clinical Science (Medical Physics) MSc typically include:

• Introduction to Clinical Science

• Medical Imaging

• Nuclear Medicine and Diagnostic Imaging

• Radiation Protection

• Radiotherapy Physics

• Research Methods

• Advanced Radiotherapy

• Specialist Radiotherapy

• Advanced Radiation Safety

• Specialist Radiation Safety

Careers

The MSc in Clinical Science (Medical Physics) provides the main route for the professional qualification of Clinical Scientist in Medical Physics.

Additionally, the need for specific expertise in the use of medical radiation is enshrined in law. The Ionising Radiation (Medical Exposure) Regulations (IRMER) 2000 defines the role of Medical Physics Expert, required within any clinical context where radiation is being administered, either a diagnostic or therapeutic.

Links with industry

The close working relationship between Swansea University and the NHS in Wales, through the All-Wales Training Consortium for Medical Physics and Clinical Engineering, provides the ideal circumstances for collaborative teaching and research. The Consortium is recognised by the Welsh Government. A significant proportion of the teaching is delivered by NHS Clinical Scientists and other medical staff.

Facilities

The close proximity of Swansea University to Singleton Hospital, belonging to one of the largest health providers in Wales, Abertawe Bro Morgannwg University (ABMU) health board, as well as the Velindre NHS Trust, a strongly academic cancer treatment centre, provide access to modern equipment, and the highest quality teaching and research.

The Institute of Life Science (ILS) Clinical Imaging Suite has recently been completed and overlaps the University and Singleton Hospital campuses. It features adjoined 3T MRI and high-resolution CT imaging. ILS has clinical research of social importance as a focus, through links with NHS and industrial partners.

Research

Swansea University offers a vibrant environment in medically-oriented research. The Colleges of Medicine has strong research links with the NHS, spearheaded by several recent multimillion pound developments, including the Institute of Life Science (ILS) and the Centre for NanoHealth (CNH).

The University provides high-quality support for MSc student research projects. Students in turn make valuable progress in their project area, which has led to publications in the international literature or has instigated further research, including the continuation of research at the doctoral level.

The College of Medicine provides an important focus in clinical research and we have the experience of interacting with medical academics and industry in placing students in a wide variety of research projects.

Medical academics have instigated projects examining and developing bioeffect planning tools for intensity modulated radiotherapy and proton therapy and devices for improving safety in radiotherapy. Industry partners have utilised students in the evaluation of the safety of ventricular-assist devices, intense-pulsed-light epilators and in the development of novel MRI spectroscopic methods. The student join teams that are solving research problems at the cutting-edge of medical science.



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The School of Life Science has developed an extremely active and successful undergraduate, Biomedical Science programme. We have embraced specialists working in local NHS Trusts to develop outstanding, collaborative relationships covering key diagnostic and clinical specialties. Read more

Overview

The School of Life Science has developed an extremely active and successful undergraduate, Biomedical Science programme. We have embraced specialists working in local NHS Trusts to develop outstanding, collaborative relationships covering key diagnostic and clinical specialties. Not only do students benefit from the inclusion of such specialist practitioners onto our teaching programmes, but could also be offered highly competitive research opportunities working within the hospital itself.

This MSc programme builds on this wealth of experience and best practice to enable well-qualified students to develop their scientific training and employability skills within a Biomedical context. The need for innovation and a multidisciplinary approach to Biomedical Science has never been more important. The teaching strategies embedded within this programme embrace these principles in its pursuit of Clinical Biochemistry, Medical Immunology and Haematology.

IBMS Accreditation

This programme is accredited by the Institute of Biomedical Science (IBMS) as the professional body of Biomedical Scientists within the United Kingdom. The IBMS aims to promote and develop the role of Biomedical Science within healthcare to deliver he best possible service for patient care and safety.

Accreditation is a process of peer review and recognition by the profession of the achievement of quality standards for delivering Masters level programmes.

Individuals awarded a Masters degree accredited by the Institute are eligible for the title of Chartered Scientist and the designation CSci if they meet the other eligibility criteria of corporate membership and active engagement in Continued Professional Development. A Masters level qualification is also one of the entry criteria for the Institute’s Higher Specialist Examination and award of the Higher Specialist Diploma, a pre-requisite for the membership grade of Fellowship and designation FIBMS.

The aim of IBMS accreditation is to ensure that, through a spirit of partnership between the Institute and the University, a good quality degree is achieved that prepares the student for employment in circumstances requiring sound judgement, critical thinking, personal responsibility and initiative in complex and unpredictable professional environments.

The Institute lists 10 advantages of IBMS accreditation:
1. Advances professional practice to benefit healthcare services and professions related to biomedical science.

2. Develops specific knowledge and competence that underpins biomedical science.

3. Provides expertise to support development of appropriate education and training.

4. Ensures curriculum content is both current and anticipatory of future change.

5. Facilitates peer recognition of education and best practice and the dissemination of information through education and employer networks.

6. Ensures qualification is fit for purpose.

7. Recognises the achievement of a benchmark standard of education.

8. The degree award provides access to professional body membership as a Chartered Scientist and for entry to the Higher Specialist Diploma examination.

9. Strengthens links between the professional body, education providers employers and students.

10. Provides eligibility for the Higher Education Institution (HEI) to become a member of HUCBMS (Heads of University Centres of Biomedical Science)

See the website https://www.keele.ac.uk/pgtcourses/biomedicalbloodscience/

Course Aims

The main aim of the programme is to provide multidisciplinary, Masters Level postgraduate training in Biomedical Blood Science. This will involve building on existing, undergraduate knowledge in basic science and applying it to clinical, diagnostic and research applications relevant to Clinical Biochemistry, Medical Immunology and Haematology.

Intended learning outcomes of the programme reflect what successful students should know, understand or to be able to do by the end of the programme. Programme specific learning outcomes are provided in the Programme Specification available by request, but to summarise the overarching course, aims are as follows:

- To develop students’ knowledge and understanding of different theoretical perspectives, methodological approaches, research interests and practical applications within Blood Science

- To explore and explicitly critique the clinical, diagnostic and research implications within the fields of Clinical Biochemistry,

- Medical Immunology and Haematology, and to place this in the context of a clinical laboratory, fully considering the potential implications for patients, health workers and research alike

- To develop a critical awareness of Biomedical ethics and to fully integrate these issues into project management including grant application and business planning

- To support student autonomy and innovation by providing opportunities for students to demonstrate originality in developing or applying their own ideas

- To direct students to integrate a complex knowledge base in the scrutiny and accomplishment of professional problem-solving scenarios and project development

- To enable student acquirement of advanced laboratory practical competencies and high level analytical skills

- To promote and sustain communities of practice that allow students to share best practice, encourage a multidisciplinary approach to problem-solving and to develop extensive communication skills, particularly their ability to convey complex, underpinning knowledge alongside their personal conclusions and rationale to specialist and nonspecialist listeners

- To provide students with a wide range of learning activities and a diverse assessment strategy in order to fully develop their employability and academic skills, ensuring both professional and academic attainment

Course Content

This one year programme is structured so that all taught sessions are delivered in just two days of the working week. Full-time students are expected to engage in independent study for the remaining 3 days per week. Consolidating taught sessions in this way allows greater flexibility for part-time students who will be expected to attend one day a week for two academic years, reducing potential impact in terms of workforce planning for employers and direct contact for students with needs outside of their academic responsibilities.

Semester 1 will focus on two main areas, the first being Biomedical ethics, grant application and laboratory competencies. The second area focuses on the clinical and diagnostic implications of Blood Science for patients and health workers, with the major emphasis being on Clinical Biochemistry.

Semester 2 will also focus on two main themes; firstly, business planning methodological approaches, analytical reasoning and research. Secondly, the clinical and diagnostic implications of Blood Science for patients and health workers, with the major emphasis being on Haematology and Immunology.

Compulsory Modules (each 15 credits) consist of:
- Biomedical Ethics & Grant Proposal
- Project Management & Business Planning
- Advanced Laboratory Techniques*
- Research Methodologies *
- Case Studies in Blood Science I
- Case Studies in Blood Science II
- Clinical Pathology I
- Clinical Pathology II

*Students who have attained the IBMS Specialist Diploma and are successfully enrolling with accredited prior certified learning are exempt from these two modules.

Dissertation – Biomedical Blood Science Research Project (60 credits)

This research project and final dissertation of 20,000 words is an excellent opportunity for students to undertake laboratory based research in their chosen topic and should provide an opportunity for them to demonstrate their understanding of the field via applications in Biomedical Science. Biomedical Science practitioners are expected to complete the laboratory and data collection aspects of this module in conjunction with their employers.

Requirements for an Award:
In order to obtain the Masters degree, students are required to satisfactorily accrue 180 M Level credits. Students who exit having accrued 60 or 120 M Level credits excluding the ‘Dissertation – Biomedical Blood Science Research Project’ are eligible to be awarded the Postgraduate Certificate (PgC) and Postgraduate Diploma (PgD) respectively

Teaching and Learning Methods

This programme places just as much emphasis on developing the way in which students approach, integrate and apply new knowledge and problem-solving as it is with the acquisition of higher level information. As such, particular emphasis is placed on developing critical thinking, innovation, reflective writing, autonomous learning and communication skills to prepare candidates for a lifetime of continued professional development.

The teaching and learning methods employed throughout this programme reflect these principles. For example, there is greater emphasis on looking at the subject from a patient-orientated, case study driven perspective through problem-based learning (PBL) that encourages students to think laterally, joining up different pieces of information and developing a more holistic level of understanding.

Assessment

The rich and varied assessment strategy adopted by this programme ensure student development of employability
and academic skills, providing an opportunity to demonstrate both professional and academic attainment. Assessment design is
largely driven by a number of key principles which include: promotion of independent learning, student autonomy, responsibility for personal learning and development of innovation and originality within one’s chosen area of interest. Note that not all modules culminate in a final examination.

Additional Costs

Apart from additional costs for text books, inter-library loans and potential overdue library fines we do not anticipate any additional costs for this post graduate programme.

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

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Programme Aims. Read more

Programme Aims

This award is offered within the Postgraduate Scheme in Health Technology, which aims to provide professionals in Medical Imaging, Radiotherapy, Medical Laboratory Science, Health Technology, as well as others interested in health technology, with an opportunity to develop advanced levels of knowledge and skills.

 A. Advancement in Knowledge and Skill

  • ​To develop specialists in their respective professional disciplines to enhance their career paths;
  • To broaden students' exposure to health science and technology to enable them to cope with the ever-changing demands of work; and
  • To provide a laboratory environment for testing problems encountered at work.

 Students develop intellectually, professionally and personally while advancing their knowledge and skills in Medical Laboratory Science. The specific aims of this award are:

  • ​To broaden and deepen students' knowledge and expertise in Medical Laboratory Science;
  • To introduce students to advances in selected areas of diagnostic laboratory techniques;
  • To develop in students an integrative and collaborative team approach to the investigation of common diseases;
  • To foster an understanding of the management concepts that are relevant to clinical laboratories; and
  • To develop students' skills in communication, critical analysis and problem solving.

B. Professional Development

  • ​To develop students' ability in critical analysis and evaluation in their professional practices;
  • To cultivate within healthcare professionals the qualities and attributes that are expected of them;
  • To acquire a higher level of awareness and reflection within the profession and the healthcare industry to improve the quality of healthcare services; and
  • To develop students' ability to assume a managerial level of practice.

C. Evidence-based Practice

  • ​To equip students with the necessary research skills to enable them to perform evidence-based practice in the delivery of healthcare service.

D. Personal Development

  • ​To provide channels for practising professionals to continuously develop themselves while at work; and
  • To allow graduates to develop themselves further after graduation.

Characteristics

Our laboratories are well-equipped to support students in their studies, research and dissertations. Our specialised equipment includes a flow cytometer, cell culture facilities; basic and advanced instruments for molecular biology research (including thermal cyclers, DNA sequencers, real-time PCR systems and an automatic mutation detection system), microplate systems for ELISA work, HPLC, FPLC, tissue processors, automatic cell analysers, a preparative ultracentrifuge and an automated biochemical analyser.

Recognition

This programme is accredited by the Institute of Biomedical Science (UK), and graduates are eligible to apply for Membership of the Institute.

Programme structure

To be eligible for the MSc in Medical Laboratory Science (MScMLS), students are required to complete 30 credits:

  • 2 Compulsory Subjects (6 credits)
  • Dissertation (9 credits)
  • 3 Core Subjects (9 credits)
  • 2 Elective Subjects (6 credits)

Apart from the award of MScMLS, students can choose to graduate with the following specialism:

  • MSc in Medical Laboratory Science (Molecular Diagnostics)

 To be eligible for the specialism, students should complete 2 Compulsory Subjects (6 credits), a Dissertation (9 credits) related to the specialism, 4 Specialty Subjects (12 credits) and 1 Elective Subject (3 credits).

Compulsory Subjects

  • ​Integrated Medical Laboratory Science
  • Research Methods & Biostatistics

Core Subjects

  • Advanced Topics in Health Technology
  • Clinical Chemistry
  • Epidemiology
  • Haematology & Transfusion Science
  • Histopathology & Cytology
  • Immunology
  • Medical Microbiology
  • Clinical Applications of Molecular Diagnostics in Healthcare *
  • Molecular Technology in the Clinical Laboratory *
  • Workshops on Advanced Molecular Diagnostic Technology *

Elective Subjects

  • Bioinformatics in Health Sciences *
  • Professional Development in Infection Control Practice

* Specialty Subject



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This programme orientates internationally qualified dental graduates to that of a UK dental practitioner by providing a comprehensive grounding in six key training areas. Read more
This programme orientates internationally qualified dental graduates to that of a UK dental practitioner by providing a comprehensive grounding in six key training areas: basic sciences and their application to modern day dental practice, applied principles of clinical dentistry, clinical skills, communication skills, professionalism, management and leadership.

The course is delivered under three broad headings:

1. Taught
Students will acquire knowledge and understanding of:

-Relevant basic sciences including anatomy, physiology, immunology, microbiology and molecular biology with respect to health and how these are altered in disease states
-Patho-physiological and anatomical basis for clinical signs of oral and craniofacial health and disease
-Relationships between dental disease, population risk factors and the preventative measures

And integrate this knowledge to dental areas through discussions in:

-Basic and clinical science associated with pharmacology and therapeutics used in dentistry
-The science underpinning the key properties of dental materials and evaluate their clinical applications


2. Clinical
Students' clinical skills will be augmented through practical, laboratory based sessions using typodont teeth set in a manikin head.

-Operative skills will be taught to ensure students can undertake skilled, competent and safe dental procedures including: cavity design, extra-coronal restorations and non-surgical endodontic treatment.
-Simulated clinical techniques will be undertaken and the student will be introduced to decision making processes leading to tooth loss and replacement and execution of appropriate operative techniques for all stages of planned prosthodontic treatment (excluding bridges and implants) in conjunction, as necessary, with other specialists and technicians.

Students will observe current UK dental practise via clinics in oral medicine, oral and maxillofacial surgery, periodontology, paediatrics, prosthodontics, radiology and orthodontics.

Tutoring in Objective Structured Clinical Reasoning Examinations (OSCE) and Structured Clinical Reasoning (SCR) Exams will be carried out using the advanced facilities in the state of the art dental skills laboratory.

3. Research
The research component consists of a structured literature review and clinical audit report. Students will acquire knowledge and understanding of:

-Critical appraisal and analysis of scientific and clinical literature
-How clinical audit identifies problems in clinical service and helps formulate solutions
-Appropriate tools for searching the literature (search engines, web-based libraries, electronic documents)

Students will develop the analytical skills to be able to:

-Critically appraise, analyse and evaluate scientific papers and clinical literature applying the principles of evidence based dentistry
-Evaluate evidence of the latest developments in Dentistry
-Communication skills will be developed throughout the taught, clinical and research elements of the course with specific topic presentations during seminars as well as through journal club reports and presentations on dental and clinical governance topics.

The application deadline is 30th June 2017. Once we have received applications by the deadline the first selection process will begin. We reserve the right to receive further application after the deadline and make decisions on those applications in July/August subject to places being available.

Why study for your MSc in Dental Science for Clinical Practice at Queen Mary?

The School of Medicine and Dentistry has an unrivalled tradition of excellence in research and teaching extending as far back as 1123 with the founding of St Bartholomew’s Hospital. The London Hospital Medical College was the first Medical School in England, founded in 1785, and our Dental School was established well over a century ago. We are ranked 3rd in the UK for Dentistry (Guardian University Guide 2017) and our research is ranked among the best in the UK according to the most recent Research Excellent Framework (REF 2014).


In April 2014, QMUL’s new Dental School opened its doors to patients and students - the first new dental school in the UK to be built in 40 years. The £78m new school houses the most modern dental facilities in the UK, following more than a decade of planning and work. The new premises provide cutting-edge technology, superb education and research facilities for clinical dentistry and a vastly improved patient experience.


Students’ postgraduate learning experience is enhanced by our fantastic location in the east of London. Not only are we in one of the capital’s most vibrant areas to live and work but we also serve a diverse local community, where students develop their clinical skills and knowledge. Moreover, the Dental School offers students many exciting opportunities to develop an understanding of health and the treatment of disease in a global and international context.


The Institute of Dentistry is a special place to undertake postgraduate studies, bringing together a number of world-leading researchers in basic and clinical sciences who supervise research students in the fields of oral medicine, oral pathology, oral microbiology, oral epidemiology, oncology, dental biomaterials, dental biophysics, dental public health, dental education, periodontology, orthodontics, paediatric dentistry, prosthetic and conservative dentistry.


You will have the opportunity to attend Continuing Development Courses of the London Deanery, Royal Society of Medicine (Odontology Section) as well as internal Departmental and Dental and Blizard Institute seminars.


You will prepare a professional development portfolio based on evidence gathered from lectures, tutorials, clinics, self-study and self-reflection sessions.


Facilities
You will have access to a range of facilities including: medical and dental libraries located at the Royal London and at Barts hospitals, as well as the Mile End library.

Postgraduate Dental students will have access to the Dental Clinical Skills Laboratory based in the Garrod building at the Whitechapel Site.

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The Pre-Masters in Biomedical Science (Graduate Diploma in Biomedical Science) provides a discipline-specific pathway (a pre-masters year) into the taught Biomedical Blood Science masters level programme. Read more

Overview

The Pre-Masters in Biomedical Science (Graduate Diploma in Biomedical Science) provides a discipline-specific pathway (a pre-masters year) into the taught Biomedical Blood Science masters level programme. It is a one-year full-time programme designed for both home and international students, with a background in life sciences, who wish to study at postgraduate level for the MSc in Biomedical Blood Science. The programme is open to science graduates who do not meet the academic criteria for a direct entry into the MSc. The MSc in Biomedical Blood Science is accredited by the Institute of Biomedical Science (IBMS). The IBMS is the professional body of Biomedical Scientists within the United Kingdom. The IBMS aims to promote and develop the role of Biomedical Science within healthcare to deliver the best possible service for patient care and safety.

See the website https://www.keele.ac.uk/pgtcourses/biomedicalsciencegraduatediploma/

Course Aims

The overall aim is to provide the students with the academic background necessary for the masters programme and to enable them to develop and practise the subject specific academic skills required for the intensive pace of study at masters level. The course also aims to allow international students to benefit from English language support that will help them to develop their academic English language skills.

Intended learning outcomes of the programme reflect what successful students should know, understand or to be able to do by the end of the programme. Programme specific learning outcomes are provided in the Programme Specification available by request; but, to summarise, the overarching course aims are as follows:

- To provide students with core knowledge, understanding and skills relevant to Biomedical Science

- To produce skilled and motivated graduates who are suitably prepared for the MSc in Biomedical Science and for further study.

- To cultivate interest in the biosciences, particularly at the cellular and molecular level, within a caring and intellectually stimulating environment.

- To get an accurate insight into the role of Biomedical Scientists in the diagnosis, treatment and monitoring of disease.

- To develop an understanding of the analytical, clinical and diagnostic aspects of Cellular Pathology, Clinical Biochemistry, Medical Microbiology, Blood Transfusion, Clinical Immunology and Haematology pathology laboratories.

- To promote the development of a range of key skills, for use in all areas where numeracy and an objective, scientific approach to problem-solving are valued.

- To provide students with a wide range of learning activities and a diverse assessment strategy in order to fully develop their employability and academic skills, ensuring both professional and academic attainment.

- To promote the development of critical thinking, autonomous learning, independent research and communication skills to help prepare the students for the MSc in Biomedical Blood Science and for a lifetime of continued professional development.

Course Content

All the modules in this one year programme are compulsory. The programme consists of a total of 90 credits made up of one 30 credit module and four 15 credit modules. An additional English module (English for Academic Purposes) will be offered for non-native English speakers if required. This module will not form part of the overall award, but successful completion is required for progression to the Masters programme.

Modules:
- Biomedical Science and Pathology (30 credits):
The module provides the student with the knowledge and understanding of the pathobiology of human disease associated with Cellular Pathology, Clinical Immunology, Haematology, Clinical Biochemistry, Medical Microbiology and Clinical Virology. It also examines the analytical and clinical functions of three more of the major departments of a modern hospital pathology laboratory, including Haematology, Clinical Pathology, Clinical Immunology, Blood Transfusion, Clinical Biochemistry and Medical Microbiology. In addition, the module will give an accurate insight into the role of Biomedical Scientists and how they assist clinicians in the diagnosis, treatment and monitoring of disease.

- Biochemistry Research Project (non-experimental) (15 credits):
This module aims to introduce students to some of the key non-experimental research skills that are routinely used by biochemists and biomedical scientists, such as in depth literature searching, analysis of experimental data and the use of a computer as tool for both research (bioinformatics) and dissemination of information (web page construction). The student will research the literature on a specific topic, using library and web based resources and will produce a written review. In addition, the student will either process and interpret some raw experimental data provided to them.

- Advances in Medicine (15 credits):
This module will describe and promote the understanding of advances in medicine that have impacted on diagnosis, treatment, prevention of a range of diseases. It will highlight fast emerging areas of research which are striving to improve diagnosis including nanotechnology and new biochemical tests in the fields of heart disease, cancer and fertility investigations which will potentially improve patient care.

- Clinical Pathology (15 credits):
The majority of staff that contribute to the module are employees of the University Hospital of North Staffordshire (UHNS). Students will benefit from lectures and expertise in Clinical Diagnostic Pathology, Pharmacology, Biochemistry, Genetics and Inflammatory Diseases. Students will gain an insight into how patients are managed, from their very first presentation at the UHNS, from the perspective of diagnosis and treatment. The course will cover both standardised testing options and the development of new diagnostic procedures with a particular emphasis on genetic and epigenetic aspects of disease. Students will also gain an appreciation of the cost benefit of particular routes for diagnosis and treatment and the importance of identifying false positive and false negative results. Finally, the students will have the opportunity to perform their own extensive literature review of a disease-related topic that is not covered by the lectures on the course.

- Case Studies in Biomedical Science (15 credits):
This module aims to give you an understanding of the UK health trends and the factors that affect these trends. Through clinical case studies and small group tutorials, you will explore why the UK has some of the highest incidences of certain diseases and conditions in Europe and consider what factors contribute to making them some of the most common and/or rising health problems faced by this country. This will include understanding the relevant socioeconomic factors as well as understanding the bioscience of the disease process and its diagnosis and management. You will also focus on what is being done by Government and the NHS to tackle these major health problems.

- English for Academic Purposes (EAP ):
For non-native English speakers if required

Teaching & Assessment

In addition to the lecture courses and tutorials, problem based learning (PBL) using clinical scenarios is used for at least one module. Students will also be given the opportunity to undertake an independent non-experimental research project, supervised and supported by a member of staff. Web-based learning using the University’s virtual learning environment (KLE) is also used to give students easy access to a wide range of resources and research tools, and as a platform for online discussions and quizzes. Students will be given many opportunities to become familiar with word processing, spreadsheets and graphics software as well as computer-based routes to access scientific literature.

All modules are assessed within the semester in which they are taught. Most contain elements of both ‘in-course’ assessment (in the form of laboratory reports, essays, posters) and formal examination, although some are examined by ‘in-course’ assessment alone.

Additional Costs

Apart from additional costs for text books, inter-library loans and potential overdue library fines we do not anticipate any additional costs for this post graduate programme.

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

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Infertility is a common problem with approximately 1 in 7 couples of reproductive age being diagnosed as infertile - equating to 72.5 million people globally - and there is an increasing demand for assisted reproductive technology (ART). Read more
Infertility is a common problem with approximately 1 in 7 couples of reproductive age being diagnosed as infertile - equating to 72.5 million people globally - and there is an increasing demand for assisted reproductive technology (ART). This course will provide a robust and wide ranging education in human clinical embryology and ART.

Professor Barratt, Programme Director of the new programme MSc Human Clinical Embryology and Assisted Conception has been confirmed as one of the lecturers at the forthcoming Campus Workshop "From gametes to blastocysts – a continuous dialogue" to be held in Apex City Quay Hotel, Dundee, 7-8th November 2014. This programme is organised by the ESHRE Special Interest Group Embryology.

Why study Human Clinical Embryology and Assisted Conception at Dundee?

The MSc in Human Clinical Embryology and Assisted Conception is a new taught master’s programme which has been designed to provide a robust and wide ranging education in human clinical embryology and ART (assisted reproductive technology). Students will gain a systematic understanding of clinical embryology and ART whilst developing high level laboratory skills in various aspects of clinical embryology, andrology and ART.

The emphasis of the course is on humans and clinical ART/embryology and offers practical experience in handling and preparing HUMAN gametes.

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The University of Dundee has excellent clinical links and a close working relationship with the NHS and students will benefit from a scientifically rigorous programme with teaching drawn from experienced embryologists, scientists and clinicians.

A key benefit of the programme is that it offers a unique opportunity to gain substantial exposure to an NHS IVF clinic (NHS Tayside). This will allow students to observe the practice and management of a working IVF clinic and benefit from teaching by staff involved in ART, and will be of considerable benefit for those wanting a clinical based career. The NHS Tayside IVF clinic has recently benefitted from a substantial investment in its facilities which has created a high quality clinical environment.

The blend of scientific, practical skills and the integration with an NHS facility giving students first hand experience and exposure to the workings of an NHS IVF clinic will provide students with an excellent base to enter a career in ART either in a clinical or research setting.

How you will be taught

The MSc is full time programme (September to August) and will consist of 5 taught modules and a research project. The course consists of a combination of lectures, seminars, tutorials, discussion and journal clubs as well as self-directed study. The research project will be carried out under either in the research laboratory or in the IVF clinic.

What you will study

The course is divided into 6 modules:

Module 1: Fundamental science (Semester1)
Module 2 Advanced Applied laboratory skills in ART (Semester 1 and 2)
Module 3: Statistics (Semester 1)
Module 4: Running a successful ART laboratory and clinical service (Semester 2).
Module 5: Clinical Issues and Controversies in ART (Semester 2)
Module 6: Research Project (Semester 3)

How you will be assessed

The programme is assessed using a variety of traditional and more innovative approaches. We use essays, portfolios, folders of evidence, research proposals, learning contracts, exams, OSCEs, and assessed online activities such as debates and team work.

Careers

Due to the increased demand for infertility treatment there has been a substantial growth in the demand for high quality laboratory and clinical staff in this area.

Approximately 1:7 couples are infertile and IVF is the predominant treatment for infertility contributing ~2% of the births in the UK and up to 5% in some EU countries. IVF is a rapidly growing field and as an example of this the number of cycles treated in the UK has increased by almost 30% in the last 4 years (http://www.hfea.gov.uk).

Following successful completion of the MSc students could apply for a training position in ART e.g. in embryology and/or andrology. Alternatively the MSc would be an ideal preparation for undertaking a PhD or applying for a research position. Clinically qualified graduates would gain valuable skills to enable them to specialise in reproductive medicine and assume responsibility within an ART clinic.

Skills that students will acquire include:

* In-depth understanding of basic reproductive physiology and a detailed knowledge of human ART;
* Sperm preparation and cryopreservation
* Recruitment of patients and donors for research
* Preparation of ethical approvals and appreciation for the ethical issues in ART
* Detailed work with human eggs and sperm (including assessment of gamete quality)
* Time lapse imaging of human embryos
* Business planning for running an ART laboratory and clinical service.
* QA and QC in the ART laboratory
* Troubleshooting in an ART lab
* The role of media and marketing in the development of an ART service.
* Detailed and practical knowledge of the HFEA and legislative and regulatory framework.
* Knowledge of basic IVF laboratory techniques e.g. preparation of dishes, witnessing
* Appreciation of the clinical diagnostic and pathways in ART

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Choose a career in children’s nursing and work at the forefront of healthcare delivery. Students starting PG Dip courses in September 2017 will receive a NHS Tuition Fee Bursary to cover the full tuition fees for the duration of their course. Read more
Choose a career in children’s nursing and work at the forefront of healthcare delivery.

Students starting PG Dip courses in September 2017 will receive a NHS Tuition Fee Bursary to cover the full tuition fees for the duration of their course.

Who is it for?

The Postgraduate Diploma in Child Nursing is designed for students who already have a degree and are looking for progression and further challenges which can be fulfilled by undertaking a rewarding and lifelong career within the nursing profession.

Throughout the course you will develop your knowledge, skills and interests in both general medicine and surgery in addition to specialist areas. You will learn through a range of methods including academic study, simulated practice learning and clinical placements where you will have the opportunity to work alongside other health care professionals in a multidisciplinary team.

Objectives

The Postgraduate Diploma in Child Nursing prepares you for a fulfilling and rewarding career caring for children, and their parents, at different stages of the developmental spectrum who have had injuries, suffered accidents, acquired disease or have a range of healthcare needs.

Children’s nursing is a challenging and fulfilling profession. As a child nurse you need to be committed and dedicated with the willingness to give time to others with care and compassion. You will learn the skills of clinical decision-making that is supported by knowledge and experience of providing healthcare to a diverse population.

The course combines theoretical study with clinical experience gained at London’s leading hospitals, trusts and community settings. The School's facilities feature an excellent Clinical Skills Centre, including a simulated wards, where you can prepare for your practice experience. Whilst on clinical placements you will also benefit from exposure to the capital’s diverse population.

Placements

Half of your time as a student will be spent gaining practice experience through laboratory-based simulated practice and through clinical placements in health care settings.

Simulated Practice

Simulated practice is a significant component of your practice learning experience and will provide opportunities for you to rehearse a range of practical nursing skills and enact scenarios in a realistic, but safe simulated environment in our excellent clinical laboratories.

You will be encouraged to explore, experiment and engage in nursing activities with the lecturers. The sessions will help you to understand the rationale and evidence that you will need so you feel safe when providing hands-on care. Through this experience you will develop confidence as you prepare for your practice experience and gain a sense of purpose and belonging to the nursing profession.

Clinical Placements

Clinical placements can take place in a variety of settings such as:
-General Practice (GP) surgeries
-Nurseries
-Special schools
-NHS and independent sector hospitals
-Patients' homes and in community settings.

Placements take place within City's partnership of healthcare providers in Central and North East London who provide you with clinical placements, including Barts Health NHS Trust, Homerton University Hospital NHS Foundation Trust and North Middlesex HNS Trust.

This allows you to become familiar with the needs of local communities and its healthcare providers. Clinical placements are a vital factor in promoting understanding and development of professional knowledge and skills.

Academic facilities

Facilities at City include the excellent fully equipped Clinical Skills Centre in addition to an interactive Biological Sciences Laboratory.

Many of the clinical practice placements offer the opportunity for students to experience environments where clinical diagnostic tests are performed and in addition operating theatres where surgical procedures are carried out.

Teaching and learning

The course is taught by academics who:
-Have a background and expertise in children’s nursing and an up-to-date knowledge of clinical practice.
-Have an advanced level of knowledge of the biological and social sciences and public health and the ability to apply this knowledge to the delivery of care.
-Are specialist Clinical Practitioners who have contemporary knowledge of their field including up-to-date research evidence.

You will also work with service users who have an insight and understanding of the requirements of care delivery by nurses from a personal perspective.

Course activities include the following:
-Lectures delivered by experts in their field.
-Biological science laboratory work.
-Seminar presentations.
-Development of Clinical Skills expertise.
-Professional issues workshops.
-Interactive learning using biological science and clinical skills on-line packages.
-Simulated practice of clinical experience in the Clinical Skills Centre.
-Workshops to develop understanding of different fields of care such as Learning Difficulties, Child and Adolescent Mental Health
-Personal and Group tutorials.
-Clinical Practice allocations.

Assessments include the following:
-Scenario based Examinations – 100%
-Reflective Essays – 100%
-Seminar Presentation Report – 100%
-Case Study Analysis – 100%
-Leadership and Management Strategy Analysis course work – 100%
-Clinical OSCE – 100%
-Clinical Practice Assessment – Pass/Fail

Modules

This course is based on the theory of relationship centred care and the psychological, social and biological factors influencing health. These themes are explored in the context of acute and long-term care and later in the course there is an emphasis on leading and managing in professional practice. The course has three parts with two progression points which must be successfully completed in order to progress to the next part. The modular structure of the programme is developmental and students study at HE level 7 throughout the programme and are expected to demonstrate increasing levels of self-directed independent study as the programme progresses.

Student independent learning time varies during the programme and is focused more in the theory modules and averages between 30-50 hours a week.

Compulsory modules
Part One of the course is 26 weeks and focuses on the Foundations in Health and Nursing. This part includes the following modules:
-HSM001 Relationship Centred Care and Concepts of Biology for Health (Theory)
-HSM101 Engaging in Practice 1 (Practice)

Part Two is 37 weeks and focuses on acute and long term care. This part includes the following modules:
-HSM132 Experiencing Acute Care, Diagnostics and Treatment (Theory)
-HSM201 Engaging in Practice 2 (Practice)
-HSM043 Experiencing Long Term Care, Rehabilitation and Recovery (Theory)

Part Three is 27 weeks and focuses on the development of leaders and managers of care. This part includes the following modules:
-HSM051 Leading and Managing in Professional Practice (Theory)
-HSM301 Engaging in Practice 3 (Practice)
Depending on the RPL Practice claim submitted by students there is a further 500 hours of clinical practice to be completed.

Holidays are not included in the above hours and all modules are compulsory.

Career prospects

Career prospects are excellent with Postgraduate Diploma students securing employment as Band 5 Staff Nurses with Trusts including Barts Health NHS Trust, Homerton University Hospital NHS Foundation Trust, Great Ormond Street Hospitals NHS Foundation Trust, Guys and St Thomas’ NHS Foundation Trust and North Middlesex University Hospital NHS Trust.

Nursing is a lifelong career with excellent progression opportunities in clinical management, education, research and clinical specialisms and many and varied career paths ranging from sister/ charge nurse, community nurse to nurse director. Specialisms include the following:
-Neonatal Care nurse specialist.
-Diabetic nurse specialist.
-Emergency and Trauma care specialist.
-School Nursing.

Postgraduates can complete the MSc programme at City. In order to be awarded an MSc you need 180 credits at level 7 (M level). Postgraduates will have 120 credits. If a merit\distinction has been awarded you will be able to consider this option after you have finished the course.

Other admission requirements

Due to the high demand for places shortlisted prospective applicants will be required to attend an assessment day held at City, University of London where they will be required to demonstrate their numerical and literacy skills in addition to values that match those of the NHS Constitution. For further information and example tests, please visit our Selection Day page: http://www.city.ac.uk/health/selection-day

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The Bond University Graduate Certificate in Sports Science is designed to develop specialist knowledge and skills in required sport science sub-disciplines including communication, leadership, and negotiation, clinical sports science, performance analysis and health research design and planning. Read more

The Bond University Graduate Certificate in Sports Science is designed to develop specialist knowledge and skills in required sport science sub-disciplines including communication, leadership, and negotiation, clinical sports science, performance analysis and health research design and planning.

The program is designed to build upon undergraduate studies in sports science to develop specialist knowledge and skills relating to strength and conditioning and high performance science of elite athletes.

Upon successful completion of the Graduate Certificate in Sports Science, students are eligible to enrol in the Graduate Diploma in Sports Science and subsequent Master of Sports Science. Subjects completed in the Graduate Certificate are credited to the Diploma.

About the program

The Bond University Graduate Certificate in Sports Science is designed to develop specialist knowledge and skills in required sport science sub-disciplines including communication, leadership, and negotiation, clinical sports science, performance analysis and health research design and planning.

The program is designed to build upon undergraduate studies in sports science to develop specialist knowledge and skills relating to strength and conditioning and high performance science of elite athletes.   

The program is suitable for graduates in exercise and sports science aspiring for a career in high performance sport, or for established professionals seeking to move into specialist sports science service roles.

The program is suitable for graduates with ambitions to enter postgraduate sports science as a pathway into postgraduate specialisation in strength & conditioning and high performance science or for internationally educated strength and conditioning coaches or high performance managers requiring professional updates before applying for Australian qualification recognition. 

Placing a strong emphasis on comprehensive practical experience, the program provides exposure to authentic high performance sports science. The Graduate Certificate is delivered at the world-class Bond Institute of Health and Sport where you will gain exceptional, high-quality practical experience in our high performance gym and sports science research laboratories. You will have access to specialised technology used in research to deliver a wide range of athlete testing and performance analysis. These facilities provide sports science testing and training services to a variety of elite and sub-elite athletes, providing an exceptional learning experience.

Structure and subjects

You must complete all of the following subjects:

*Subject names and structure may change

Teaching Methodology

The Graduate Certificate in Sports Science uses a teaching methodology that involves a combination of lectures, tutorials, seminars, examinations, projects, presentations, assignments, and laboratory work. Examination formats may include objective structure practical examinations, theory papers, assignments and oral presentations.



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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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Make a difference to people’s lives at the forefront of healthcare delivery. Students starting PG Dip courses in September 2017 will receive a NHS Tuition Fee Bursary to cover the full tuition fees for the duration of their course. Read more
Make a difference to people’s lives at the forefront of healthcare delivery.

Students starting PG Dip courses in September 2017 will receive a NHS Tuition Fee Bursary to cover the full tuition fees for the duration of their course.

Who is it for?

The Postgraduate Diploma in Adult Nursing is designed for students who already have a degree and are looking for progression and further challenges which can be fulfilled by undertaking a rewarding and lifelong career within the nursing profession.

Throughout the course, students will develop their knowledge, skills and interests in both general medicine and surgery in addition to specialist areas. They will learn through a range of methods including academic study, simulated practice learning and clinical placements where they will have the opportunity to work alongside other health care professionals in a multidisciplinary team.

Objectives

The Postgraduate Diploma in Adult Nursing prepares you for a fulfilling and rewarding career caring for adults of all ages who have had injuries, suffered accidents, acquired disease or have a range of healthcare needs.

Adult nursing is a challenging and fulfilling profession; as an adult nurse you need to be committed and dedicated with the willingness to give time to others with care and compassion. You will learn the skills of clinical decision-making that is supported by knowledge and experience of providing healthcare to a diverse population.

The course combines theoretical study with clinical experience gained at London’s leading hospitals, trusts and community settings. The School's facilities feature an excellent Clinical Skills Centre, including simulated wards, where you can prepare for your practice experience. Whilst on clinical placements you will also benefit from exposure to the capital’s diverse population.

Placements

Half of your time as a student will be spent gaining practice experience through laboratory based simulated practice and through clinical placements in health care settings.

Simulated Practice

Simulated practice is a significant component of your practice learning experience and will provide opportunities for you to rehearse a range of practical nursing skills and enact scenarios in a realistic, but safe simulated environment in our excellent clinical laboratories supervised by lecturers. Through this experience you will develop confidence as you prepare for your practice experience and gain a sense of purpose and belonging to the nursing profession.

Clinical Placements

Clinical placements can take place in a variety of settings such as:
-General Practice (GP) surgeries.
-Nursing homes.
-NHS and independent sector hospitals.
-Patients' homes and in community settings.

Placements take place within our partnership of healthcare providers in Central and North East London who provide you with clinical placements, including Barts Health NHS Trust, University College London Hospitals NHS Foundation Trust and Homerton University Hospital NHS Foundation Trust.

Clinical placements are a vital factor in promoting understanding and development of professional knowledge and skills.

Academic facilities

Facilities at City include the excellent fully equipped Clinical Skills Centre in addition to an interactive Biological Sciences Laboratory.

Many of the clinical practice placements offer the opportunity for students to experience environments where clinical diagnostic tests are performed and in addition operating theatres where surgical procedures are carried out.

Teaching and learning

The course is taught by academics who:
-Have a background and expertise in adult nursing and an up-to-date knowledge of clinical practice.
-Have an advanced level of knowledge of the biological and social sciences and public health and the ability to apply this knowledge to the delivery of care.
-Are specialist Clinical Practitioners who have contemporary knowledge of their field including up-to-date research evidence.

You will also work with service users who have an insight and understanding of the requirements of care delivery by nurses from a personal perspective.

Course activities include the following:
-Lectures delivered by experts in their field.
-Biological science laboratory work.
-Seminar presentations.
-Development of Clinical Skills expertise.
-Professional issues workshops.
-Interactive learning using biological science and clinical skills on-line packages.
-Simulated practice of clinical experience in the Clinical Skills Centre.
-Workshops to develop understanding of different fields of care such as Learning Difficulties, Mental Health and Dementia.
-Personal and Group tutorials.
-Clinical Practice allocations.

Assessments include the following:
-Scenario based Examinations – 100%
-Reflective Essays – 100%
-Seminar Presentation Report – 100%
-Case Study Analysis – 100%
-Leadership and Management Strategy Analysis course work – 100%
-Clinical OSCE – 100%
-Clinical Practice Assessment – Pass/Fail

Modules

This course is based on the theory of relationship-centred care and the psychological, social and biological factors influencing health. These themes are explored in the context of acute and long-term care and later in the course there is an emphasis on leading and managing in professional practice. The course has three parts with two progression points which must be successfully completed in order to progress to the next part. The modular structure of the programme is developmental and students study at HE level 7 throughout the programme with students expected to demonstrate increasing levels of self-directed independent study as the programme progresses.

Student independent learning time varies during the programme and is focused more in the theory modules and averages between 30-50 hours a week. All modules are compulsory.

Part One of the course is 26 weeks and focuses on the Foundations in Health and Nursing. This part includes the following modules:
-HSM001 Relationship Centred Care and Concepts of Biology for Health (Theory)
-HSM101 Engaging in Practice 1 (Practice)

Part Two is 37 weeks and focuses on acute and long term care. This part includes the following modules:
-HSM132 Experiencing Acute Care, Diagnostics and Treatment (Theory)
-HSM201 Engaging in Practice 2 (Practice)
-HSM043 Experiencing Long Term Care, Rehabilitation and Recovery (Theory)

Part Three is 27 weeks and focuses on the development of leaders and managers of care. This part includes the following modules:
-HSM051 Leading and Managing in Professional Practice (Theory)
-HSM301 Engaging in Practice 3 (Practice)

Career prospects

Career prospects are excellent with Postgraduate Diploma students securing employment as Band 5 Staff Nurses with Trusts including Barts Health NHS Trust, Homerton University Hospital NHS Foundation Trust and University College London Hospital's NHS Foundation Trust.

Nursing is a lifelong career and there are excellent progression opportunities in clinical management, education, research and clinical specialisms and many and varied career paths ranging from sister/ charge nurse, community nurse to nurse director. Specialisms include the following:
-Breast Care nurse specialist.
-Diabetic nurse specialist.
-Emergency and Trauma care specialist.
-Practice Nursing.

Postgraduates can complete the MSc programme at City. In order to be awarded an MSc you need 180 credits at level 7 (M level). Postgraduates will have 120 credits if a merit\distinction has been awarded you will be able to consider this option after you have finished the course.

Other admission requirements

Due to the high demand for places shortlisted prospective applicants will be required to attend an assessment day held at City, University of London where they will be required to demonstrate their numerical and literacy skills in addition to values that match those of the NHS Constitution. For further information and example tests, please visit our Selection Day page: http://www.city.ac.uk/health/selection-day

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Why take this course?. There are increasing rates of ill-health resulting from sedentary living, poor dietary habits and high stress lifestyles. Read more

Why take this course?

There are increasing rates of ill-health resulting from sedentary living, poor dietary habits and high stress lifestyles. The duties performed by a Clinical Exercise Specialist (CES) are linked closely to treating patients living with a long term condition in which exercise has been shown to provide therapeutic benefit. Specifically, cardiovascular diseases, pulmonary diseases, diabetes, stroke, cancer and musculoskeletal limitations remain important health concerns that have all been shown to benefit from regular, safe exercise.

Therefore, this innovative course is designed to offer you an interdisciplinary approach to exercise in clinical settings as well as vocational qualifications and experiences that will enable you to apply theory to practice. The integration of theory and practice within this course will enable you to critically analyse, adapt and modify existing approaches to develop safe and effective physical activity programmes to optimise the health-related fitness of clients.

What will I experience?

On this course you can:

Obtain lab-based and field skills, as well as the ability to communicate with clients in a professional and approachable style.

Gain Register of Exercise Professionals endorsed vocational qualifications in clinical exercise, including exercise referral, cardiac disease, chronic respiratory diseases, stroke, cancer and falls prevention which are essential requirements should you wish to pursue a career as a clinical specialist exercise instructor.

Work with clinicians providing exercise in the management of a range of long term conditions

What opportunities might it lead to?

The programme provides an opportunity to work toward ACSM Clinical Exercise Physiologist certification and units aligned to National Occupation Standards for Health and Fitness.

Here are some routes our graduates have pursued:

Health and wellbeing physiologist

Bariatric exercise physiologist

NHS trainee clinical scientist

Health advisor

Clinical Exercise Physiologist

Exercise Referral Coordinator

Exercise Therapist

PhD Research

Module Details

The modular programme is offered in two formats: Full-time (12 months) and Part-time (24 months). The course includes 120 credits of taught units and a 60 credit Project. It is also possible to study parts of this course for CPD purposes, such as a single unit (30 credits) or top up a related Postgraduate Diploma to a full MSc.

The units contain vocational elements relevant for providing personalised exercise training for a range of medical conditions, including classroom, exercise laboratory and placement learning. The MSc Clinical Exercise Project unit prepares you for your independent project, where you will plan and implement a service evaluation, research project or enterprise & innovation project in the area of clinical exercise.

Teaching takes place on Thursdays, Fridays and some Saturdays, so attendance on selected weekends is necessary for the vocational training included in some of the units. Placements take place in areas such as Southampton, Winchester, Portsmouth and Chichester and are scheduled according to placement provider requirements during the week. Each unit is generally taught over a three week block, however cardiac rehabilitation requires a longer study period.

The core unit you will study is:

MSc Clinical Exercise Project (60 credits)

Optional units to choose include 120 credits from:

Exercise for Cardiac Rehabilitation (30 credits)

Exercise for Chronic Respiratory Diseases (30 credits)

Exercise and Cancer Care (30 credits)

Exercise and Fitness after Stroke (30 credits)

Exercise for Falls Prevention (30 credits)

Paediatric Exercise Science and Medicine (30 credits)

Programme Assessment

The delivery format for the course is largely based around seminar, practical, workshop and placement learning to integrate theory into practical sessions. Teaching sessions will include vocational training, seminar and exercise laboratory work, led by leading practitioners in the area of clinical exercise. You will be provided with a personal tutor to assist with academic and pastoral issues.

The course has a problem-based learning approach and you will be assessed in a variety of ways with a focus on self-reflection and initiative and problem-based assignments. Here’s how we assess you:

Vocational training (MCQ and case study)

Practical assessment

Applied essays

Case studies

Project report

Poster presentation

Student Destinations

We have strong links with National Health Service partners in the Wessex region and professional training providers in exercise, such as the American College of Sports Medicine and the Register of Exercise Professionals. Graduates of this course possess qualifications to provide exercise in cardiac rehabilitation, pulmonary rehabilitation, exercise after cancer, exercise after stroke or exercise for falls prevention provided by leading vocational clinical exercise training providers. Having such a skills-set is important for being employable as an exercise physiologist in diverse multi-disciplinary teams, whilst also presenting the opportunity to work as an exercise entrepreneur as your own exercise service manager.

Roles our graduates have taken on include

Exercise referral coordinator

NHS trainee clinical scientist

Health advisor

Cardiopulmonary exercise physiologist

Health and wellbeing physiologist

Bariatric exercise physiologist

NHS physical activities advisor

Private exercise physiologist



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The increasing impact of genetics in healthcare and the development of newer sophisticated technologies requires close collaboration between research scientists, clinical laboratory scientists and clinicians to deliver a high quality service to patients. Read more
The increasing impact of genetics in healthcare and the development of newer sophisticated technologies requires close collaboration between research scientists, clinical laboratory scientists and clinicians to deliver a high quality service to patients. The Clinical Genetics MSc has a specific focus on delivery of the clinical service to patients including risk analysis and application of modern genetic and genomic technologies in medical genetics research and in diagnostics and population screening.

● This is a fully up-to-date Clinical Genetics degree delivered by dedicated, multi-award-winning teaching and clinical staff of the University, with considerable input from hospital-based Regional Genetics Service clinicians and clinical scientists.
● The full spectrum of genetic services is represented, from patient and family counselling to diagnostic testing of individuals and screening of entire populations for genetic conditions: eg the NHS prenatal and newborn screening programmes.
● The Clinical Genetics MSc Teaching Staff won the 2014 UK-wide Prospects Postgraduate Awards for the category of Best Postgraduate Teaching Team (Science, Technology & Engineering). These awards recognise and reward excellence and good practice in postgraduate education.
● The close collaboration between university and hospital staff ensures that the Clinical Genetics MSc provides a completely up-to-date representation of the practice of medical genetics and you will have the opportunity to observe during clinics at the new Queen Elizabeth University Hospital laboratory medicine building.
● The Clinical Genetics degree explores the effects of mutations and variants as well as the theoretically basis of current techniques used in NHS genetics laboratory diagnostics and recent developments in diagnostics (including microarray analysis and the use of massively parallel [“next-generation”] sequencing).
● New developments in genetics are incorporated into the lectures and interactive teaching sessions very soon after they are presented at international meetings or published, and you will gain hands-on experience and guidance in using software and online resources for genetic diagnosis and for the evaluation of pathogenesis of DNA sequence variants.
● You will develop your skills in problem solving, evaluation and interpretation of genetic data, literature searches, scientific writing, oral presentations, poster presentations and team working.
● This MSc programme will lay the academic foundations on which some students with prior MBChB or MBBS may build in pursuing careers in Clinical Genetics.
● The widely used textbook “Essential Medical Genetics” is co-authored by a member of the core teaching team, Professor Edward Tobias.
● For doctors: The Joint Royal Colleges of Physicians’ Training Board (JRCPTB) in the UK recognises the MSc in Clinical Genetics (which was established in 1984) as counting for six months of the higher specialist training in Clinical Genetics.

Programme Structure

Genetic Disease and Clinical Practice

This course is designed in collaboration with the West of Scotland Regional Genetics Service to give students a working knowledge of the principles and practice of Clinical Genetics and Genomics which will allow them to evaluate, choose and interpret appropriate genetic investigations for individuals and families with genetic disease. The link from genotype to phenotype, will be explored, with consideration of how this knowledge might contribute to new therapeutic approaches.

Distress or Disorder: Reactions to a medical diagnosis

This course outlines the process of psychosocial adjustment to a diagnosis or test result allowing participants to establish if and when a distress reaction develops into an adjustment disorder. The implications of diagnosis are explored and evidence considered allowing informed decisions about appropriate referrals to other agencies.

Patient Empowerment: Supporting decisions relating to new diagnoses

This course reflects on evidence and experience to explore the psychological and social impact of a diagnosis, or illness, and provides strategies to support resilience and coping in patients. Factors related to lived experience, personal beliefs and values, culture, adjustment processes, decision-making, misconceptions, secrecy and guilt are considered to equip participants in the promotion of patient-centred care.

Effective listening and communication skills

With a focus on experiential learning and student led study, this course outlines the role of counselling skills to facilitate adjustment and to allow an individual to come to terms with change in a safe way to minimise impact. The focus will be on the theory supporting counselling, developing key listening and communication skills and on establishing reflective practice.

Case Investigations in Medical Genetics and Genomics

Students will work in groups to investigate complex clinical case scenarios: decide appropriate testing, analyse results from genetic tests, reach diagnoses where appropriate and, with reference to the literature, generate a concise and critical group report.

Clinical Genomics

This course will provide an overview of the clinical applications of genomic approaches to human disorders, particularly in relation to clinical genetics, discussion the methods and capabilities of the new technologies. Tuition and hands-on experience in data analysis will be provided, including the interpretation of next generation sequencing reports.

Disease Screening in Populations

This course will cover the rationale for, and requirements of, population screening programmes to detect individuals at high risk of particular conditions, who can then be offered diagnostic investigations. Students will work in groups to investigate and report on, a screening programme of their choice from any country.

Dissertation

The course will provide students with the opportunity to carry out an independent investigative project in the field of Medical Genetics and Genomics.

Teaching and Learning Methods

A variety of methods are used, including problem-based learning, case-based learning, lectures and tutorials. These are supplemented by a wide range of course-specific electronic resources for additional learning and self-assessment. As a result, you will develop a wide range of skills relevant to careers in clinical genetics. These skills include team-working and data interpretation. You will use the primary scientific literature as an information resource, although textbooks such as our own Essential Medical Genetics will also be useful. You will have the options of: attending genetic counselling clinics and gaining hands-on experience and guidance in using software and online resources for genetic diagnosis and for the evaluation of pathogenicity of DNA sequence variants.

Visit the website for more information http://www.gla.ac.uk/postgraduate/taught/clinicalgenetics/#/programmestructure

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This course teaches the academic and clinical skills you need to practise orthodontics. You’ll develop an evidence-based, critical approach to this specialism and to general clinical dentistry. Read more

About the course

This course teaches the academic and clinical skills you need to practise orthodontics. You’ll develop an evidence-based, critical approach to this specialism and to general clinical dentistry. A focus on research skills will give you the confidence to complete future clinical or laboratory-based research programmes.

The programme includes all the features of the first two years of the Curriculum and Specialist Training Programme in Orthodontics approved by the UK General Dental Council.

Your career

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

World-leading dental school

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

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

Facilities

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

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

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

Health clearance

If you’re starting a course that involves exposure to human blood or other body fluids and tissues, you must conform to the national guidelines for the protection of patients, health care workers and students. Before admission to a clinical course we’ll need to check that you’re not an infectious carrier of Hepatitis B, Hepatitis C or HIV and that you do not have tuberculosis. A positive test doesn’t necessarily exclude you from dental training.

Our immunisation requirements are constantly being reviewed to ensure we meet current Department of Health guidance. You need to comply with these if you are offered a place. You’ll get more information when you apply, but if you have any questions on health clearance issues, please get in touch.

Disclosure and Barring Service

If you apply for one of our clinical courses you’ll need a satisfactory Disclosure and Barring Service (DBS) Enhanced Disclosure. If you do have any criminal convictions or cautions (including verbal cautions) and bind-over orders, please tell us about them on your application form. If you have not lived in the UK in the preceding five years before you commence our programme, you’ll need to provide us with a Certificate of Good Standing from the police authority in your home country. You’ll get more information on the DBS and the Certificate of Good Standing when you apply.

Local NHS policies and procedures

Clinical training in Charles Clifford Dental Hospital requires you to comply with their policies and procedures, which include the Department of Health policy on being ‘bare below the elbow’. For clarification on these policies and procedures before you apply, please see our website.

Core modules for both programmes

Principles of Clinical Orthodontics I; Principles of Clinical Orthodontics II; Research Methods in Clinical Dentistry; Principles of Clinical Management; Introduction to Statistics and Critical Appraisal; Orthodontic Case Studies and Dissertation.

Additional core modules for DClinDent Orthodontics

Clinical Orthodontic Practice Programmes I, II, and III; Systematic Reviews and Evidence Synthesis Principles; Research Project Literature Review; Orthodontic Thesis.

Teaching

Lectures, tutorials, seminars, online learning, demonstrations, clinical sessions, laboratory and typodont exercises. Working with a number of patients, you’ll get extensive practical clinical experience in the use of fixed, removable and functional appliances.

Assessment

Continuous assessment, final examination with clinical and academic components, dissertation based on research project, presentation of selected patient records.

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Programme Aims. Read more

Programme Aims

This award is offered within the Postgraduate Scheme in Health Technology, which aims to provide professionals in Medical Imaging, Radiotherapy, Medical Laboratory Science, Health Technology, as well as others interested in health technology, with an opportunity to develop advanced levels of knowledge and skills.

The award in Medical Imaging and Radiation Science (MIRS) is specially designed for professionals in medical imaging and radiotherapy and has the following aims.

A. Advancement in Knowledge and Skill

  • ​To provide professionals in Medical Imaging and Radiotherapy, as well as others interested in health technology, with the opportunity to develop advanced levels of knowledge and skills;
  • To develop specialists in their respective professional disciplines and enhance their career paths;
  • To broaden students' exposure to a wider field of health science and technology to enable them to cope with the ever-changing demands of work;
  • To provide a laboratory environment for testing problems encountered at work;
  • To equip students with an advanced knowledge base in a chosen area of specialisation in medical imaging or radiotherapy to enable them to meet the changing needs of their disciplines and contribute to the development of medical imaging or radiation oncology practice in Hong Kong; and
  • To develop critical and analytical abilities and skills in the areas of specialisation that are relevant to the professional discipline to improve professional competence.

B. Professional Development

  • ​To develop students' ability in critical analysis and evaluation in their professional practices;
  • To cultivate within healthcare professionals the qualities and attributes that are expected of them;
  • To acquire a higher level of awareness and reflection within the profession and the healthcare industry to improve the quality of healthcare services; and
  • To develop students' ability to assume a managerial level of practice.

C. Evidence-based Practice

  • ​To equip students with the necessary skill in research to enable them to perform evidence-based practice in the delivery of healthcare service and industry.

D. Personal Development

  • ​To provide channels through which practising professionals can continuously develop themselves while at work; and
  • To allow graduates to develop themselves further after graduation.

Characteristics

The Medical Imaging and Radiation Science award offers channels for specialisation and the broadening of knowledge for professionals in medical imaging and radiotherapy. It will appeal to students who are eager to become specialists or managers in their areas of practice. Clinical experience and practice in medical imaging and radiotherapy are integrated into the curriculum to encourage more reflective observation and active experimentation.

Programme Structure

To be eligible for the MSc in Medical Imaging and Radiation Science (MScMIRS), students are required to complete 30 credits:

  • 2 Compulsory Subjects (6 credits)
  • 3 Core Subjects (9 credits)
  • 5 Elective Subjects (15 credits)

Apart from the award of MScMIRS, students can choose to graduate with one of the following specialisms:

  • MSc in Medical Imaging and Radiation Science (Computed Tomography)
  • MSc in Medical Imaging and Radiation Science (Magnetic Resonance Imaging)
  • MSc in Medical Imaging and Radiation Science (Ultrasonography)

To be eligible for the specialism concerned, students should complete 2 Compulsory Subjects (6 credits), a Dissertation (9 credits) related to that specialism, a specialism-related Specialty Subject (3 credits), a Clinical Practicum (3 credits) and 3 Elective Subjects (9 credits).

 Compulsory Subjects

  • Research Methods & Biostatistics
  • ​Multiplanar Anatomy

Core Subjects

  • Advanced Radiotherapy Planning & Dosimetry
  • Advanced Radiation Protection
  • Advanced Technology & Clinical Application in Computed Tomography *
  • Advanced Technology & Clinical Application in Magnetic Resonance Imaging *
  • Advanced Technology & Clinical Application in Nuclear Medicine Imaging
  • Advanced Topics in Health Technology
  • Advanced Ultrasonography *
  • Clinical Practicum (CT/MRI/US)
  • Dissertation
  • Digital Imaging & PACS
  • Imaging Pathology

 * Specialty Subject

Elective Subjects

  • Bioinformatics in Health Sciences
  • Professional Development in Infection Control Practice


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This course teaches the academic and clinical skills you need to practise paediatric dentistry. You’ll develop an evidence-based and critical approach to this specialism and to general clinical dentistry. Read more

About the course

This course teaches the academic and clinical skills you need to practise paediatric dentistry. You’ll develop an evidence-based and critical approach to this specialism and to general clinical dentistry. A focus on research skills will give you the confidence to complete future clinical or laboratory-based research programmes.

Your career

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

World-leading dental school

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

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

Facilities

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

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

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

Health clearance

If you’re starting a course that involves exposure to human blood or other body fluids and tissues, you must conform to the national guidelines for the protection of patients, health care workers and students. Before admission to a clinical course we’ll need to check that you’re not an infectious carrier of Hepatitis B, Hepatitis C or HIV and that you do not have tuberculosis. A positive test doesn’t necessarily exclude you from dental training.

Our immunisation requirements are constantly being reviewed to ensure we meet current Department of Health guidance. You need to comply with these if you are offered a place. You’ll get more information when you apply, but if you have any questions on health clearance issues, please get in touch.

Disclosure and Barring Service

If you apply for one of our clinical courses you’ll need a satisfactory Disclosure and Barring Service (DBS) Enhanced Disclosure. If you do have any criminal convictions or cautions (including verbal cautions) and bind-over orders, please tell us about them on your application form. If you have not lived in the UK in the preceding five years before you commence our programme, you’ll need to provide us with a Certificate of Good Standing from the police authority in your home country. You’ll get more information on the DBS and the Certificate of Good Standing when you apply.

Local NHS policies and procedures

Clinical training in Charles Clifford Dental Hospital requires you to comply with their policies and procedures, which include the Department of Health policy on being ‘bare below the elbow’. For clarification on these policies and procedures before you apply, please see our website.

Core modules

Research Methods in Clinical Dentistry; Principles of Clinical Management; Current Concepts in Clinical Dentistry; Dental Public Health: foundations and theory; Principles of Clinical Paediatric Dentistry I; Principles of Clinical Paediatric Dentistry II; Paediatric Dentistry Case Studies; Dissertation.

Teaching

Clinical sessions, tutorials, demonstrations. You’ll be allocated a number of patients for practical clinical experience. Parts of the course are taught with other disciplines. This creates a rich and lively environment for your learning.

Assessment

Continuous assessment, final examination with clinical and academic components, dissertation based on a research project, presentation of selected patients.

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