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Biological Sciences×

University of Nottingham, Full Time Masters Degrees in Biological Sciences

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This a one year (academic) full time course which, upon completion of a course of study leads to an M.Med.Sci Degree in Assisted Reproduction Technology. Read more

Overview

This a one year (academic) full time course which, upon completion of a course of study leads to an M.Med.Sci Degree in Assisted Reproduction Technology. This course provides an avenue for both scientists and clinicians to enter the field of reproductive biology; and for those already familiar with this area, an opportunity to gain greater appreciation of the biological processes of mammalian reproduction that are relevant to the manipulation of fertility and the treatment of reproductive disease.

The course was established in 1993, making it the longest running taught masters in the UK providing full-time training in human ART, and aims to furnish graduates with the theoretical and practical training within this highly specialised discipline. Designed to broaden knowledge of the underlying scientific principles and to enhance appreciation of the clinical management of infertility, it aims to encourage independent thought and a research oriented approach to the practice of assisted conception.

A major feature and strength of this course is that the primary components, in terms of reproductive physiology, research methods, clinical embryology, and clinical medicine are all provided by experts who are highly active within their own areas of expertise, giving the information provided to the students an immediacy and relevance that it would be impossible to achieve using a more static and established teaching base.

The course is studied over a period of one year, full time, and has three basic components:
1) Theoretical and Practical Training modules (95 Credits)
2) Development of Research and Presentation skills and Observation (25 Credits)
3) Research project & dissertation (60 Credits)

Delivery method

The taught component of the course is delivered in the Autumn and Spring semesters through a combination of lectures, practicals, seminars, tutorials and other associated activities, such as journal club and guest speakers.

Approximately one third of the total course duration is dedicated to the construction, preparation and investigation of a laboratory-based research project of up to 15,000 words. This is written up in thesis presentation form.

IMPORTANT NOTE

ALL applicants, especially those from a predominantly clinical background, please note:

• This is a laboratory-based, science degree course and not a clinically based infertility treatment course.
• There is no direct contact with patients or tuition in gynaecological/surgical procedures.
• That although training is given in all laboratory aspects of assisted conception (including semen evaluation, IVF, IVM, ICSI and cryopreservation) in the time available, this training can only represent an introduction to these techniques and those graduates wishing to become clinical embryologists will need further training to become competent in those highly specialised techniques.

Course aims

• To encourage independent thought and a research oriented approach to the practice of assisted conception
• To provide theoretical and practical training in Assisted Reproduction Technology
• To broaden the students knowledge of the underlying scientific basis of ART and clinical management of infertility
• To equip graduates with the ability to pursue a career in assisted conception (e.g. clinical embryology, infertility treatment) and/or research in reproductive biology

Course objectives

• To provide successful candidates with a career path within one of the many disciplines that encompass modern assisted reproduction technology and to this end, students are taught by and given the opportunity to interact with, both full-time reproductive biologists and the consultants, clinical embryologists, andrologists and counsellors.

Requirements

Candidates must normally be graduates of an approved university, or other institution of higher education in medicine, nursing or the biological sciences. Normally the minimum requirement for entry is a 2(ii) degree or equivalent, although candidates with a third class degree may be considered at the Course Directors discretion in special circumstances. If you are not sure if you qualify, please do not hesitate to contact the Course Administrator

Candidates will be required to follow a prescribed course of study for one academic year (two 15-week semesters and summer period)

All candidates will be required to undertake a theoretical and practical training programme. Candidates will also be required to submit a dissertation of not more that 15,000 words on a topic relating to an aspect of Assisted Reproduction agreed by the Director of the Course.

English Language Requirements

International students whose first language is not English must achieve an appropriate level in an approved test in English before they can register.

The requirements for this course are above the University minimum standards and are as follows:

• IELTS minimum score of 6.5 (with no less than 6.0 in any element)
or
• TOEFL iBT 87 (minimum 19 in listening, 20 in speaking and 21 in reading and writing)

Examinations should be taken within two years of registering to study at Nottingham. Completion of a previous degree studied in the English language does not exempt applicants from requiring one of the above English qualifications, unless the degree was taken in a country where the first language is English.

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This course is aimed at BSc graduates in Biological Sciences (or related subjects) to allow them to specialise in Nutrition. Read more
This course is aimed at BSc graduates in Biological Sciences (or related subjects) to allow them to specialise in Nutrition. It offers students an in-depth education in human nutrition covering the underlying principles and evidence base, defining concepts, theories and methods, and the current knowledge and development of the subject, within a research-led environment.
Students will develop a confident, scientific approach to answering questions through theoretical analysis, formulation of hypotheses, practical experimentation, data analysis and communication of results.

The course aims to cover:

•The principles of nutrition including the sources and functions of macro- and micronutrients, energetics and metabolism.
•A range of methods for acquiring and interpreting biological and epidemiological information.
•The role of diet in the causation and prevention of disease and the promotion of health.
•The latest trends and developments within nutrition and of philosophical and ethical issues associated with those trends.
•The fundamental interdisciplinary information which underpins the discipline of human nutrition.

Each student will carry out a primary research project in an area of interest related to nutritional sciences.

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This course offers advanced training for biological, chemical and physical scientists (pure and applied) for careers in the pharmaceutical, food/nutrition, health-care, biomedical, oil and other important industries or as a basis for entry to MRes or PhD. Read more
This course offers advanced training for biological, chemical and physical scientists (pure and applied) for careers in the pharmaceutical, food/nutrition, health-care, biomedical, oil and other important industries or as a basis for entry to MRes or PhD.

Biomolecular Technology underpins the production of drug delivery systems, the making of healthier food products, the design of health-care products, the making of antisera and vaccines - and even the efficient extraction of oil from the harsh environment of a deep well: these are among the biotechnology processes which depend in fundamental terms on our ability to handle giant molecular complexes of living origin. Furthermore, molecular biologists and chemists are now increasingly able to ‘engineer’ new types of proteins and complexes over and beyond those which 3 billion years of evolution have provided.

Industry needs skilled personnel capable of understanding how these molecules may be used in an industrial context and the processes of gene cloning and protein engineering.

It is taught by the School of Biosciences in conjunction with the University's Schools of Pharmacy, Biomedical Sciences and Clinical Sciences and The School of Biosciences at the University of Leicester. Experts from local and national industry also contribute, ensuring access to the latest developments in the field.

A 3 month industrial placement module offers an exciting opportunity to discover first hand the needs of modern industry and provides advanced training for employment and further academic studies.
By suitable arrangement non-UK students can do this in their normal country of residence.

Applicants should hold first degrees at honours level in any Biological, Chemical or Physical Science subject (e.g. Biochemistry, Chemistry, Pharmacy, Genetics, Food Sciences, Plant Sciences, Physics). Suitably motivated candidates with Engineering or Mathematics degrees will also be considered.

A number of scholarships and European bursaries may be available.

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The molecular approach to studying biological systems has underpinned huge advances in knowledge and promises much for the future in the understanding and application of biological principles. Read more
The molecular approach to studying biological systems has underpinned huge advances in knowledge and promises much for the future in the understanding and application of biological principles. At Nottingham we are using molecular approaches to study a wide range of model as well as innovative biological systems. Currently projects are available in research groupings that are investigating eukaryotic gene expression and vertebrate embryogenesis, including aspects of the development of the nervous system, germ cells and stem cell maturation, and the behaviour of cellular systems with respect to the many interactions of macromolecules within cells and their membranes. In addition there are projects to study in microbes the systems responsible for maintaining genome integrity and securing accurate chromosome transmission in bacteria, archaea and yeast, as well as the basis of bacterial motility. There are also projects concerned with the biology of fungi in relation to their stress responses and to their interactions with their environment in general, as well as with the use of fungi as cell factories for the production of proteins and pharmaceuticals. Finally there are projects in research groups studying ion channels, receptor-mediated carcinogenesis and ecotoxicology that use natural and synthetic toxins to dissect the properties of signalling molecules in nervous and muscle tissues and employ cutting-edge techniques to understand the molecular mechanisms underlying the actions of toxins and the mechanisms of disease.

APPLICATION PROCEDURES
After identifying which Masters you wish to pursue please complete an on-line application form
https://pgapps.nottingham.ac.uk/
Mark clearly on this form your choice of course title, give a brief outline of your proposed research and follow the automated prompts to provide documentation. Once the School has your application and accompanying documents (eg referees reports, transcripts/certificates) your application will be matched to an appropriate academic supervisor and considered for an offer of admission.

COURSE STRUCTURE
The MRes degree course consists of two elements:
160 credits of assessed work. The assessed work will normally be based entirely on a research project and will be the equivalent of around 10 ½ months full-time research work. AND
20 credits of non-assessed generic training. Credits can be accumulated from any of the courses offered by the Graduate School. http://www.nottingham.ac.uk/gradschool/research-training/index.phtml The generic courses should be chosen by the student in consultation with the supervisor(s).

ASSESSMENT
The research project will normally be assessed by a dissertation of a maximum of 30,000 to 35,000 words, or equivalent as appropriate*. The examiners may if they so wish require the student to attend a viva.
*In consultation with the supervisor it maybe possible for students to elect to do a shorter research project and take a maximum of 40 credits of assessed modules.

The School of Life Sciences will provide each postgraduate research student with a laptop for their exclusive use for the duration of their studies in the School.

SCHOLARSHIPS FOR INTERNATIONAL STUDENTS
http://www.nottingham.ac.uk/studywithus/international-applicants/scholarships-fees-and-finance/scholarships/masters-scholarships.aspx

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The biggest modern breakthrough for cancer treatment has been antibody therapies. An increasing number of biotechnology companies have antibody - or vaccine-based cancer therapies in development. Read more

Overview

The biggest modern breakthrough for cancer treatment has been antibody therapies. An increasing number of biotechnology companies have antibody - or vaccine-based cancer therapies in development. This course aims to attract students interested in tumour immunology who wish to pursue a career either in industry (biotechnology) or academia.

The course covers both antibody and vaccine cancer therapies and explores the immunology of the tumour host interface. In addition, students will learn about intellectual property and how to exploit scientific research in scientific writings, patents and in development of business plans applicable to the biotechnology industry. To gain practical experience in research students will carry out a research project in the field of tumour immunology.

Aims and objectives

- Acquire a specialised knowledge in tumour immunology with particular reference to monoclonal antibody and cancer vaccines
- Develop the critical and analytical power to evaluate scientific literature
- Perform a scientific research project
- Acquire the ability to communicate scientific results orally and in writing
- Learn about business exploitation of cancer therapy

Innovative features of the course

- The only MSc course based entirely on tumour immunology
- Students undertake a substantial research project, during which time they acquire a considerable amount of laboratory-based skills
- A module based entirely on scientific writing and the development of a business plan
- Individuals from industry lecture on the course
- It is suitable for graduates in Life Sciences, Biomedical Sciences and allied subjects and also for people already in suitable employment who wish to improve and update their knowledge and experience
- It attracts students from the UK and worldwide

Student opinions

"I really enjoyed the course. At first I thought it might be too much of a challenge for me to catch up with everyone because I did not do much molecular science, but the lecturers and staff were really helpful. They made sure everyone was on the same level and there was always someone with whom you could speak if you had any problems. Let's just say they are always there if you need help.

The course also focused on the business side as well, which was a nice change. We were also given lectures by people from the industry. All in all, I would have no hesitation in recommending this course to anyone seeking to develop their scientific knowledge, skills and enhance their career prospects."

"The course prepared me for the cut-throat business of securing research funding, patents and the enormous opportunities available in this new and fascinating field.

Nottingham is a wonderful place to study with excellent academic support and several postgraduate social events throughout the year. I thoroughly enjoyed my one year here."

Comments from potential employers (biotechnology companies)

"This subject is currently undergoing massive expansion and yet qualified graduates are difficult to find. The industry as a whole would benefit from having a source of students with this qualification and from our point of view, such a course may provide candidates that are potentially useful to our company."

"A course in cancer immunotherapy would provide valuable training for people wanting to seek a career in the biopharmaceutical industry where much of the research and development effort is focussed on targeted biological therapies for cancer."

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Research projects are available in the field of Molecular Cell Biology that include; the analysis of structure, function and dynamics of telomeres in yeast… Read more
Research projects are available in the field of Molecular Cell Biology that include; the analysis of structure, function and dynamics of telomeres in yeast and parasites, and of centromeric DNA in mammalian cells; investigation of stress-response networks in the nematode Caenorhabditis elegans and of micro RNAs during the evolution of developmental processes in Drosophila; establishment of the relationship between nuclear structure and function using the giant nuclei of amphibian oocytes; analysis of biological membranes, biomaterials and biophysical aspects of cellular interactions as well as filopodia, lamellipodia and stress fiber formation; investigation of blood substitutes from microbial cell factories and of artificial gas-carrying fluids for enhancing growth of cells in culture.

APPLICATION PROCEDURES

After identifying which Masters you wish to pursue please complete an on-line application form
https://pgapps.nottingham.ac.uk/
Mark clearly on this form your choice of course title, give a brief outline of your proposed research and follow the automated prompts to provide documentation. Once the School has your application and accompanying documents (eg referees reports, transcripts/certificates) your application will be matched to an appropriate academic supervisor and considered for an offer of admission.

COURSE STRUCTURE
The MRes degree course consists of two elements:
160 credits of assessed work. The assessed work will normally be based entirely on a research project and will be the equivalent of around 10 ½ months full-time research work. AND
20 credits of non-assessed generic training. Credits can be accumulated from any of the courses offered by the Graduate School. http://www.nottingham.ac.uk/gradschool/research-training/index.phtml The generic courses should be chosen by the student in consultation with the supervisor(s).

ASSESSMENT
The research project will normally be assessed by a dissertation of a maximum of 30,000 to 35,000 words, or equivalent as appropriate*. The examiners may if they so wish require the student to attend a viva.
*In consultation with the supervisor it maybe possible for students to elect to do a shorter research project and take a maximum of 40 credits of assessed modules.

The School of Life Sciences will provide each postgraduate research student with a laptop for their exclusive use for the duration of their studies in the School.

SCHOLARSHIPS FOR INTERNATIONAL STUDENTS
http://www.nottingham.ac.uk/studywithus/international-applicants/scholarships-fees-and-finance/scholarships/masters-scholarships.aspx

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Research projects in this area will centre on adaptive decision-making in animals in a range of contexts, including (a) trade-offs between social and sexual… Read more
Research projects in this area will centre on adaptive decision-making in animals in a range of contexts, including (a) trade-offs between social and sexual behaviour, learning and other components of life history, such as immune function and disease resistance, (b) associative and higher order learning in invertebrates, (c) effects of genetic differences in social behaviour on population dynamics in nematodes, (d) the evolution of insect pollinator systems.

APPLICATION PROCEDURES

After identifying which Masters you wish to pursue please complete an on-line application form
http://www.nottingham.ac.uk/pgstudy/apply/apply-online.aspx

Mark clearly on this form your choice of course title, give a brief outline of your proposed research and follow the automated prompts to provide documentation. Once the School has your application and accompanying documents (eg referees reports, transcripts/certificates) your application will be matched to an appropriate academic supervisor and considered for an offer of admission.

COURSE STRUCTURE
The MRes degree course consists of two elements:
160 credits of assessed work. The assessed work will normally be based entirely on a research project and will be the equivalent of around 10 ½ months full-time research work. AND
20 credits of non-assessed generic training. Credits can be accumulated from any of the courses offered by the Graduate School. http://www.nottingham.ac.uk/gradschool/research-training/index.phtml The generic courses should be chosen by the student in consultation with the supervisor(s).

ASSESSMENT
The research project will normally be assessed by a dissertation of a maximum of 30,000 to 35,000 words, or equivalent as appropriate*. The examiners may if they so wish require the student to attend a viva.
*In consultation with the supervisor it maybe possible for students to elect to do a shorter research project and take a maximum of 40 credits of assessed modules.

The School of Life Sciences will provide each postgraduate research student with a laptop for their exclusive use for the duration of their studies in the School.

SCHOLARSHIPS FOR INTERNATIONAL STUDENTS
http://www.nottingham.ac.uk/studywithus/international-applicants/scholarships-fees-and-finance/scholarships/masters-scholarships.aspx

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The MRes in Bioinformatics involves the use of computational methods to study molecular evolution using sequence data now available in online databases. Read more
The MRes in Bioinformatics involves the use of computational methods to study molecular evolution using sequence data now available in online databases. Research areas within which projects are available include: the use of secondary structure models to investigate evolutionary relationships in the molluscs; evolution of mobile DNAs; studies on the evolution of spider silk gene families; the application of molecular clocks to microbial sequences, in particular the investigation of rate variation in foraminifera lineages and the estimation of the age of viral radiations.

APPLICATION PROCEDURES

After identifying which Masters you wish to pursue please complete an on-line application form
http://www.nottingham.ac.uk/pgstudy/apply/apply-online.aspx

Mark clearly on this form your choice of course title, give a brief outline of your proposed research and follow the automated prompts to provide documentation. Once the School has your application and accompanying documents (eg referees reports, transcripts/certificates) your application will be matched to an appropriate academic supervisor and considered for an offer of admission.

COURSE STRUCTURE
The MRes degree course consists of two elements:
160 credits of assessed work. The assessed work will normally be based entirely on a research project and will be the equivalent of around 10 ½ months full-time research work. AND
20 credits of non-assessed generic training. Credits can be accumulated from any of the courses offered by the Graduate School. http://www.nottingham.ac.uk/gradschool/research-training/index.phtml The generic courses should be chosen by the student in consultation with the supervisor(s).

ASSESSMENT
The research project will normally be assessed by a dissertation of a maximum of 30,000 to 35,000 words, or equivalent as appropriate*. The examiners may if they so wish require the student to attend a viva.
*In consultation with the supervisor it maybe possible for students to elect to do a shorter research project and take a maximum of 40 credits of assessed modules.

The School of Life Sciences will provide each postgraduate research student with a laptop for their exclusive use for the duration of their studies in the School.

SCHOLARSHIPS FOR INTERNATIONAL STUDENTS
http://www.nottingham.ac.uk/studywithus/international-applicants/scholarships-fees-and-finance/scholarships/masters-scholarships.aspx

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An international leader in research, the School of Chemistry offers an exciting programme aimed at students who wish to focus primarily on undertaking a research-based masters-level qualification. Read more
An international leader in research, the School of Chemistry offers an exciting programme aimed at students who wish to focus primarily on undertaking a research-based masters-level qualification. This one year course is designed for those students wishing to develop their chemistry research skills.

The programme is ideal for students who wish to experience what it is like to do a PhD without the requirement to undertake three years of study. Students receive close support and guidance from two academic supervisors within the school. Supervisors meet regularly with students, making sure that they are fully involved in the school's leading research community.
The School of Chemistry's research portfolio covers inorganic and materials, organic and biological, and physical and theoretical chemistry, and their interfaces with physics, biology, biomedical sciences, materials, nanosciences and engineering. 85% of its research was rated as internationally excellent or world-leading in the latest Research Assessment Exercise, placing the school second in the national rankings.

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

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

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

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

Autumn Semester:

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

Spring Semester:

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

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This exciting new programme offers specialisms in plant, microbial and animal biotechnology. The overarching theme is based on understanding the cellular mechanisms, manipulations of biological systems and production processes. Read more
This exciting new programme offers specialisms in plant, microbial and animal biotechnology. The overarching theme is based on understanding the cellular mechanisms, manipulations of biological systems and production processes. You will be introduced to state of the art technologies in biotechnology and have the opportunity to find out more about current opportunities in this field of science with visits to industry and career workshops.

A key feature of the course is a three months research project in your chosen pathway, with the majority of projects based in relevant industries.

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The MSc Clinical and Molecular Microbiology course is ideal for biomedical scientists pursing a career in diagnostic medicine, or students wishing to enter a research career and gain high-level skills in molecular medical microbiology. Read more
The MSc Clinical and Molecular Microbiology course is ideal for biomedical scientists pursing a career in diagnostic medicine, or students wishing to enter a research career and gain high-level skills in molecular medical microbiology.

The course aims to provide training in theoretical and practical aspects of medical microbiology with a focus on clinical methods for diagnosis and patient management and molecular biological techniques in research and diagnostic labs. You will gain basic and advanced knowledge of important viral, bacterial and parasitic infections and how these infections are diagnosed and treated in the clinic.

The course has full accreditation of the Institute of Biomedical Science (IBMS), which is a professional acknowledgement of the quality and relevance of the course to individuals employed as biomedical scientists. It helps career progression of biomedical scientists already employed and state registered, allowing those BMS1 technical officers to apply for promotion and higher grades.

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This course has been designed to provide you with training in the theoretical and practical aspects of modern immunology, with some emphasis on allergy. Read more
This course has been designed to provide you with training in the theoretical and practical aspects of modern immunology, with some emphasis on allergy. It is the only course of its kind in the UK.

It is particularly suitable for graduates in life sciences, biomedical sciences and allied subjects, as well as people who are already employed in related fields who wish to update their knowledge and gain valuable research experience.

This course has been designed to enable students to:

Acquire skills & advanced knowledge in Immunology & Allergy

Appreciate the contribution of immunological mechanisms to a wide range of disease processes, as a basis for developing new diagnostic and therapeutic strategies.

Carry out critical evaluation of newly published scientific papers and develop the ability to report and interpret results.

Study in greater depth one aspect of Immunology & Allergy by conducting a research project and completing a dissertation.

95% of the School of Life Sciences research was deemed to be of international quality according to the Research Excellence Framework 2014.

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This MSc will provide you with the knowledge and skills to manage sports injuries and illness and to explore the relationship between physical activity and health. Read more

Overview

This MSc will provide you with the knowledge and skills to manage sports injuries and illness and to explore the relationship between physical activity and health.

The clinical SEM course is aimed at doctors, physiotherapists and allied professionals with a strong musculoskeletal clinical background. We feel strongly that the range of backgrounds of the students provides students with a rounded education, drawing on the wide ranging clinical experience and different expertise of the students and lecturers.

Key facts

Clinical exposure - The MSc offers students the opportunity to sit in Sports Medicine clinics with consultant SEM doctors and physiotherapists. In these clinics the student will have exposure to all sections of the community, children, recreational athletes, elite athletes and the elderly. The student will see a wide ranging spectrum of musculoskeletal problems and first hand investigation and treatment.

Face to face teaching - One of the strengths of the Nottingham MSc is the face to face teaching that take place. This allows students real time interaction with clinicians, scientists and lecturers, enabling in depth exchange of knowledge and ideas. We believe that with this the student has a much greater understanding of the subject than with distance learning.

Pitch side exposure - Included in the fees is a Gold standard pitch side emergency care course (EMMiITS). This takes place at the beginning of the academic year and success in this course enables the student to undertake pitch side emergency care at the weekly BUCS matches. Students may wish to undertake a placement with a professional team and we will facilitate this whether ever possible.

Full and part-time option - As many of our students are practising professionals we have developed a range of study options to enable them to continue with their clinical practice whilst studying. The full time course is undertaken over one year. The part time course covers the same modules but can be taken over 2, 3, or 4 years.

Research projects - The research projects are a key strength of the course. Students are encouraged to undertake a project in a field of interest. However we acknowledge that not all students will be able to do this and we have a range of projects within the department that students can undertake, within both clinical SEM and also in nutrition and muscle physiology within the School of Life Sciences. International students have the opportunity to develop research and undertake research projects within their home country.

Course quality - The MSc has a faculty of excellent internal and external lecturers of all disciplines, all experts in their field. Many of the lecturers work at a national and international level in Sport and Exercise Medicine. Established in 1991, the MSc Sports and Exercise Medicine is one of the longest running SEM courses in the country and is constantly updated and improved. This successful programme is recognised nationally and internationally as one of the top sports and exercise medicine courses for the rounded sports medicine specialist.

This course is now delivered as part of the National Centre for Sport and Exercise Medicine – East Midlands (NCSEM-EM), which is a London 2012 legacy funded project aimed at improving the health and wellbeing of the nation.

Structure

The MSc Sports and Exercise Medicine can be taken full-time over one year or part-time over two to four years. As an MSc student, you will study a series of core modules in sports and exercise medicine, which includes research methods tutorials, in addition to the compulsory project and dissertation module. This is an exciting opportunity to undertake research on a subject related to sports and exercise medicine or exercise physiology under the supervision of an appropriate member of academic staff. There are also a wide variety of optional modules to meet your specific interests.

This course can also be taken as a Postgraduate Diploma (PGDip) by those who do not wish to complete a research project and dissertation. The PGDip can be taken full-time over 9 months or part-time over 18 months.

The syllabus is covered by lectures, seminars, sport placements, anatomy teaching in our dissection room, eLearning and practical sessions. The course includes a two-day programme in Emergency Medical Management in Individual and Team Sports (EMMiITS).

Compulsory Modules

Module A34614 - Sports Injury Anatomy (20 credits)

Module A34628 - Clinical Sports Injury (10 credits)

Module A34632 - Sports Injury Assessment (10 credits)

Module A34633 - Pitchside Care of the Injured Athlete (10 credits)

Module A34616 - Physical Activity in Health and Disease (20 credits)

Module A34621 - Research Methods (10 credits)

Module A34631 - Project and Dissertation: Sports and Exercise Medicine (60 credits)

Students can also choose modules totalling a further 40 credits from a selection of optional modules. Full details can be found online.

The modules we offer are inspired by the research interests of our staff and as a result may change for reasons of, for example, research developments or legislation changes. This list is an example of typical modules we offer, not a definitive list.

Assessment

Your work will be assessed by a number of methods including both written and practical examinations, oral presentations, essays, reflective portfolio as well as the dissertation.

Careers

On completion of the MSc course, our graduates become involved in a wide range of sport and exercise related activities from General Practice and consultants in Sports Medicine to the provision of medical care for professional athletes and teams.

Graduates have gone on to successful careers including the Head of Sports Medicine for the Rugby Football League, the Chief Medical Officer to the England and Wales Cricket Board, the Director of Training and Conditioning for the New York Knicks Basketball team, Lead Physiotherapist for the Indian Cricket team, league football club physiotherapists and county cricket club doctors and physiotherapists.

Other achievements include winning the Health Specialist of the Year award in Dubai 2014 and presentation at various conferences.

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Cancer is a subject which embraces an ever-widening range of disciplines. Read more

Overview

Cancer is a subject which embraces an ever-widening range of disciplines. The degree of Master of Science in Oncology is suitable both for scientists and other graduates who wish to learn more about the science as well as the practice of oncology, and for clinicians together with other health care professionals who require further training in the molecular aspects of oncology.

Course aims

The course aims to:

- provide formal training for basic scientists and clinicians in the theoretical and practical aspects of the causes and treatment of cancer
- through the project and dissertation, familiarise you with the research environment, and enable you to develop the skills necessary to undertake independent research

The MSc Oncology draws on a unique blend of clinical and scientific expertise and experience, and benefits from strong ties that exist between the clinic and laboratory within the Division of Oncology.

Two thirds of the course are taught with the remaining third being a research component. Laboratory research is compulsory for full time students.

Key facts

- The course has been running since 1997, and continues to provide up-to-date knowledge and training to its students.
- The course partly fulfils the syllabus requirements for clinicians studying to sit Part 1 FRCR exams. The syllabus also meets the curriculum requirements for Higher Specialist Training in Medical Oncology set out by the Joint Committee on Higher Medical Training. CME Credits are also available.
- The latest Research Assessment Exercise (RAE) confirmed The University of Nottingham's position as a world class research-led institution. Over 60 per cent of the University's RAE scores identified research as being of a level of international excellence
- This achievement has helped put Nottingham in the world’s top 75 universities according to The Newsweek World University Rankings
- The research carried out within Oncology is recognised at an international level

Student Opinions

"Overall very interesting and provides a solid background into the development, causes and treatment of cancer. A good stepping stone into further research and provides a good knowledge of cancer and general biology. I personally feel far more confident going into a PhD having done the course."

"Very worthwhile to have more lecture material on cancer and lab/research experience before starting a PhD. I probably wouldn't have got the PhD of my dreams if it wasn't for this course."

"Overall, the MSc in Oncology has been extremely interesting, incorporating many aspects within the field, all of which were relevant to the course from a scientific and clinical point of view."

"Individual lecturers/modules have been fantastic. The staff are enthusiastic, approachable and encourage asking questions. The research project has been very useful in terms of learning techniques and getting the chance to manage your own piece of mini research. The personal tutor system is good for career advice and general support through the course."

"The course is well organised, teaching materials are well provided and useful. Students are taken care of and the hospital visits are excellent."

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