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Engineering organisms and processes to generate the products of the future. Many everyday products are generated using biological processes. Read more

Engineering organisms and processes to generate the products of the future

Many everyday products are generated using biological processes. Foods such as bread, yoghurt and beer rely upon microscopic organisms to generate their structure and flavour. Many drugs are made using cells, such as insulin used to treat diabetes and many anticancer chemotherapy drugs. In the future, more products will be made using biological processes as they are typically ‘greener’ than traditional chemical processes – they are less energy intensive and generate fewer harmful chemical by-products. Biological processes are also responsible for many environmentally-friendly biofuels, which aim to reduce fossil fuel use.

Biological processes are key to many UK companies, from small contract manufacturers of protein and DNA drugs to large companies making fuels, commodity chemicals, foods and plastics. Biochemical engineering is an area that is essential to UK, European and Worldwide industrial development.

This is a highly multidisciplinary subject, requiring the integration of engineering and bioscience knowledge. If you are interested in pursuing a career in industrial biotechnology, biochemical engineering, biotechnology or bioprocessing, then this programme will provide you with the basic knowledge and skills required. Optional modules expand your horizons to include specific product areas (such as pharmaceuticals) and other skills required for a career in the area (such as business skills).

Birmingham is a friendly School which has one of the largest concentrations of chemical engineering expertise in the UK. The School is consistently in the top five chemical engineering schools for research in the country.

It has a first-class reputation in learning, teaching and research, and is highly placed in both The Guardian and The Times league tables. 

Course details

Biochemical Engineering concerns the use of biological organisms or processes by manufacturing industries. It is a multidisciplinary subject, requiring the integration of engineering and bioscience knowledge to design and implement processes used to manufacture a wide range of products; from novel therapeutics such as monoclonal antibodies for treating cancer, vaccines and hormones, to new environmentally-friendly biofuels. It is also essential in many other fields, such as the safe manufacture of food and drink and the removal of toxic compounds from the environment..

This course will provide you with the skills you need to start an exciting career in the bioprocess industries, or continue research in the area of bioprocessing or industrial biotechnology.

Industry involvement

Academics working at Birmingham have strong links with industry, through collaborative projects, so allow students to make contact with companies. Graduates from the MSc programme have gone on to careers in biochemical engineering world-wide, in large and small companies working in diverse areas.

There are also guest lectures from academics working at other institutions.

Practical experience

You will gain practical experience of working with industrially applicable systems, from fermentation at laboratory scale to 100 litre pilot scale, in the Biochemical Engineering laboratories. Theory learned in lectures will be applied in practical terms. In addition, theoretical aspects will be applied in design case studies in a number of modules.

All MSc students complete a summer research project, working on a piece of individual, novel research within one of the research groups in the school. These projects provide an ideal experience of life as a researcher, from design of experimental work, practical generation of data, analysis and communication of findings. Many students find this experience very useful in choosing the next steps in their career.

Special Features

The lecture courses are supplemented with tutorials, seminars and experimental work. Industrial visits and talks by speakers from industrial and service organisations are also included in the course programme.

Pilot Plant

The Biochemical Engineering building houses a pilot plant with large-scale fermentation and downstream processing equipment. The refurbished facility includes state-of-the-art computer-controlled bioreactors, downstream processing equipment and analytical instruments

Course structure

The MSc is a 12-month full-time advanced course, comprising lectures, laboratory work, short experimental projects and a research project. You will take an introductory module, four core modules, and then choose 50 credits of optional themed modules. The course can also be taken on a part-time basis. The Postgraduate Diploma (PGDip) lasts for 8 months from the end of September until June. 

For the first eight months you have lectures, tutorials and laboratory work. Core module topics include:

  • Fermentation and cell culture
  • Bioseparations
  • Process monitoring and control
  • Systems and synthetic biology approaches

There are numerous optional modules available across three themes: 

  • Biopharmaceutical development and manufacture
  • Food processing
  • Business skills for the process industries

From June to September you gain research training on your own project attached to one of the teams working in the bioprocessing research section.

Related links

Learning and teaching

The MSc is a 12-month full-time advanced course, comprising lectures, laboratory work, short experimental projects and a research project. You will take an introductory module, four core modules, and then choose 50 credits of optional themed modules. The course can also be taken on a part-time basis. The Postgraduate Diploma (PGDip) lasts for 8 months from the end of September until June.  

For the first eight months you have lectures, tutorials and laboratory work. Topics include:

  • Fermentation and cell culture
  • Bioseparations
  • Process monitoring and control
  • Systems and synthetic biology approaches
  • Biopharmaceutical development and manufacture

You also have practical experience of working in the newly-refurbished pilot plant of the Biochemical Engineering building

From June to September you gain research training on your own project attached to one of the teams working in the bioprocessing research section.



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The MPhil in Human Evolutionary Studies is a full-time interdisciplinary course, taken over a period of ten months, and involving teaching in evolutionary anthropology, human and hominin morphology, primate behaviour and evolution, archaeology and genetics. Read more
The MPhil in Human Evolutionary Studies is a full-time interdisciplinary course, taken over a period of ten months, and involving teaching in evolutionary anthropology, human and hominin morphology, primate behaviour and evolution, archaeology and genetics. The lecturers are primarily involved in research and teaching within the Division of Biological Anthropology, in the Department of Archaeology and Anthropology.

See the website http://www.graduate.study.cam.ac.uk/courses/directory/hsbamphes

Course detail

This taught MPhil recruits students who are prepared for graduate work and wish to receive interdisciplinary training, but who do not have sufficient education in human evolutionary studies in their background to be considered for the research MPhil or doctoral work. This is a demanding course which enables students to obtain interdisciplinary training and specialist knowledge in an area of human evolutionary studies over a relatively short time frame. The course prepares students to undertake an advanced degree, subject to performance in the examination.

Assessment

All students will write a thesis of not more than 20,000 words in length, excluding tables, appendices, and references, on a subject approved by the Degree Committee for the Faculty of Human, Social, and Political Science. This is worth 50% of the final mark.

All students will undertake a quantitative exercise on statistical analysis and interpretation, worth 10% of the final mark.

All students will write two essays of each not more than 2,500 words in length, excluding tables and references, based upon material from the core courses, as well as a 'News and Views' type of essay no longer than 1500 words. These are each worth 10% each of the final mark.

Finally, students will undertake a lab report based on one of the two lab practicals that will be carried out. The lab practicals will be based on hormones and genetics. These will contribute to 10% of the final mark.

Formative feedback is provided in written comments on essays for lecture papers and,when appropriate, for practical work. Verbal feedback is also given at the end of each term.

Continuing

MPhil students often apply to do a PhD following their masters degree and the department provides all students with the facilities and opportunities to do so.

How to apply: http://www.graduate.study.cam.ac.uk/applying

Funding Opportunities

There are opportunities to apply for funding through the application process, as well as from external sources that applicants may wish to investigate.

General Funding Opportunities http://www.graduate.study.cam.ac.uk/finance/funding

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The MPhil in Applied Biological Anthropology is a full-time interdisciplinary course, taken over a period of ten months, with core teaching in human nutritional ecology, growth and development, epidemiology and disease, reproductive ecology, conservation and molecular genetics. Read more
The MPhil in Applied Biological Anthropology is a full-time interdisciplinary course, taken over a period of ten months, with core teaching in human nutritional ecology, growth and development, epidemiology and disease, reproductive ecology, conservation and molecular genetics. There are strong biostatistical and laboratory elements to the course as well as a focus on field studies.

The lecturers are primarily involved in research and teaching within the Division of Biological Anthropology, in the Department of Archaeology and Anthropology. This taught MPhil recruits students who are prepared for graduate work and wish to receive interdisciplinary training, but who do not have sufficient background in Applied Biological Anthropology to be considered for the research MPhil or doctoral work. This is a demanding course that enables students to obtain specialist training and knowledge in an area of Applied Biological Anthropology over a relatively short time frame. Subject to performance in the examination, the course prepares students to undertake an advanced degree.

See the website http://www.graduate.study.cam.ac.uk/courses/directory/hsbampaba

Format

The MPhil in Applied Biological Anthropology is a full-time one year interdisciplinary course, taken over a period of ten months, with core teaching in human nutritional ecology, growth and development, epidemiology and disease, reproductive ecology, conservation and molecular genetics. There are strong biostatistical and laboratory elements to the course as well as a focus on field studies.

This taught MPhil recruits students who are prepared for graduate work and wish to receive interdisciplinary training, but who do not have sufficient background in Applied Biological Anthropology to be considered for the research MPhil or doctoral work. This is a demanding course that enables students to obtain specialist training and knowledge in an area of Applied Biological Anthropology over a relatively short time frame. Subject to performance in the examination, the course prepares students to undertake an advanced degree.

Assessment

- All students will write a thesis of not more than 20,000 words in length, excluding tables, appendices, and references, on a subject approved by the Degree Committee for the Faculty of Human, Social, and Political Science. This is worth 50% of the final mark.
- All students will undertake a quantitative exercise on statistical analysis and interpretation, worth 10% of the final mark.
- All students will write two essays of each not more than 2,500 words in length, excluding tables and references, based upon material from the core courses. These are worth 10% each of the final mark.
- All students will undertake two written assignments (either two essays or one essay and one lab report) based on material from the option courses. These are worth 10% each of the final mark.
- Lab report based on one of the two lab practicals that will be carried out. The lab practicals will be based on hormones and genetics. This will contribute towards 10% of the final mark.

Continuing

MPhil students are registered for one year only. Those who hope to read for a PhD at Cambridge immediately after the MPhil wil need to obtain support from a potential supervisor. This need not be the same person who supervises your MPhil thesis. But you will need to work hard to let the potential PhD supervisor see substantive work that you have written, in addition to your draft thesis proposal, at an early stage in the academic year. Once you have applied for the PhD a definite decision will be taken after your performance in the MPhil can be fully assessed; the Committee wil set conditions for your related to the entry requirements of the PhD. If you do not achieve these targets it is unlikely you wil be able to continue to reads towards a PhD.

How to apply: http://www.graduate.study.cam.ac.uk/applying

Funding Opportunities

Students have the opportunity to apply for relevant funding during the application process. General Funding Opportunities http://www.graduate.study.cam.ac.uk/finance/funding

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The development of the global trading system has created an increasingly sophisticated system of trade and related rights. It not only governs relations between states but impacts on relationship between states and individuals. Read more

Why this course?

The development of the global trading system has created an increasingly sophisticated system of trade and related rights. It not only governs relations between states but impacts on relationship between states and individuals.

At both policy and practical level, there's tension surrounding the function and role of international institutions such as the World Trade Organisation (WTO).

These debates are not confined to the realm of academia. The highest 'court' of WTO has opined that decisions must take into account "[h]uman societies as they actually exist, in other words... in the real world where people live and work and die." (WTO Appellate Body Report, EC-Hormones, paragraph 187)

This LLM in International Economic Law offers you the opportunity to explore how international economic law deals with real world challenges. You’ll gain an understanding of the fundamental rules and principles supporting international economic law.

You can tailor your degree to suit your intended career path by choosing elective modules from outside of our Law School.

The course is for those wanting to develop careers with international law firms and other organisations with an international focus. It’s also useful if you want to work in the international development sector in management, planning, or policy related areas.

See the website https://www.strath.ac.uk/courses/postgraduatetaught/internationaleconomiclaw/

You’ll study

This programme is available full-time and part-time with three potential exit points. You can choose to study for a:
- Postgraduate Certificate (PgCert)
- Postgraduate Diploma (PgDip)
- Masters degree (LLM)

Core classes:
- Legal Research
- World Trading Systems: Law & Policy

In addition to the core classes, you'll have the opportunity to pursue elective classes from other Masters programmes in Law as well as related programmes across the university.

- Elective classes
Choices may include:
- Comparative Law of Obligations
- International Environmental Law
- E-Commerce
- Comparative Company Law and Regulation
- Competition Law and Policy in the EU
- Legal Process and the Law of Contract and Other Obligations (For non-lawyers)
- UK and EU Environmental Law
- Intellectual Property
- Digital Copyright Law and Policy-Making
- International Trade Theory, Policy and Institutions
- Telecommunications Law

Please note that the classes offered may change from year to year.

Field dissertation

A unique aspect of this programme is the opportunity for you to undertake a field dissertation within a governmental or non-governmental organisation with an international focus. It can be either in the UK, or more likely, overseas.

This opportunity is offered on a competitive basis. It lasts for up to 12 weeks between July and September. Work completed for the placement will focus on a specific area of law and will form the subject of your dissertation.

Previous students have undertaken placements in countries including Sri Lanka, Tanzania, South Africa, India and Kenya. Examples of projects which our students have undertaken include:
- assessing the extent to which Indian environmental and energy laws promote the development of micro-renewables
- an analysis of whether Tanzanian land law discriminates against women and what reforms would be needed to address the discrimination
- an exploration of the low take-up of Clean Development Mechanism [CDM] in Sub-Saharan Africa and how the situation could be improved
- an assessment of environmental justice in Nigeria and South Africa

The project/field work is organised and supported by Challenges Worldwide. Challenges Worldwide is an innovative, award-winning, social enterprise working in international development.

The University of Strathclyde provides comprehensive travel and health insurance for all participants in the Field Dissertation. We also pay for the costs of your placement. Students are responsible for the costs of flights, visas, and accommodation and living expenses while overseas. Such costs have tended to be in the region of £1,500 to £2,500 per student.

Facilities

Our library has a wide range of law reports, legislation, serials and monographs. It also has duplicate sets of key law report series, houses extensive collections in government publications and other related areas.

You'll have access to a wide range of electronic information sources, which can be accessed from home, including all the major legal databases.

Additional Entry requirements

If your first language is not English, you must provide documentary evidence of an appropriate level of competency of written and spoken English. The minimum standards are an IELTS minimum overall band score of 6.5 (with no individual test score below 6.0).

The University's English Language Teaching department offers pre-entry and pre-sessional courses for new international students from April each year. Full fee paying students are entitled to one month of the pre-sessional English course free of charge.

Pre-Masters preparation course

The Pre-Masters Programme is a preparation course for international students (non EU/UK) who do not meet the entry requirements for a Masters degree at University of Strathclyde. The Pre-Masters programme provides progression to a number of degree options.

To find out more about the courses and opportunities on offer visit isc.strath.ac.uk or call today on +44 (0) 1273 339333 and discuss your education future. You can also complete the online application form. To ask a question please fill in the enquiry form and talk to one of our multi-lingual Student Enrolment Advisers today.

Learning & teaching

As a general rule, classes taught within the Law School will normally be taught over a ten-week teaching period with one two-hour seminar per week.
However in some cases, classes will be offered intensively over a shorter time period because of the availability of staff teaching them.

Assessment

A variety of assessment methods and weightings are used on Law School Masters programmes. The classes developed specifically for this programme generally follow this format:
- two x 4,000-word essays or one final exam together with a 4,000-word essay
Each component of assessment is generally worth 50% of the final mark of a class. To pass each class, you need an average overall score of 50% across all assessments as well as a minimum score of 40% in each individual component of assessment.

Careers

Increasingly, lawyers and other related professionals are operating in environments that demand an understanding of international economic law.

Studying on this programme will equip you with the knowledge, understanding and analytical skills relevant to working or planning a career with an international focus.

Students on this programme and the LLM in International Law and Sustainable Development have gone on to take up varied positions including:
- Analyst in the Private Wealth division of a multinational bank
- Policy Officer with the Scottish Environmental Protection Agency
- Logistical Co-ordinator with Oxfam America
- Legal counsel for an energy utility company based in Switzerland
- Responsible Investment Analyst for a leading global provider of research into corporate environmental, social and governance performance
- Project Associate for an international non-profit organization working to advance global public health
- Senior manager at Ofgem
- Lecturer at a technical college in Bahrain

Find information on Scholarships here http://www.strath.ac.uk/search/scholarships/index.jsp

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The M.Sc. in Medical Physics is a full time course which aims to equip you for a career as a scientist in medicine. You will be given the basic knowledge of the subject area and some limited training. Read more
The M.Sc. in Medical Physics is a full time course which aims to equip you for a career as a scientist in medicine. You will be given the basic knowledge of the subject area and some limited training. The course consists of an intense program of lectures and workshops, followed by a short project and dissertation. Extensive use is made of the electronic learning environment "Blackboard" as used by NUI Galway. The course has been accredited by the Institute of Physics and Engineering in Medicine (UK).

Syllabus Outline. (with ECTS weighting)
Human Gross Anatomy (5 ECTS)
The cell, basic tissues, nervous system, nerves and muscle, bone and cartilage, blood, cardiovascular system, respiratory system, gastrointestinal tract, nutrition, genital system, urinary system, eye and vision, ear, hearing and balance, upper limb – hand, lower limb – foot, back and vertebral column, embryology, teratology, anthropometrics; static and dynamic anthropometrics data, anthropometric dimensions, clearance and reach and range of movement, method of limits, mathematics modelling.

Human Body Function (5 ECTS)
Biological Molecules and their functions. Body composition. Cell physiology. Cell membranes and membrane transport. Cell electrical potentials. Nerve function – nerve conduction, nerve synapses. Skeletal muscle function – neuromuscular junction, muscle excitation, muscle contraction, energy considerations. Blood and blood cells – blood groups, blood clotting. Immune system. Autonomous nervous system. Cardiovascular system – electrical and mechanical activity of the heart. – the peripheral circulation. Respiratory system- how the lungs work. Renal system – how the kidneys work. Digestive system. Endocrine system – how hormones work. Central nervous system and brain function.

Occupational Hygiene (5 ECTS)
Historical development of Occupational Hygiene, Safety and Health at Work Act. Hazards to Health, Surveys, Noise and Vibrations, Ionizing radiations, Non-Ionizing Radiations, Thermal Environments, Chemical hazards, Airborne Monitoring, Control of Contaminants, Ventilation, Management of Occupational Hygiene.

Medical Informatics (5 ECTS)
Bio statistics, Distributions, Hypothesis testing. Chi-square, Mann-Whitney, T-tests, ANOVA, regression. Critical Appraisal of Literature, screening and audit. Patient and Medical records, Coding, Hospital Information Systems, Decision support systems. Ethical consideration in Research.
Practicals: SPSS. Appraisal exercises.

Clinical Instrumentation (6 ECTS)
Biofluid Mechanics: Theory: Pressures in the Body, Fluid Dynamics, Viscous Flow, Elastic Walls, Instrumentation Examples: Respiratory Function Testing, Pressure Measurements, Blood Flow measurements. Physics of the Senses: Theory: Cutaneous and Chemical sensors, Audition, Vision, Psychophysics; Instrumentation Examples: Evoked responses, Audiology, Ophthalmology instrumentation, Physiological Signals: Theory Electrodes, Bioelectric Amplifiers, Transducers, Electrophysiology Instrumentation.

Medical Imaging (10 ECTS)
Theory of Image Formation including Fourier Transforms and Reconstruction from Projections (radon transform). Modulation transfer Function, Detective Quantum Efficiency.
X-ray imaging: Interaction of x-rays with matter, X-ray generation, Projection images, Scatter, Digital Radiography, CT – Imaging. Fundamentals of Image Processing.
Ultrasound: Physics of Ultrasound, Image formation, Doppler scanning, hazards of Ultrasound.
Nuclear Medicine : Overview of isotopes, generation of Isotopes, Anger Cameras, SPECT Imaging, Positron Emitters and generation, PET Imaging, Clinical aspects of Planar, SPECT and PET Imaging with isotopes.
Magnetic Resonance Imaging : Magnetization, Resonance, Relaxation, Contrast in MR Imaging, Image formation, Image sequences, their appearances and clinical uses, Safety in MR.

Radiation Fundamentals (5 ECTS)
Review of Atomic and Nuclear Physics. Radiation from charged particles. X-ray production and quality. Attenuation of Photon Beams in Matter. Interaction of Photons with Matter. Interaction of Charged Particles with matter. Introduction to Monte Carlo techniques. Concept to Dosimetry. Cavity Theory. Radiation Detectors. Practical aspects of Ionization chambers

The Physics of Radiation Therapy (10 ECTS)
The interaction of single beams of X and gamma rays with a scattering medium. Treatment planning with single photon beams. Treatment planning for combinations of photon beams. Radiotherapy with particle beams: electrons, pions, neutrons, heavy charged particles. Special Techniques in Radiotherapy. Equipment for external Radiotherapy. Relative dosimetry techniques. Dosimetry using sealed sources. Brachytherapy. Dosimetry of radio-isotopes.

Workshops / Practicals
Hospital & Radiation Safety [11 ECTS]
Workshop in Risk and Safety.
Concepts of Risk and Safety. Legal Aspects. Fundamental concepts in Risk Assessment and Human Factor Engineering. Risk and Safety management of complex systems with examples from ICU and Radiotherapy. Accidents in Radiotherapy and how to avoid them. Principles of Electrical Safety, Electrical Safety Testing, Non-ionizing Radiation Safety, including UV and laser safety.
- NUIG Radiation Safety Course.
Course for Radiation Safety Officer.
- Advanced Radiation Safety
Concepts of Radiation Protection in Medical Practice, Regulations. Patient Dosimetry. Shielding design in Diagnostic Radiology, Nuclear Medicine and Radiotherapy.
- Medical Imaging Workshop
Operation of imaging systems. Calibration and Quality Assurance of General
radiography, fluoroscopy systems, ultrasound scanners, CT-scanners and MR scanners. Radiopharmacy and Gamma Cameras Quality Control.

Research Project [28 ECTS]
A limited research project will be undertaken in a medical physics area. Duration of this will be 4 months full time

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The modern pharmaceutical industry encompasses the development of ‘biologics’ (for example antibodies or protein hormones), as much as it does traditional small-molecule drug discovery. Read more

The modern pharmaceutical industry encompasses the development of ‘biologics’ (for example antibodies or protein hormones), as much as it does traditional small-molecule drug discovery.

You will study the design and potential uses of different families of proteins and will examine the experiences of successful entrepreneurs in the field who have been involved in the commercialisation of biopharmaceuticals.

Your research project will focus on the early phases of an industrial biologics design programme.

Online learning

Our award-winning online learning technology enables you to interact with our highly qualified teaching staff from the comfort of your home or workplace. You will have the same access to our staff as you would if you were on campus. Our online students not only have access to Edinburgh’s excellent resources but they get the opportunity to become part of a supportive online community.

Programme structure

You will learn through a variety of teaching methods, including online tuition, peer-to-peer discussion and individual study.

For the MSc, you will take 12 courses followed by a research project leading to a dissertation in your final year.

Individual courses can be taken for Continuing Professional Development purposes or you can study for a Postgraduate Certificate, Postgraduate Diploma or MSc.

We offer a fast-track option to complete the MSc in two years, or you can spread your programme over a maximum of six years, through intermittent study, allowing you to accommodate work and other commitments.

You can expect to spend seven to 13 hours a week on your studies, depending on your chosen schedule.

Courses

  • Professional Skills in Drug Discovery
  • Measuring Drug Binding
  • Structure Determination of Drug Targets
  • Introduction to Modelling Biological Systems
  • Systems Approach to Modelling Cell Signal Transduction
  • Molecular Modelling
  • High Throughput Drug Discovery
  • Commercial Aspects of Drug Discovery
  • Systems Approach to Modelling Cell Signal Transduction
  • In Silico Drug Discovery
  • Research Grant Proposal

Career opportunities

You will enhance your career prospects with marketable analytical and presentation skills.



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Despite the fact that we have improved methods of detection and have developed many novel therapies, cancer is still a major killer worldwide. Read more
Despite the fact that we have improved methods of detection and have developed many novel therapies, cancer is still a major killer worldwide. This course aims to inform and equip the practitioner with the necessary skills to function in a modern biomedical/clinical environment specialising in caring for the cancer patient, and will be relevant to researchers, day-to-day NHS hospital practice and general practice.

Why Study Oncology with us?

You will receive training in the skills required in the reading and interpretation of the literature and translating that into evidence-based practice. The course culminates in the Research Dissertation, which will be assessed through your production of two publishable scientific articles.

The content of the course is mapped to The Joint Royal Colleges of Physicians Training Board Speciality Training Curriculum for Medical Oncology.

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

What will I learn?

We will discuss mechanistic models of tumour formation and how knowledge of the cell biology can inform the treatment of a cancer. Blood-borne hormones and cytokines can be used as biomarkers of cancer and we will examine the problems associated with some of these measurements. You will evaluate new developments in research into oncology, and carry out a research project.

Seminars and tutorials will be held with various healthcare professionals and clinical researchers. You will also attend cancer clinics in one of our partner hospital trusts.

How will I be taught?

Our course consists of taught modules and a Research Dissertation.

We deliver taught modules as three-day intensive courses to facilitate attendance from students in employment. Weekly support sessions and journal club supplement learning – all held in our modern facilities in Bache Hall.
The total number of contact hours for the whole course are 360 hours, out of a total study time of 1,800 hours.

How will I be assessed?

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

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Would you like a tailor-made programme in Biology? Or do you like to design your programme at the interface of different Biology domains? Then Biology in Groningen is the Master's programme for you. Read more
Would you like a tailor-made programme in Biology? Or do you like to design your programme at the interface of different Biology domains? Then Biology in Groningen is the Master's programme for you.

Students with a broad interest in biology are able to design a tailor-made programme under the supervision of a staff member who will coach the student during the two years. Because many exciting discoveries have been made using the multidisciplinary approach, students are encouraged to combine insights and techniques from different domains within the biological sciences. Students are therefore offered the unique opportunity to combine different areas of biology - such as Ecology, Marine Biology, Biomedical Sciences and Molecular Biology - in their master's programme.

- Specialisation Behaviour and Neurosciences
In addition, the programme also offers you the possibility to specialise in a combination of two specific terrains of expertise in biology: Behaviour and Neurosciences. This specialisation focuses on the factors that affect behaviour in humans and animals. Both internal factors, such as the functioning of the brain and the excretion of hormones in the blood, as well as external factors, like growth conditions, are closely studied.

Why in Groningen?

- Possibilities for tailor-made programme
- Choose the research variant or the policy and management variant
- Specialisations: Behavioural and Neurosciences

Job perspectives

Graduates of the Master's degree programme in Biology who have chosen a scientific career often start with a PhD or join a research and development team in a company or research institute. Students who have done a society-oriented project find jobs as Science Advisors at governmental organizations, research institutions or companies.

Job examples

- PhD research position
- R&D in a company or research institute
- Science advisor

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The University of Chester Haematology course is a taught postgraduate qualification lasting for one year full-time or two to four years part-time. Read more

The University of Chester Haematology course is a taught postgraduate qualification lasting for one year full-time or two to four years part-time.

Students completing a range of modules followed by a research dissertation are awarded a full Master of Science degree. Students completing fewer modules, without a dissertation, may graduate instead with a Postgraduate Certificate or Postgraduate Diploma.

The MSc in Haematology is designed to enable you to develop an up-to-date, advanced understanding of the disorders of blood and blood-forming tissues. Utilising critical analytical skills, you will evaluate new developments in research into the blood sciences.

Why Study Haematology with us?

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

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

The content of the course is mapped to The Joint Royal Colleges of Physicians Training Board Speciality Training Curriculum for Haematology.

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

What will I learn?

Our course investigates in detail mechanistic models of haematopoiesis and how knowledge of stem cell theory can inform the treatment of anaemia or leukaemia. Blood carries many hormones and cytokines; these can be used as biomarkers of disease, and we will examine the problems associated with some of these measurements. You will also review current guidelines and their evidence base in the therapeutic management of haematological problems, and explore potential new therapies.

How will I be taught?

Our course consists of taught modules and a Research Dissertation. We deliver taught modules as three-day intensive courses to facilitate attendance from students in employment. Weekly support sessions and journal club supplement learning – all held in our modern facilities in Bache Hall.

Modules

The modules given below are the latest example of the curriculum available on this degree programme. Please note that programme structures and individual modules are subject to change from time to time for reasons which include curriculum enhancement, staff changes, student numbers, improvements in technology, changes to placements or regulatory or external body requirements.

Evidence Based Medicine(Compulsory) (MD7001)

Analysis and Interpretation of Clinical Data(Optional) (MD7002)

Clinical Medicine(Compulsory) (MD7003)

Blood Sciences(Compulsory) (MD7005)

Therapeutic Advances in Treating Haematological Problems(Compulsory) (MD7022)

Case Investigations in Molecular Medicine(Compulsory) (MD7027)

Assessment and Consultation in Clinical Settings(Optional) (MD7069)

Research Dissertation(Compulsory) (MD7100)

How will I be assessed?

You will be assessed via coursework assignments, which may focus on clinical reviews, laboratory reports, posters, oral presentations, or data manipulation exercises.

Funding

The following postgraduate funding may be available to study Haematology at the University of Chester.

UK postgraduate loans:

Erasmus funding:

Erasmus Masters Loans – Offering up to €18,000 for eligible students to study a Masters abroad.

Funding from FindAMasters:

FindAMasters Scholarships – Offering up to £5,000 to new UK, EU and international postgraduates.

Fees

Full Time (UK / EU): £6,390

Full Time (international): £11,850 (+£250 per academic year)

Part Time (UK / EU): £710 per 20 credits



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The Bordeaux Biology Agrosciences (B2AS) program offers an integrated multidisciplinary approach that is adapted to the realities of research (background research) as well as to the socio-economic sector (professional courses). The program objectives are to train and equip researchers and professionals to face the issues posed by agriculture in the 21st century. Read more

The Bordeaux Biology Agrosciences (B2AS) program offers an integrated multidisciplinary approach that is adapted to the realities of research (background research) as well as to the socio-economic sector (professional courses). The program objectives are to train and equip researchers and professionals to face the issues posed by agriculture in the 21st century. This is achived by integrating plant biotechnology and agrofood technology within course content in order to deal with the challenges of innovation in agriculture.

With such an integrated approach, the Master B2AS represents a meeting point between academia and professionals. During the program, students may specialize either in the field of plant biology, biotechnology, plant breeding, genetics, plant and human health benefits, food production and innovation. The wide partner network provides students with a range of complementary expertise. This means that specific competencies are developed within the chosen field of biotechnology and plant breeding for agriculture improvements.

Program structure

Semester 1:

Scientific English (3 ECTS)

  • Students will reinforce and develop the reading, writing, listening and speaking skills relevant to a biological science research context.
  • Students will acquire knowledge of the linguistic and discursive features of both written and spoken scientific English.
  • Structure and rhetoric of the research article, writing up an abstract. Oral scientific presentation – students prepare a mini-symposium on the topic related to their future work placement (and thus complete relevant bibliographical and reading research in preparation).
  • Students are evaluated on their communication skills in English and also on their ability to manage complex scientific concepts in English.

Plant development and reproduction (3 ECTS)

  • Genetic regulation of root and stem apical meristem functioning, epigenetic regulations of plant development and reproduction, parental imprinting, plant hormones, fruit and seed development, sex determination in plants, cellular mechanisms involved in plant organ growth and development.

Metabolism and cellular compartmentation (3 ECTS)

  • Metabolism and cell compartmentation: morphodynamic organization of the plant secretory pathway, lipid and protein machineries; membrane transporters in plants and the related methods of study; lipid signaling in plant cells; formation and dynamics of membrane domains; regulation of metabolism and gene expression by sugars in plants. Nature and importance of futile cycles in plants.

Biotechonology (3 ECTS)

  • In vitro culture and applications, plant transformation and applications to crop plants, GMO legislation and traceability, metabolic engineering, GMO and production of antibodies and of molecules of high health value, GMO in the food industry, fungi biotechnology.

Plant pathogen interactions (3 ECTS)

  • Plant-Mollicutes interactions, plant-virus interactions: analysis of plant and virus factors necessary for virus cycle, viroids; RNA interference, plant defence mechanisms against pathogens (fungi, bacteria and virus), breeding of plants resistant to pathogens, biodiversity of plant pathogens, epidemiology of plant pathogen interactions and impact on crop production.

Plant breeding (3 ECTS)

  • Principles of selection and genetic gain, response to selection, germplasm resources, collecting, analysing, classifying, international rules on germplasm resources. Population improvement and cultivar development (breeding for lines, hybrids, clones, populations), high throughput phenotyping, breeding strategies and methods including molecular breeding (MAS, genomic selection) and biotechnologies, multiple traits selection, genotype by environment interaction, protecting varieties and intellectual property, plant breeding international network and organization.

Quantitative and population genetics and evolution (3 ECTS)

  • Population genetics and genetic diversity, haplotype structure, domestication and genetic consequences, linkage disequilibrium, genetic variance, estimating variance components, heritability, genetic correlations, association genetics, genomic selection, induced diversity TILLinG, natural diversity ecoTILLinG, linking genetics, genomics and bioinformatics : from fine- mapping to gene cloning; genotyping by sequencing.

Semester 2:

Laboratory Practice (6 months/30 ECTS) 

  • In a public laboratory and/or a private company laboratory.

Strengths of this Master program

During their studies, students will:

  • Acquire scientific knowledge in various fields of plant biology, green biotechnology, food supplements, food production, etc.
  • Receive a modern research-based training.
  • Develop an understanding of the challenges of modern agricultural practices in a context of environmental constraints and increasing demand.
  • Develop an understanding of the benefits and limits of modern biotechnology.
  • Acquire the skills to develop action planning processes for bioscience.
  • Acquire skills and practice within an English-speaking environment as well as other languages practised within the consortium.
  • Develop the necessary skills to collaborate with international teams and networks.
  • Acquire competencies for knowledge transfer to students and collaborators.
  • Develop competencies to create, finance and manage a new start-up.
  • Acquire an understanding of today’s industrial and economic environment within the Biotech sector.

After this Master program?

The objectives of the B2AS program are to prepare students for further study via PhD programs and/or careers in the food and agronomy industry throughout the world. This is achieved by providing high-level training in plant sciences but also by preparing students with relevant knowledge and skills in management and business. 

Graduates may apply for positions in the following industrial sectors in a R&D laboratory as well as in production activities:

  • Plant research laboratories
  • Plant breeding companies
  • Agro-chemical companies
  • Green and white biotechnology companies
  • Food, diet and nutrition companies
  • Plant medicinal production companies
  • Food supplement or nutraceutical companies
  • Pharmaceutical companies
  • Business trade companies


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