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Masters Degrees (Molecular Therapeutics)

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This full-time MSc course is designed to provide graduates with advanced knowledge, understanding and skills in the rapidly advancing field of Cancer Biology and Therapeutics. Read more
This full-time MSc course is designed to provide graduates with advanced knowledge, understanding and skills in the rapidly advancing field of Cancer Biology and Therapeutics.

The course offers advanced teaching in the cellular aspects of cancer biology together with the molecular mechanisms underlying cancer development and progression. It provides in-depth training in cancer therapeutics, encompassing biomarkers and diagnosis, therapeutic targets, drug discovery and clinical trials and chemo/radio therapy, as well as aiming to develop your theoretical and practical research skills. This postgraduate programme offers a balanced combination of theory and practice that would serve as preparation for doctoral research or as a self-contained advanced qualification in its own right.

Graduates from this course should gain a breadth and depth of cancer-focused training that will make them highly attractive candidates to start or continue a career within the healthcare sector and research establishments.

The course offers research skills training and a laboratory-based research project that can provide you with the skills required to develop research hypotheses and critically evaluate translational approaches with respect to the development of contemporary cancer therapeutics.

Distinctive features

• A broad ranging course that covers basic molecular cancer cell biology through to translational research and therapeutics.

• A course developed in collaboration with researchers, academics and clinicians and delivered by leading academic cancer researchers at Cardiff University.

• Key lectures and case study workshops delivered by practising oncologists and cancer surgeons.

• Opportunity to study at Cardiff University, one of the UK’s major teaching and research universities.

• Opportunity to undertake a research project in one of the internationally recognized cancer research groups at Cardiff.

• Close academic support from an experienced personal tutor.
Opportunity to join a vibrant postgraduate community studying at Cardiff.

Structure

This is a full-time course over one academic year. You will study 180 credits: 120 of taught material, followed by a 60 credit project.

Core modules:

Data Handling and Statistics
Cellular and Molecular Biology of Cancer
Translational Oncology and Therapeutics
Academic Research Skills
Research Methodology
Research Project

Teaching

The programme will provide advanced teaching in the cellular aspects of cancer biology together with the molecular mechanisms underlying cancer development and progression. In-depth training will be provided in the area of cancer therapeutics, encompassing biomarkers and diagnosis, therapeutic targets, drug discovery and clinical trials and chemo/radio therapy, in addition to developing the student’s theoretical and practical research skills.

Assessment

Assessment for the course will comprise a combination of exams, written essays, posters, laboratory coursework and case studies.

Career Prospects

Graduates from this course should gain a breadth and depth of cancer-focused training that could make them highly attractive candidates to start or continue a career within the healthcare sector and research establishments.

Potential employment opportunities include PhD student, research technician, medical laboratory science officer, clinical trials co-ordinator, and medical writer.

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This course enables you to study cutting edge molecular methods employed for the understanding of molecular mechanisms of diseases and for their diagnosis and treatment. Read more
This course enables you to study cutting edge molecular methods employed for the understanding of molecular mechanisms of diseases and for their diagnosis and treatment. Your studies will be underpinned by essential knowledge in genetics, cell signalling and molecular medicine.

You will be offered the flexibility to select option modules that reflect your own interest in molecular biology and these will be combined with core modules and an independent research project. The course is suitable for newly qualified graduates, those employed in related work and those with medical qualifications.

Modules

The following modules are indicative of what you will study on this course.

Core modules
-MOLECULAR AND CELLULAR THERAPEUTICS
-MOLECULAR SCIENCE AND DIAGNOSTICS
-PRINCIPLES OF MOLECULAR MEDICINE
-POSTGRADUATE RESEARCH METHODS
-POSTGRADUATE PROJECT

Optional module
-CELL SIGNALLING AND GENETICS
-EXTENDED POSTGRADUATE PROJECT
-IMMUNOPATHOLOGY
-IMMUNOTHERAPY
-MOLECULAR BIOINFORMATICS
-SYSTEMS BIOLOGY

Associated careers

You will develop a range of course-specific and transferable skills that will enhance your employment prospects, career progression and research opportunities in the UK and/ or overseas. It is anticipated that a significant number of graduates will go on to pursue a career in research after registering for a higher degree. Others will seek employment in healthcare laboratories, industry, research laboratories, government laboratories or academia in the UK or worldwide. One of the strengths of this degree is the mixture of backgrounds/ experience and career aspirations of the students recruited.

Professional recognition

The course is accredited by the Institute of Biomedical Science (IBMS).

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This exciting new course is designed to equip future scientists with the knowledge to make a difference in the understanding and treatment of cancer. Read more
This exciting new course is designed to equip future scientists with the knowledge to make a difference in the understanding and treatment of cancer. The course will take the mechanistic understanding of cancer biology and apply it to the analysis of risk, prevention, diagnosis, prognosis and therapy. Building on a foundation of the understanding of basic cancer cell biology, translational coverage will consider design of treatment modalities, mechanisms of action of anti-cancer drugs, therapy resistance and biomarker discovery. The course will allow the students to gain expertise and knowledge in therapy, cancer chemoprevention, anti-cancer target discovery, clinical trials, imaging, cancer risk and epidemiology and biostatistics. A key component of the course is a five/six-month research project, which will give students an opportunity to study one of these areas in depth.

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This programme aims to respond to a national and international need for clinicians, scientists and allied health professions who can apply a molecular approach to the investigation, diagnosis and management of clinical disease. Read more
This programme aims to respond to a national and international need for clinicians, scientists and allied health professions who can apply a molecular approach to the investigation, diagnosis and management of clinical disease.

We will provide you with theoretical and practical knowledge of modern molecular technologies as applied to human disease, with an emphasis on cancer, and train you in the application and interpretation of advanced molecular technologies.

Compulsory Modules

• Basic Pathology
• Cancer Biology
• Cancer Prevention & Screening
• Genomic Approaches to Human Diseases
• Molecular Diagnostic & Therapeutics
• Molecular Pathology of Solid Tumours
• Research Lab Skills
• Research Methods

Elective Modules

• Introduction to Bioinformatics
• Biological Therapies
• Molecular Targeted Therapies and Immunotherapy for Blood Cancers

Core Modules for MSc

• Lab project



Barts Cancer Institute is a Cancer Research UK Centre of Excellence and one of the leading cancer institutes in the country.
Based in the heart of London, our programmes are all taught by experts in the field.

Find out more about the BCI at http://www.bci.qmul.ac.uk/study-with-us

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This programme teaches advanced experimental approaches to dissecting the mechanisms of drug action (pharmacology), a science that has seen innovative theoretical and technical development at UCL for over a century. Read more
This programme teaches advanced experimental approaches to dissecting the mechanisms of drug action (pharmacology), a science that has seen innovative theoretical and technical development at UCL for over a century.

Degree information

In addition to providing experience of both classical and modern pharmacological techniques, the programme will help develop skills for literature search-based data acquisition and analysis; written and verbal communication of science; abstract writing; poster preparation; graphical processing; image preparation for publication; writing a scientific paper; and giving research presentations.

Students undertake modules to the value of 180 credits.

The programme consists of three core modules (75 credits), one optional module (15 credits), and a research project (90 credits).

Core modules
-Investigative Pharmacology
-Molecular Pharmacology
-Practice of Science

Optional modules - students choose one of the following:
-Advanced Clinical Pharmacology and Therapeutics
-Clinical Pharmacology and Therapeutics
-Drug Design and Development
-Neuropharmacology
-New Drug Targets in the CNS
-Pharmacology of Inflammation
-Receptor Mechanisms
-Synaptic Pharmacology

Dissertation/report
Students undertake an original research project which culminates in a 15,000-word dissertation and an oral presentation.

Teaching and learning
The programme is delivered through a combination of lectures, journal clubs, practicals, tutorials and a laboratory project. Student performance is evaluated through formal examination, coursework, and the research project.

Careers

This programme is likely to lead to careers in biomedical sciences, the pharmaceutical and biotechnology industry and clinical laboratories, and extend to clinicians interested in moving towards a scientific career. Students will obtain a thorough knowledge of and practice in pharmacological assessment, drug design and development pathways. It is anticipated that graduates will move onto PhD programmes and/or build careers in industry or clinical investigations through employment as research associates/scientists in the pharmaceutical industry or academia.

Employability
The knowledge and transferable skills developed on this programme will be advantageous for those considering employment in any pharmaceutical or healthcare setting, or contemplating further studies in related fields. The programme will also provide excellent training in critical appraisal of complex data, which will transfer well to other disciplines.

Why study this degree at UCL?

The programme is jointly taught by UCL Neuroscience, Physiology & Pharmacology (Division of Biosciences), and the Research Department of Pharmacology at the UCL School of Pharmacy. Both departments are historically and currently internationally leading in this field, and together provide cutting-edge education in theory, research practice and innovation in pharmacology.

The programme is designed to impart extensive experimental expertise applied to drug development and subsequent therapeutics. The combination of traditional and experimental approaches in pharmacology, coupled with current innovation in therapeutics and drug discovery and development, fosters a unique set of skills, which will enable graduates of the programme to engage in various aspects of pharmaceutical research globally.

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The MSc in Cancer Biology is for students who wish to gain an advanced education and training in the biological sciences, within the context of a disease that affects a large proportion of the global population. Read more
The MSc in Cancer Biology is for students who wish to gain an advanced education and training in the biological sciences, within the context of a disease that affects a large proportion of the global population.

The programme provides training in the modern practical, academic and research skills that are used in academia and industry. Through a combination of lectures, small-group seminars and practical classes, students will apply this training towards the development of new therapies.

The programme culminates with a research project that investigates the molecular and cellular basis of cancer biology or the development of new therapies under the supervision of active cancer research scientists.

Visit the website: https://www.kent.ac.uk/courses/postgraduate/226/cancer-biology

About the School of Biosciences

The School of Biosciences is among the best-funded schools of its kind in the UK, with current support from the BBSRC, NERC, MRC, Wellcome Trust, EU, and industry. It has 38 academic staff, 56 research staff (facility managers, research fellows, postdoctoral researchers and technicians), approximately 100 postgraduate students and 20 key support staff. The school's vibrant atmosphere has expanded to become a flourishing environment to study for postgraduate degrees in a notably friendly and supportive teaching and research environment.

Research in the School of Biosciences revolves around understanding systems and processes in the living cell. It has a strong molecular focus with leading-edge activities that are synergistic with one another and complementary to the teaching provision. Our expertise in disciplines such as biochemistry, microbiology and biomedical science allows us to exploit technology and develop groundbreaking ideas in the fields of genetics, molecular biology, protein science and biophysics. Fields of enquiry encompass a range of molecular processes from cell division, transcription and translation through to molecular motors, molecular diagnostics and the production of biotherapeutics and bioenergy.

In addition to research degrees, our key research strengths underpin a range of unique and career-focused taught Master’s programmes that address key issues and challenges within the biosciences and pharmaceutical industries and prepare graduates for future employment.

Course structure

Each one-hour lecture is supplemented by two hours of small-group seminars and workshops in which individual themes are explored in-depth. There are practical classes and mini-projects in which you design, produce and characterise a therapeutic protein with applications in therapy.

In additional to traditional scientific laboratory reports, experience will be gained in a range of scientific writing styles relevant to future employment, such as literature reviews, patent applications, regulatory documents, and patient information suitable for a non-scientific readership.

Modules

The following modules are indicative of those offered on this programme. This list is based on the current curriculum and may change year to year in response to new curriculum developments and innovation. Most programmes will require you to study a combination of compulsory and optional modules. You may also have the option to take modules from other programmes so that you may customise your programme and explore other subject areas that interest you.

BI830 - Science at Work (30 credits)
BI836 - Practical and Applied Research Skills for Advanced Biologists (30 credits)
BI837 - The Molecular and Cellular Basis of Cancer (15 credits)
BI838 - Genomic Stability and Cancer (15 credits)
BI840 - Cancer Therapeutics: From the Laboratory to the Clinic (15 credits)
BI857 - Cancer Research in Focus (15 credits)
BI845 - MSc Project (60 credits)

Assessment

The programme features a combination of examinations and practically focused continuous assessment, which gives you experience within a range of professional activities, eg, report writing, patent applications and public health information. The assessments have been designed to promote employability in a range of professional settings.

Programme aims

This programme aims to:

- provide an excellent quality of postgraduate-level education in the field of cancer, its biology and its treatment

- provide a research-led, inspiring learning environment

- provide a regional postgraduate progression route for the advanced study of a disease that affects a high proportion of the population

- promote engagement with biological research into cancer and inspire you to pursue a scientific career inside or outside of the laboratory

- develop subject specific and transferable skills to maximise employment prospects

- promote an understanding of the impact of scientific research on society and the role for scientists in a range of professions.

Research areas

Research in the School of Biosciences is focused primarily on essential biological processes at the molecular and cellular level, encompassing the disciplines of biochemistry, genetics, biotechnology and biomedical research.

The School’s research has three main themes:

- Protein Science – encompasses researchers involved in industrial biotechnology and synthetic biology, and protein form and function

- Molecular Microbiology – encompasses researchers interested in yeast molecular biology (incorporating the Kent Fungal Group) and microbial pathogenesis

- Biomolecular Medicine – encompasses researchers involved in cell biology, cancer targets and therapies and cytogenomics and bioinformatics.

Each area is led by a senior professor and underpinned by excellent research facilities. The School-led development of the Industrial Biotechnology Centre (IBC), with staff from the other four other schools in the Faculty of Sciences, facilitates and encourages interdisciplinary projects. The School has a strong commitment to translational research, impact and industrial application with a substantial portfolio of enterprise activity and expertise.

Careers

A postgraduate degree in the School of Biosciences is designed to equip our graduates with transferable skills that are highly valued in the workplace. Our research-led ethos ensures that students explore the frontiers of scientific knowledge, and the intensive practical components provide rigorous training in cutting edge technical skills that are used in the modern biosciences while working in areas of world-leading expertise within the School.

Destinations for our graduates include the leading pharmaceutical and biotechnological companies within the UK and leading research institutes both at home and abroad.

Find out how to apply here - https://www.kent.ac.uk/courses/postgraduate/apply-online/226

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This exciting interdisciplinary MSc programme focuses on providing advanced academic training in the cellular and molecular processes that relate to the production of biomedicines for use in healthcare. Read more
This exciting interdisciplinary MSc programme focuses on providing advanced academic training in the cellular and molecular processes that relate to the production of biomedicines for use in healthcare.

This is coupled with rigorous practical training in the design, production and characterisation of biomolecules using state-of-theart biotechnological and bioengineering analytical and molecular technologies.

You acquire practical, academic and applied skills in data analysis, systems and modelling approaches, and bioinformatics, together with transferable skills in scientific writing, presentation and public affairs. On successful completion of the programme, you will be able to integrate these skills to develop novel solutions to modern biotechnological issues from both academic and industrial perspectives.

Visit the website: https://www.kent.ac.uk/courses/postgraduate/213/biotechnology-and-bioengineering

About the School of Biosciences

The School of Biosciences is among the best-funded schools of its kind in the UK, with current support from the BBSRC, NERC, MRC, Wellcome Trust, EU, and industry. It has 38 academic staff, 56 research staff (facility managers, research fellows, postdoctoral researchers and technicians), approximately 100 postgraduate students and 20 key support staff. The school's vibrant atmosphere has expanded to become a flourishing environment to study for postgraduate degrees in a notably friendly and supportive teaching and research environment.

Research in the School of Biosciences revolves around understanding systems and processes in the living cell. It has a strong molecular focus with leading-edge activities that are synergistic with one another and complementary to the teaching provision. Our expertise in disciplines such as biochemistry, microbiology and biomedical science allows us to exploit technology and develop groundbreaking ideas in the fields of genetics, molecular biology, protein science and biophysics. Fields of enquiry encompass a range of molecular processes from cell division, transcription and translation through to molecular motors, molecular diagnostics and the production of biotherapeutics and bioenergy.

In addition to research degrees, our key research strengths underpin a range of unique and career-focused taught Master’s programmes that address key issues and challenges within the biosciences and pharmaceutical industries and prepare graduates for future employment.

Course structure

The MSc in Biotechnology and Bioengineering involves studying for 120 credits of taught modules, as indicated below. The taught component takes place during the autumn and spring terms, while a 60-credit research project take place over the summer months.

The programme is taught by staff from the Industrial Biotechnology Centre, an interdisciplinary research centre whose aim is to solve complex biological problems using an integrated approach to biotechnology and bioengineering. It is administered by the School of Biosciences who also contribute to the programme.

Modules

The following modules are indicative of those offered on this programme. This list is based on the current curriculum and may change year to year in response to new curriculum developments and innovation. Most programmes will require you to study a combination of compulsory and optional modules. You may also have the option to take modules from other programmes so that you may customise your programme and explore other subject areas that interest you.

BI830 - Science at Work (30 credits)
BI836 - Practical and Applied Research Skills for Advanced Biologists (30 credits)
BI852 - Advanced Analytical and Emerging Technologies for Biotechnology and Bio (30 credits)
BI857 - Cancer Research in Focus (15 credits)
CB612 - New Enterprise Startup (15 credits)
CB613 - Enterprise (15 credits)
BI840 - Cancer Therapeutics: From the Laboratory to the Clinic (15 credits)
BI845 - Research project (60 credits)

Assessment

Assessment is by coursework and the research project.

Programme aims

You will gain the following transferable skills:

- the ability to plan and manage workloads

- self-discipline and initiative

- the development of reflective learning practices to make constructive use of your own assessment of performance and use that of colleagues, staff and others to enhance performance and progress

- communication: the ability to organise information clearly, create and respond to textual and visual sources (eg images, graphs, tables), present information orally, adapt your style for different audiences.

- enhanced understanding of group work dynamics and how to work as part of a group or independently.

Research areas

Research in the School of Biosciences is focused primarily on essential biological processes at the molecular and cellular level, encompassing the disciplines of biochemistry, genetics, biotechnology and biomedical research.

The School’s research has three main themes:

- Protein Science – encompasses researchers involved in industrial biotechnology and synthetic biology, and protein form and function

- Molecular Microbiology – encompasses researchers interested in yeast molecular biology (incorporating the Kent Fungal Group) and microbial pathogenesis

- Biomolecular Medicine – encompasses researchers involved in cell biology, cancer targets and therapies and cytogenomics and bioinformatics.

Each area is led by a senior professor and underpinned by excellent research facilities. The School-led development of the Industrial Biotechnology Centre (IBC), with staff from the other four other schools in the Faculty of Sciences, facilitates and encourages interdisciplinary projects. The School has a strong commitment to translational research, impact and industrial application with a substantial portfolio of enterprise activity and expertise.

Careers

A postgraduate degree in the School of Biosciences is designed to equip our graduates with transferable skills that are highly valued in the workplace. Our research-led ethos ensures that students explore the frontiers of scientific knowledge, and the intensive practical components provide rigorous training in cutting edge technical skills that are used in the modern biosciences while working in areas of world-leading expertise within the School.

Destinations for our graduates include the leading pharmaceutical and biotechnological companies within the UK and leading research institutes both at home and abroad.

Find out how to apply here - https://www.kent.ac.uk/courses/postgraduate/apply-online/213

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Biotechnology is a rapidly expanding global industry. Read more

Why take this course?

Biotechnology is a rapidly expanding global industry. It's driven by the development of new tools for molecular biological research, the expansion of the ‘green economy’ seeking biotechnical solutions to energy and industrial needs, and remarkable advances in the application of biotechnology to medical diagnosis, therapeutics and to biomedical research.

The MSc in Medical Biotechnology will give you sought-after advanced skills in molecular biotechnology in the context of diagnostics, therapeutics and in biomedical research. You will also gain a vital understanding of how these are applied in molecular medicine.

What will I experience?

On this course you can:

Develop practical and theoretical understanding of the molecular techniques used in the biotechnology sector
Learn how these are applied in diagnostics, therapeutics and molecular medicine
Develop your practical skills on high tech research equipment
Conduct your own medical biotechnology research

What opportunities might it lead to?

This Master's degree in Medical Biotechnology will prepare you for a role within either research or industry in the biotechnology sector and, more generally, in the bioscience and pharmaceutics areas.

Here are some routes our graduates can pursue:

product development
research scientist
diagnostics and pathology lab work
PhD

Module Details

The Medical Biotechnology course is made up of core and optional units so that you can tailor your learning. The core units give you both practical and research skills as well as the knowledge that would be expected of an advanced course in molecular biotechnology. The optional units allow specialisation towards pathology, drug development, business or bioinformatics. Further options are included through a wide choice of subjects for your research project.

Core units include:

Medical Biotechnology Diagnostics
Medical Biotechnology Therapeutics
Molecular Medicine
Medical Biotechnology Research Skills and Project
Options to choose from include:

Clinical Pathology
Business Skills for Biotechnology
Drug Design and Clinical Trials
Bioinformatics and Omics

Programme Assessment

The course is delivered to develop your practical and theoretical skills in Medical Biotechnology. Teaching is typically in small groups with a mixture of lectures, seminars, workshops and practical work that includes case and problem-based learning. The course is delivered by a team of expert scientists who publish regularly in international journals. In the research project that forms a third of the course you will work alongside other researchers in a laboratory setting.

Assessment will cover all aspects of what is required to be a professional scientist using a variety of methods:

written exams
practical work
problem solving
presentations
essay
project work

Student Destinations

This Master's degree in Medical Biotechnology will equip you to meet the needs of small and medium-sized enterprises and global business in the area of Biotechnology, as well as public and private health service providers. The course covers the practical as well as theoretical skills for your new career.

Roles our graduates might take include:

product development
research scientist
diagnostics and pathology lab work
PhD student
sales
teaching

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The course will allow you to expand your understanding of immunology, immunopathology and immunotherapy, to further develop skills in analytical approaches to immunodiagnosis and molecular therapeutics, as well as enhance your competence in the design and execution of a laboratory based project. Read more
The course will allow you to expand your understanding of immunology, immunopathology and immunotherapy, to further develop skills in analytical approaches to immunodiagnosis and molecular therapeutics, as well as enhance your competence in the design and execution of a laboratory based project. You will be able to take a proactive role in research, development, evaluation and implementation of current immunological techniques while perceiving the subject in the broader perspective of health care and scientific progress.

The scope of the modules included will ensure a breadth of knowledge appropriate for the scientific and professional needs of practising immunologists, at the same time making use of your knowledge and experience. This course is designed so that you can plan your own taught programme to match your interests and experience by combining core and optional modules with emphasis on therapeutics, diagnostics, haematology or public health.

Modules

The following modules are indicative of what you will study on this course.

Core modules
-CELL SIGNALLING AND GENETICS
-IMMUNOPATHOLOGY
-IMMUNOTHERAPY
-POSTGRADUATE RESEARCH METHODS
-POSTGRADUATE PROJECT

Option modules
-ADVANCED CANCER BIOLOGY
-EXTENDED POSTGRADUATE PROJECT
-IMMUNOHAEMATOLOGY AND HAEMOSTASIS
-INFECTIOUS DISEASES AND PUBLIC HEALTH
-MOLECULAR AND CELLULAR THERAPEUTICS
-MOLECULAR SCIENCE AND DIAGNOSTICS
-PRINCIPLES OF MOLECULAR MEDICINE
-SYSTEMS BIOLOGY

Associated careers

The course has been designed to provide professionals with a broad range of skills in immunology, immunopathology and immunotherapy. Successful completion of the course will enhance your career prospects in education, in PhD programmes, in academia, research institutes, as well as in pharmaceutical and related industries. UK part-time students are normally employed in hospital or NHSBT laboratories or in research establishments.

You will develop a range of transferable skills that will enhance your employment prospects and research opportunities in the UK or overseas. As an international student with experience in biomedical sciences, following completion of their studies, you will be able to return to your home country to pursue research opportunities or promotion, seek employment as research technician, biomedical scientist, scientific or medical technical officer or research assistant. You may also seek jobs in industry, research or healthcare or apply for further training (biomedical or clinical scientist routes).

Professional recognition

The course is accredited by the Institute of Biomedical Science (IBMS).

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This programme aims to provide you with a clear understanding of the scientific basis underlying the principles and practice of treating cancer. Read more
This programme aims to provide you with a clear understanding of the scientific basis underlying the principles and practice of treating cancer.

This will be underpinned by a thorough knowledge of cancer biology and pathology and research methodologies.

This knowledge will provide an excellent grounding in the development, use and evaluation of cancer therapies, which will enhance career prospects in many areas of early phase clinical trials and clinical drug development in the cancer setting.

Compulsory Modules

• Ablative Therapies
• Cancer Biology
• Cancer Pharmacology
• Cancer Prevention & Screening
• Drug Development
• Molecular Diagnostic & Therapeutics
• Molecular Targeted Therapies and Immunotherapy for Blood Cancer
• Research Methods
• Site Specific Tumour Treatment

Elective Modules

• Genomic Approaches to Human Diseases
• Paediatric & Adolescent Oncology
• Pathology of Cancer

Core Module for MSc

• Dissertation.

Barts Cancer Institute is a Cancer Research UK Centre of Excellence and one of the leading cancer institutes in the country.
Based in the heart of London, our programmes are all taught by experts in the field.

Find out more about the BCI at http://www.bci.qmul.ac.uk/study-with-us

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This programme aims to provide you with a clear understanding of molecular and cellular biology that is fundamental to cancer biology and cancer research. Read more
This programme aims to provide you with a clear understanding of molecular and cellular biology that is fundamental to cancer biology and cancer research.

You will learn how research in this area has advanced the treatment and diagnoses of cancer, and gain knowledge of how new therapies are developed, evaluated and implemented.

You will gain a thorough knowledge of research methodologies and laboratory techniques, which you will fully utilise in the laboratory research project stage. The valuable research experience you will gain from working with leading cancer experts, will give you a solid foundation upon which a future career in scientific research can be built.

Compulsory Modules

• Biological Therapies
• Cancer Biology
• Cancer Pharmacology
• Drug Development
• Genomic Approaches to Human Diseases
• Molecular Diagnostic & Therapeutics
• Pathology of Cancer
• Research Lab Skills
• Research Methods

Elective Modules

• Cancer Prevention & Screening
• Paediatric & Adolescent Oncology

Core Module for MSc

• Lab project


Barts Cancer Institute is a Cancer Research UK Centre of Excellence and one of the leading cancer institutes in the country.
Based in the heart of London, our programmes are all taught by experts in the field.

To find out more about BCI visit http://www.bci.qmul.ac.uk/study-with-us

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This Clinical Pharmacology degree programme offers focused training which integrates basic and clinical sciences, and equips students with the essential skills required to function effectively as a clinical pharmacologist in the 21st century. Read more
This Clinical Pharmacology degree programme offers focused training which integrates basic and clinical sciences, and equips students with the essential skills required to function effectively as a clinical pharmacologist in the 21st century. As a student on the MSc Clinical Pharmacology programme, you will acquire core skills, enabling an appreciation of how to apply clinical pharmacological, regulatory and ethical principles to the optimisation of therapeutic practice and clinical research. Crucially, in addition to a firm grasp of the principles of molecular pharmacology, you will also gain foundational knowledge in the emerging science of pharmacogenomics and personalised medicine.

Why this programme

◾This Clinical Pharmacology MSc is one of only a few UK postgraduate programmes that cover clinical pharmacology in sufficient detail to allow you to make an informed choice about pursuing clinical pharmacology as a career.
◾You will learn the basics of molecular genetics and population genetics as applied to pharmacogenetics and gene therapy.
◾You will have the opportunity to gain hands-on experience in molecular methods and analysis along with critical interpretation of genomic literature. This will enable you to analyse, synthesise and formulate an action plan for personalised patient care.
◾You will gain the knowledge and experience necessary to engage in and contribute to discussions about therapeutic issues in the commercial and academic research environments. As part of the MSc Clinical Pharmacology degree, you will undertake your own research project under expert supervision, which will allow you to consolidate your knowledge and apply the skills you have acquired.
◾At every stage of the MSc Clinical Pharmacology you will benefit from the close involvement of clinical academics and visiting lecturers from the pharmaceutical industry and national drug regulatory bodies: the programme is specifically designed to prepare graduate for future senior roles within the pharmaceutical medicine. Guest lecturers have recently included staff from Pfizer, Servier, Johnson & Johnson and the Scottish Medicines Consortium.

Programme structure

You will attend lectures, seminars and tutorials and take part in lab, project and team work.

Core courses
◾Principles of Pharmacology
◾Drug Disposition
◾Pharmaceutical Medicine
◾Topics in Therapeutics – General Topics and Cardiovascular Drugs
◾Topics in Therapeutics – Commonly Used Drugs
◾Medical Statistics 1
◾Medical Statistics 2
◾Pharmacogenomics & Molecular Medicine – Fundamentals of Molecular Medicine
◾Pharmacogenomics & Molecular Medicine – Applied Pharmacogenomics & Molecular Medicine

In addition you will undertake a dissertation/project.

Career prospects

Career opportunities include positions in academia, health care and the pharmaceutical industry; returning to more advanced positions within a previous clinical environment (eg pharmacicts, clinicians); and PhD study.

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Translating fundamental biomedical discoveries into applied clinical practice and public health issues. Clinical Biology is the only specialisation in the Netherlands that combines fundamental human biology with clinical studies. Read more
Translating fundamental biomedical discoveries into applied clinical practice and public health issues

Clinical Biology is the only specialisation in the Netherlands that combines fundamental human biology with clinical studies. It provides you with an extensive biological knowledge, and experience in working with animal and patient samples. In this way you’ll be trained to bridge the gap between early biomedical research results and clinical practice.

This wouldn’t be possible within the walls of the Faculty of Science. That’s why there’s an extensive collaboration between the Faculty of Science and the Radboud university medical center in the field of Clinical Biology. You’ll get the best of both worlds: a thorough background in for example molecular oncology, human genetics, physiology and metabolism as well as a clinical view on diseases. This is an excellent background for a medical researcher or a job at the interface of science and society, such as a consultant, policy officer or communications advisor in the area of food or health.

See the website http://www.ru.nl/masters/clinicalbiology

Why study Clinical Biology at Radboud University?

- It is the only programme in the Netherlands that bridges the gap between fundamental biomedical research and clinical treatments.
- You’ll get the opportunity to work together with researchers from the Radboud university medical center.
- Radboud biologists and clinicians stand out in the fields of animal and human physiology, human genetics and disease, and molecular and cellular clinical studies.
- Clinical Biology offers internships at multiple related research institutes, such as the Radboud Institute for Molecular Life Sciences (RIMLS), the Radboud Institute for Health Sciences (RIHS) and the Donders Institute for Brain, Cognition and Behaviour (DI).
- There are various opportunities to do an internship abroad thanks to our wide network of cooperating research groups.

Career prospects

After graduation, our students quickly take up positions as researchers in government departments, research organisations and medical or pharmaceutical companies. However, many of our graduates also apply their academic background to societal issues, for example as a communications or policy officer. In general, clinical biologists end up as a:
- Researcher in a hospital or a university
- Researcher in a company, either a large or a start-up company
- Supervisor of clinical trials
- Consultant in the area of health or food
- Policy officer in the area of health or food
- Communications officer at a hospital or a governmental organisation, like RIVM
- Teacher in biology or medical biology

PhD positions at Radboud University
Each year, Radboudumc offers PhD positions in this field of research. Of course, many graduates also apply for a PhD position at related departments in the Netherlands, or abroad.

Our approach to this field

- From human biology to clinical treatment
Clinical Biology at Radboud University connects fundamental biological research to clinical treatments. The courses will provide you with a solid background in human physiology and molecular biology, which you’ll apply in developing clinically-oriented research questions. As there’s an extensive collaboration between the Faculty of Science and the Radboud university medical center, you’ll become familiar with both perspectives.

- Biomaterials
In your internships you’ll work with biomaterials, such as patient and animal samples. This means you’ll apply your biological knowledge to real-life situations. Clinical biologists do not work with patients or clinical treatments directly.

- Three focus areas
This Master’s specialisation focuses on three main topics:

- Molecular Mechanisms of Novel Therapeutics
Which molecular mechanisms lead to cancer? And how can these be translated into clinical practice? These are key questions in the specialisation in Clinical Biology. For example, we’ll dive into the functioning of epigenetics (heritable modifications of chromosomes without altering the nucleotide sequence), transcription factors, tumour suppressors and immunotherapy.

- Human Genetics and Physiology
This part is about how new developments and discoveries in genetic and molecular fields can help individual patients to improve functionality, independence and quality of life. You’ll study genetic pathways and the functionality of individual organs, organ systems, regulatory mechanisms, and individuals as a whole, in an integrative way.

- Metabolism, Transport and Mobility
The energy balance in our body is one of the most important factors in health and disease. We’ll teach you how energy and metabolites are integrated into the larger cellular networks for metabolism, transport and motility.

See the website http://www.ru.nl/masters/clinicalbiology

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Cardiovascular disease is projected to remain the single leading cause of death over the next two decades, accountable for considerable disability and reduction in quality of life. Read more
Cardiovascular disease is projected to remain the single leading cause of death over the next two decades, accountable for considerable disability and reduction in quality of life. This Masters in Cardiovascular Sciences will include specialist training in the epidemiological nature of the disease, in combination with analysis of the cellular and molecular mechanisms that underlie its development.

Why this programme

◾This course is provided by world leading experts in the BHF Glasgow Cardiovascular Research Centre. Cardiovascular Medicine at Glasgow is rated in the UK’s top ten and has a research grant income of £50M.
◾Research for the MSc in Cardiovascular Sciences is supported by the BHF, MRC, Wellcome Trust, CSO, BBSRC and the European Commission.
◾You will undertake a research project with an established cardiovascular researcher.
◾This course is provided by world leading experts in the BHF Glasgow Cardiovascular Research Centre.
◾The Cardiovascular Science Degree has a modular based course containing taught elements, tutorial sessions, critical review sessions and hands-on demonstration of current laboratory techniques.
◾Tailored laboratory projects to suit student’s expertise and interests.
◾If you are a science or medicine graduate looking to gain knowledge and new skills in the field of cardiovascular medicine, this programme is designed for you.
◾You will have the opportunity to acquire and integrate a knowledge base in many new techniques for research in clinical cardiovascular medicine, including established risk factor measurements, novel imaging techniques, gene therapy, stem cells and the evolving genomics and proteomics fields.
◾Cardiovascular science is a priority area for research funding, in recognition of the fact that new, improved treatments are required and that these can only arise through better understanding of its development. The University of Glasgow has a world-renowned reputation for expertise in cardiovascular research and education.
◾Research is supported by the BHF, MRC, Wellcome Trust, CSO, BBSRC and the European Commission.
◾Opportunities exist at Glasgow University to continue to PhD Studies.

Programme structure

In addition to the taught courses you will take part in student-led critical review sessions where you will provide a critical appraisal of a scientific research paper taken from current literature.

You will also take part in an introductory session on how to review a scientific paper, designed to give you experience of reading, summarising and presenting the findings of a scientific publication in a critical manner.

Core courses
◾Clinical aspects of cardiovascular disease
◾Established and novel research techniques
◾Evidence based research in medicine
◾Medical statistics
◾Topics in therapeutics - general topics and cardiovascular disease
◾Topics in therapeutics - commonly used drugs
◾Pharmacogenomic and molecular medicine - fundamentals of molecular medicine
◾Pharmacogenomic and molecular medicine - applied pharamcogenomics and molecular medicine

Optional courses
◾Basic science diabetes and vascular disease
◾Clinical and research audit

In addition you will undertake a dissertation/project supervised by an established cardiovascular researcher.

Career prospects

Successful graduates will emerge equipped with the skills necessary for a career in the highly competitive field of cardiovascular research. Career opportunities include education, clinical translational cardiovascular research, public health bodies or commercial industrial research in the field of cardiovascular medicine. Students who have completed course are currently employed in NHS, PhD programmes, academia and industry.

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The programme is designed for graduates with a biological background and builds on existing core biosciences modules in the area of applied biotechnology. Read more
The programme is designed for graduates with a biological background and builds on existing core biosciences modules in the area of applied biotechnology. It gives a grounding in the early stage drug discovery process for those interested in careers in biotechnology or the pharmaceutical industry.

The MSc covers application of technologies to early stage drug discovery focusing on target identification, target validation, and lead discovery and design follow-up through understanding protein ligand interactions and biophysics at a molecular level in order to produce good drug candidate molecules via rational drug design.

The programme also includes site visits to biotechnology companies and industry, plus workshops/lectures from invited industrial experts.

Visit the website: https://www.kent.ac.uk/courses/postgraduate/227/drug-design

About the School of Biosciences

The School of Biosciences is among the best-funded schools of its kind in the UK, with current support from the BBSRC, NERC, MRC, Wellcome Trust, EU, and industry. It has 38 academic staff, 56 research staff (facility managers, research fellows, postdoctoral researchers and technicians), approximately 100 postgraduate students and 20 key support staff. The school's vibrant atmosphere has expanded to become a flourishing environment to study for postgraduate degrees in a notably friendly and supportive teaching and research environment.

Research in the School of Biosciences revolves around understanding systems and processes in the living cell. It has a strong molecular focus with leading-edge activities that are synergistic with one another and complementary to the teaching provision. Our expertise in disciplines such as biochemistry, microbiology and biomedical science allows us to exploit technology and develop groundbreaking ideas in the fields of genetics, molecular biology, protein science and biophysics. Fields of enquiry encompass a range of molecular processes from cell division, transcription and translation through to molecular motors, molecular diagnostics and the production of biotherapeutics and bioenergy.

In addition to research degrees, our key research strengths underpin a range of unique and career-focused taught Master’s programmes that address key issues and challenges within the biosciences and pharmaceutical industries and prepare graduates for future employment.

Course structure

The MSc in Drug Design involves studying for 120 credits of taught modules, as indicated below. The taught component takes place during the autumn and spring terms, while a 60-credit research project take place over the summer months.

The programme is taught by staff from the Biosciences, Industrial Biotechnology Centre and industrial scientists who all have experience of working with the drug industry (both large pharma and biotech).

In additional to traditional scientific laboratory reports, experience is gained in a range of scientific writing styles relevant to future employment.

Modules

The following modules are indicative of those offered on this programme. This list is based on the current curriculum and may change year to year in response to new curriculum developments and innovation. Most programmes will require you to study a combination of compulsory and optional modules. You may also have the option to take modules from other programmes so that you may customise your programme and explore other subject areas that interest you.

BI827 - Advanced Drug Design (30 credits)
BI830 - Science at Work (30 credits)
BI836 - Practical and Applied Research Skills for Advanced Biologists (30 credits)
BI840 - Cancer Therapeutics: From the Laboratory to the Clinic (15 credits)
BI852 - Advanced Analytical and Emerging Technologies for Biotechnology and Bio (30 credits)
BI857 - Cancer Research in Focus (15 credits)
CB612 - New Enterprise Startup (15 credits)
BI845 - MSc Project (60 credits)

Assessment

Assessment is by coursework and the dissertation.

Programme aims

This programme aims to:

- provide students with an academic framework to underpin your career in the pharmaceutical, biotechnology industry or applied translational research in an academic environment

- give you an understanding of the process of academic investigation in a range of academic disciplines relevant to drug design

- provide a stimulating, research-active environment for teaching and learning in which you are supported and motivated to achieve your academic and personal potential

- facilitate a valuable learning experience through a variety of teaching and assessment methods that will promote the assimilation, comprehension, analysis application, synthesis and evaluation of the knowledge base

- give you the experience of undertaking an independent research project or dissertation

- prepare students for further training and employment both in science and non-science based careers by developing transferable and cognitive skills

- develop the qualities needed for employment in situations requiring the exercise of professionalism, independent thought, personal responsibility and decision-making in complex and unpredictable circumstances

- provide access to as wide a range of students as practicable irrespective of race, background, gender or physical disability from both within the UK and from overseas.

Careers

A postgraduate degree in the School of Biosciences is designed to equip our graduates with transferable skills that are highly valued in the workplace. Our research-led ethos ensures that students explore the frontiers of scientific knowledge, and the intensive practical components provide rigorous training in cutting edge technical skills that are used in the modern biosciences while working in areas of world-leading expertise within the School.

Destinations for our graduates include the leading pharmaceutical and biotechnological companies within the UK and leading research institutes both at home and abroad.

Find out how to apply here - https://www.kent.ac.uk/courses/postgraduate/apply-online/227

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