Our Human & Applied Physiology MSc will give you an advanced theoretical and practical understanding of the functioning of the muscular, respiratory and cardiovascular systems, including the effects of extreme environmental conditions on whole-body physiology. This innovative course will put you at the cutting edge of the field alongside internationally renowned experts.
This course will give you a theoretical and practical basis for explaining the functioning of the muscular, respiratory and cardiovascular systems at rest and during exercise. You will explore the effects of extreme environmental conditions on whole body physiology, including in relation to aerospace and military medicine.
You will study topics from both systemic and cellular/molecular perspectives in order to gain an understanding of the breadth of investigative approaches employed in human physiology research. You will also focus on practical work, learning how to plan and run experiments using human subjects.
Ultimately we aim to equip you with the knowledge and skills to enhance your understanding and expertise in human physiology in its broadest sense and build a career in a related field.
For every 30-credit module we will provide you with 36 hours of teaching through lectures and tutorials, along with 24 hours of practical classes. For every 15-credit module you will have six hours of teaching. The 60-credit research project is a 12-week full-time laboratory-based research project, and how long it takes will depend on your project. We will expect you to complement all of this with self-study.
We will assess you through unseen written exams, lab reports, poster and oral presentations and coursework essays.
The study time and assessment methods detailed above are typical and give you a good indication of what to expect. However, they may change if the course modules change.
The course is primarily taught at the King’s College London Guy’s campus. Please note that locations are determined by where each module is taught and may vary depending on the optional modules you select.
King’s College London is regulated by the Higher Education Funding Council for England.
Our graduates go on to careers in academic teaching and research, medicine, clinical physiology, health services, sports science support, and research posts in industry or in Ministry of Defence research establishments.
This MRes Molecular Microbiology course will provide you with a strong grounding in microbial genetics and molecular biology, through the exploration of microbial structure, physiology, and behaviour at the molecular level. The course includes optional modules for you to select depending upon your aspirations and interests.
The MRes courses are divided into a taught element (60 credit points) and a laboratory-based research project (120 credit points). You will complete the extended research project in one of our highly rated research teams.
This exciting MSc Molecular Microbiology course is designed to provide you with a multidisciplinary approach to the study of the molecular biology of micro-organisms. You'll study the key concepts associated with molecular microbiology and use these when considering their role in health, disease and in the natural environment.
Practical work forms a large proportion of your learning to ensure that you have extensive skills for employment or research and there is an emphasis on developing knowledge and understanding such that you acquire the skills, qualities and attributes expected by employers or for postgraduate research.
The MSc is divided into 60 credit point taught modules and the research project is worth 60 credit points.
Visit us on campus throughout the year, find and register for our next open event on http://www.ntu.ac.uk/pgevents.
This study course is for students who wish to become specialised graduates with an advanced biomedical knowledge concerning the links between the structure and the purpose of biomolecules and bio-systems operating at cellular and tissue level of the human body, in both physiological and pathological conditions. The wide knowledge of the techniques is based on a solid practical activity in laboratories during the internship.
Subject to the educational aims of Class LM-9, the acquired knowledge allows specialized graduates to assist physicians in the diagnostic and therapeutic tasks involving the manipulation of cells, genes, and other biosystems requiring applicants to learn special skills in experimental biotechnology (e.g. Diagnosis and gene therapy; therapy through the use of genetically engineered cells; rational design and development of new medicines based on models of molecular targets known or derived from pharmacogenomic knowledge; preparation of nano-biotechnological tools for advanced diagnostics imaging and drug delivery; modulation of the immune response; diagnostics based on innovative processes of science and medical laboratory techniques; immunotherapy to targeted cells); organize and coordinate laboratory activities for advanced research or for diagnostic examinations requiring the use of biotechnological methods and the manipulation of cells or biotechnological materials; organize and coordinate the experimental protocols of clinical research involving the use of materials or biotechnology techniques; design and perform with autonomy research in biotechnology applied to medicine; lead and coordinate, also in governance, development programs and surveillance of biotechnology applied to human beings, taking into account the ethical, technical, environmental and economic implications.
First year: Advanced Biomedical Technologies Or Laboratory Activities 1: Cellular And Molecular Therapies Or Laboratory Activities 2: Molecular And Systems Biology, Laboratory Medicine Technologies And Molecular Diagnostics, Pharmaceutical Biotechnology: Design And Analysis Of Biopharmaceuticals, Seminar
Molecular Medicine Curriculum: 6 Months At Ulm University: Glp/Gsp Bioethics, Molecular Oncology, Trauma Research And Regenerative Medicine
Traditional Curriculum: Proteomics And Bioinformatics, Cell And Organ Physiology And Medical Pathophysiology, Genetics, Immunology And General Pathology, Nanobiotechnology
Second year: Experimental Models In Vivo And Vitro, Pharmacology And Molecular Therapies, Stem Cell Biology And Molecular Biology Of Development, Thesis Work
Molecular Medicine Curriculum + Proteomics And Bioinformatics
Biotechnology physicians will be able to head research laboratories in a predominantly technological and pharmacological environment and coordinate, as well as in terms of management and administration, program development and the monitoring of biotechnology applied on human beings with emphasis on the development of pharmaceutical products and vaccines, taking into account the ethical, technical, and legal implications and environmental protection.
Graduates will be able to assist doctors in the diagnostic and in the therapeutic phases when those imply the manipulation of cells, genes and other bio systems and when specific biotechnological experimental competences are required.
The University of Padova, the Veneto Region and other organisations offer various scholarship schemes to support students. Below is a list of the funding opportunities that are most often used by international students in Padova.
You can find more information below and on our website here: http://www.unipd.it/en/studying-padova/funding-and-fees/scholarships
You can find more information on fee waivers here: http://www.unipd.it/en/fee-waivers
Translating fundamental biomedical discoveries into applied clinical practice and public health issues
Human 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 Human 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/humanbiology
- 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.
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.
- From human biology to clinical treatment
Human 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.
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 Human 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/humanbiology
This Sport Masters programme is delivered by world-leading experts at Liverpool John Moores University. You will have access to excellent facilities, geared towards both classical physiology and research at the forefront of molecular exercise physiology.
The Centre for Discovery Brain Sciences (CDBS) carries out research at molecular, cellular, systems and behavioural levels to understand fundamental mechanisms and pathways relevant to brain and body function in health and disease.
CDBS investigators exploit rapid advances in the enabling technologies available from genomics, proteomics, imaging, informatics, and in-vivo analysis to understand the function of gene products at the cell, organ and whole-animal level. They exploit the most appropriate model organisms/systems to investigate the delicate balance between high biomedical relevance (for example human, mouse, rat) and high genetic power (such as C. elegans, drosophila or zebrafish).
Research focuses on understanding fundamental mechanisms and pathways relevant to human function in health and disease across the life course.
Our MSc by Research in Integrative Physiology is a full-time 1-year research project done under the supervision of a CDBS Researcher. This programme has no taught component and is therefore only suitable for highly motivated students with a clear idea of their research interests and goals, with significant theoretical or practical knowledge of a chosen field. An MSc by full-time research provides an excellent training in laboratory research and a strong grounding for further study at the level of PhD. Initial enquires should be made directly to Dr. Paul Skehel.
MSc students will work full-time on their research project with the additional option of taking selected transferable skills courses. Each student will have two supervisors. After 3 months study a short presentation and report of completed and proposed work will be made to the supervisors, at which point progression from Diploma to full Masters will be considered. Students that demonstrate sufficient progress and aptitude will progress for a further 9 months full-time research after which a Dissertation will be presented and assessed for the award of MSc.
If you're interested in applying for the MSc by Research, please review the Research Profiles and recent publications from members of the CDBS:
A preliminary email briefly outlining your research interests and identifying up to three potential supervisors from the CDBS should be sent directly to Dr Paul Skehel. If appropriate, students will then be invited to submit a short 400-word general outline for a potential MSc project with specific supervisors. Applicants progressing to this point will then be guided to make a formal application on this page. Please note that the MSc by Research has additional programme costs of £5,000.
Students have access to state-of-the-art laboratories and equipment for all aspects of modern molecular, cellular and systems biology to facilitate their research objectives. These are located both within the Central area campus and at the Little France campus. Extensive collaborations exist with the wider biomedical and clinical communities helping ensure you are supported in a world-class research environment.
Research is mainly funded by grants from the MRC, the BBSRC and industrial companies.