Aspiring to contribute to the development of new therapies for metabolic, infectious and immunological diseases or cancer? Radboud University's internationally acclaimed Research Master's programme in Molecular Mechanisms of Disease provides an excellent foundation for a career in academic or commercial research.
Only by dissecting the molecular mechanisms that trigger and advance diseases and dysfunctions can we design effective treatments and medicines. The Research Master's in Molecular Mechanisms of Disease (MMD) offers you an intensive two-year programme that provides you with in-depth knowledge and research experience of disease-related molecular mechanisms. In addition, you will acquire skills such as academic writing and presentation skills and learn how to successfully apply for grants and market yourself.
As an MMD student you will be part of the unique research community that is found within the Radboud Institute for Molecular Life Sciences (RIMLS). Like you, RIMLS researchers have a strong passion for research. They will assist you throughout the programme with guidance and expertise, supporting you in acquiring knowledge and developing excellent research skills. The RIMLS is one of the research institutes of the Radboud university medical center, so their research is closely linked to the clinic and thus aimed at translating results into treatments for patients. Examples include the translation of insights into the biology of antigen-presenting cells into new immunological cancer therapies and understanding the mutations underlying blindness into the development of gene therapies for patients with inherited blindness.
See the website http://www.ru.nl/masters/mmd
- You will follow a broad biomedical programme that allows you to specialise in your specific field-of-interest.
- You will have intense daily contact with established researchers.
- You will participate in group-oriented education and be part of a small group of highly motivated national and international students.
- A personal mentor will help you to reflect on your study programme and career perspective.
- You will do two 6-months research internships one of which will be abroad.
- There is a 92% pass rate of MMD students within the two years.
- International MMD students can apply for scholarships from the Radboudumc Study Fund.
There is considerable demand for experts in the molecular biomedical sciences as well as in their application to the development of treatments for diseases such as cancer, autoimmune and inflammatory disorders, and metabolic diseases.
Graduates in MMD are equipped with cutting-edge knowledge of multidisciplinary research in the mechanisms of disease and in state-of-the-art diagnostic methods and technologies. During the programme, you will develop a highly critical, independent approach to problem-solving. You will also acquire the basic management skills needed to lead R&D projects in the biotechnology and pharmaceutical industries.
Most of our graduates will enter an international PhD programme to continue with research in academia or industry.
The MSc Molecular Mechanisms of Disease aims to provide all skills and knowledge necessary to rapidly enter an international PhD programme. In the Netherlands and many places in Europe, it is impossible to start a PhD programme directly after obtaining a Bachelor's degree. This research Master’s programme seriously increases your chances for obtaining an excellent PhD training position by giving you a mature perspective and a broad range of experimental approaches. In fact, over 90% of our graduates has started a (funded) PhD project.
The Radboud Institute for Molecular Life Sciences (RIMLS) recruits about fifty PhD students a year. MMD graduates are excellent candidates for these positions. Furthermore, the Radboud university medical centre offers the opportunity for its research-oriented Master's students to write their own research project. The best candidates are awarded a fully funded four-year PhD studentship at the department of their choice.
The molecular regulation of cellular processes is crucial for human development, and maintenance of health throughout life. It's evident that cellular malfunction is the cause of common multi-factorial diseases such as diabetes, immune and inflammatory disorders, renal disease, cardiovascular, metabolic and neurodegenerative diseases as well as obesity and cancer.
The Radboud Institute for Molecular Life Sciences (RIMLS) Graduate School plays a key role in developing new therapies for the fight against such diseases. RIMLS aims to improve diagnostics and develop new treatments by generating basic knowledge in the molecular biomedical life sciences and translating it into clinical application and experimental research in patients.
The RIMLS – which is part of Radboud university medical center – offers an exclusive Master's programme in Molecular Mechanisms of Disease. Top researchers and clinicians teach the programme.
The MMD programme is organised along three major educational themes which reflect the main research areas present in the RIMLS and which each include both a fundamental and a disease-related aspect:
- Theme 1 Infection, Immunity and Regenerative Medicine / Immunity-related Disorders and Immunotherapy
- Theme 2 Metabolism, Transport and Motion / Metabolic Disorders
- Theme 3 Cell Growth and Differentiation / Developmental Disorders and Malignancies
See the website http://www.ru.nl/masters/mmd
Do you have a Bachelor’s degree in biology, biotechnology, chemistry, biochemistry, bioengineering or biomedical science, and are you still fascinated by the biochemical unity that underlies the world’s biological diversity? Then the Master in Molecular Biology is the programme you’re looking for! This high-level scientific programme with strong multidisciplinary courses combines a theoretical formation with research-oriented skills. The Master is an interuniversity programme, jointly organised by the Vrije Universiteit Brussel, KULeuven and the University of Antwerp, all located in Belgium. Students can choose between the Profile Biotechnology for Global Health and the Profile Agro- and Plant Biotechnology.
Molecular Biology is a rapidly developing discipline. It stands at the crossroads of chemical, biological, physical and computational sciences and focuses on the understanding of cellular processes, biological molecules and their interactions. Molecular Biology is a multidisciplinary area of study that deals with the structure and function of molecules as well as their interplay in creating the phenomenon of life.
After graduation, you will be able to contribute to the improvement of human health or plant production through a molecular biological approach. You will know how to appraise the scientific and social aspects of applied molecular biology.
We train our students so they can cope with a wide range of scientific problems as well as the development of preventive strategies, diagnostic techniques and therapies while being aware of the ethical issues related to this field.
A critical mind will allow you to consider and reflect on existing and new theories within the study field and will help you to solve global problems or issues that both developing and developed countries are facing.
The programme content has been developed by several outstanding and multidisciplinary scientific teams. The advanced courses and electives are taught by leading researchers with a proven scientific track record, thus contributing to the research-oriented nature of the programme.
The two-year Interuniversity Master in Molecular Biology requires full-time attendance and active participation in lectures and discovery-based laboratory work to develop the mentality that drives the progress of science.
During practical training, problem-solving formats are used in which students work together to make observations and to analyze experimental results. Students who learn via problem-solving formats demonstrate better problem-solving ability, conceptual understanding and success in subsequent courses than those who learn in traditional, passive ways.
Masters of Molecular Biology find employment in universities, hospitals, private and governmental research laboratories, patenting bureaus, as lecturers, consultants, advisors to policy-makers, etc. Many graduates proceed to PhD-programmes in Belgium or abroad.
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
The practice of medicine, especially in the disciplines of Pathology and Genetics is increasingly reliant on Genomic technology. The aim of this programme is to increase the knowledge and capability of scientific and clinical staff using genetic data in their daily work allowing them to engage confidently with the scientific concepts of Molecular Pathology and Genomic Medicine, and to use their skills to improve patient care. The programme could also provide a foundation for those students interested in developing a clinical academic career.
The University of Edinburgh is at the forefront of Genomic Technology. To adequately realise the potential of these technologies in a diagnostic setting this programme will cover the scientific underpinning and clinical application of genomic technology to enable clinicians and scientists to provide maximum benefit to patients.
The programme will provide a structured environment for students wishing to develop cutting edge knowledge and practical skills in Clinical Genomics and Molecular Pathology. The programme structure is designed around three central themes: scientific foundation, diagnostics, and patient management and treatment.
The PG Cert is comprised of four compulsory courses, totalling 60 credits.
Students will learn via a mixture of guided online activities, in-person tutorials, and in course four, an extended project. In addition to structured learning, students are expected to conduct independent study and read around the subject area.
Students will develop their critical analysis skills through evaluation of primary research articles and reviews. Students will learn how to perform variant analysis and next generation sequencing data analysis using relevant bioinformatics tools. Students can also expect to develop the communication skills required for interacting with the major stakeholders of genomic information: clinical scientists, doctors and patients.
Teaching is performed by a variety of staff who are leaders in their field, as well as experienced educators. The core teaching team is comprised of staff from the NHS Lothian Clinical Genetics Service and Pathology departments. Additional teaching is performed by clinical and scientific staff from across Edinburgh University and the UK. In addition, the programme has a dedicated teaching teaching fellow, who will provide academic and pastoral support throughout all courses.
Postgraduate Professional Development (PPD)
Aimed at working professionals who want to advance their knowledge through a postgraduate-level course(s), without the time or financial commitment of a full Postgraduate Certificate.
You may take a maximum of 50 credits worth of courses over two years through our PPD scheme. These lead to a University of Edinburgh postgraduate award of academic credit. Alternatively, after one year of taking courses you can choose to transfer your credits and continue on to studying towards a higher award on the Postgraduate Certificate programme. Any time spent studying PPD will be deducted from the amount of time you will have left to complete a Postgraduate Certificate programme.
The programme will adopt a blended learning format, with teaching delivered via online as a eLectures and interviews, in-person tutorials, and online interactive content.
Programme materials and resources will all be available in the virtual learning environment, Learn. Learn provides an interactive forum for students to engage with other learners and the programme teaching staff. Multiple feedback opportunities will be integrated within each course and will comprise of weekly interactive online quizzes, discussion boards and office hours. In-person tutorials will also represent an important feedback opportunity for students. Assessment will vary slightly with each course, common assessment modalities include structured written assignments, presentations and data analysis reports.
The programme is aimed primarily at NHS laboratory and clinical staff. It is designed for anyone wishing to expand their understanding of molecular pathology and how it applies to clinical diagnostics. The PG Cert will be of use to a wide range of individuals as it can be used to support FRC Path, Clinical Scientist Development and Genetic Technologist Registration. It can be used as a component of STP and could potentially contribute the first 60 credits of MSc. It will also provide the scientific underpinning for Genetic Counselling.
This award is offered within the Postgraduate Scheme in Health Technology, which aims to provide professionals in Medical Imaging, Radiotherapy, Medical Laboratory Science, Health Technology, as well as others interested in health technology, with an opportunity to develop advanced levels of knowledge and skills.
A. Advancement in Knowledge and Skill
Students develop intellectually, professionally and personally while advancing their knowledge and skills in Medical Laboratory Science. The specific aims of this award are:
B. Professional Development
C. Evidence-based Practice
D. Personal Development
Our laboratories are well-equipped to support students in their studies, research and dissertations. Our specialised equipment includes a flow cytometer, cell culture facilities; basic and advanced instruments for molecular biology research (including thermal cyclers, DNA sequencers, real-time PCR systems and an automatic mutation detection system), microplate systems for ELISA work, HPLC, FPLC, tissue processors, automatic cell analysers, a preparative ultracentrifuge and an automated biochemical analyser.
This programme is accredited by the Institute of Biomedical Science (UK), and graduates are eligible to apply for Membership of the Institute.
To be eligible for the MSc in Medical Laboratory Science (MScMLS), students are required to complete 30 credits:
Apart from the award of MScMLS, students can choose to graduate with the following specialism:
To be eligible for the specialism, students should complete 2 Compulsory Subjects (6 credits), a Dissertation (9 credits) related to the specialism, 4 Specialty Subjects (12 credits) and 1 Elective Subject (3 credits).
* Specialty Subject