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The scope of Biomedical Engineering in Germany is pretty good. Almost all the big companies of the biomedical field produce in Germany, so there are plenty of biomedical engineering jobs in Europe. Keep reading to get more information about biomedical engineering salary in Europe, biomedical engineering jobs for freshers in Germany, biomedical engineer salary in Germany and the biomedical engineer salary in Germany.

Students who wish to further their educations after getting a bachelorโ€™s degree often opt to enroll in masterโ€™s programs. Such programs are also required before students can get doctoral degrees. Students with masterโ€™s degrees gain specialized knowledge that usually positions them for higher salaries and jobs with more responsibility.

What is a Master in Biomedical Engineering? Biomedical engineering focuses on the analysis and design of solutions in biology and medicine. For example, a biomedical engineer could choose to develop an artificial organ or a device to help a person use his arm again. The overarching goal of such engineering is to enhance the quality and effectiveness of patient care. To this end, higher-level biomedical engineering education involves classroom-based work as well as hands-on, laboratory courses. Students work with fluid and solid mechanics, biomaterials and with biological sciences.

Students reap many benefits from this education. For instance, a masterโ€™s degree can qualify a person to lead a research team, and students often further their practical engineering design skills.

Universities worldwide offer programs in biomedical engineering. As a result, the cost of such programs depends on the school. Students should contact colleges for specific information on costs and always thoroughly research programs.

Students who get biomedical engineering degrees have several options. Many go on to dental or medical school (or already have that experience) in order to use practical biomedical applications in patient care. Some obtain law degrees to work as patent attorneys. Biomedical engineers work in hospitals as part of therapy teams and in research laboratories. They also work in manufacturing environments and in business offices.

Biomedical engineering students have the option of taking classes part time or full time. Students with other responsibilities may enjoy the choice of taking online classes, which many universities offer. To get started, search for your program below and contact directly the admission office of the school of your choice by filling in the lead form.

biomedical engineering jobs for freshers in Germany

Scope of Biomedical Engineering in Germany

Course levelPost-Graduation
Duration2 years
Examination TypeSemesters
EligibilityQualifying B.Sc. in Biomedical Engineering with 50% aggregate and above from a recognized university / Entrance Test such as IIT-JEE, BCECE, UPSEE, JCECE, etc.
Admission processMerit and Entrance Based
Course FeeINR 50,000 to 2 lacs
Average salaryINR 2 to 18 lac per annum
Top Recruiting CompaniesDiagnostic Centres, Research, and Development, Healthcare, Marketing, etc.
Job PositionsProject Manager, Product Specialist, Biomechanics Engineer, Patent Analyst, etc.

M.S. in Biomedical Engineering:What is it About?

Biomedical Engineering deals with the area of biology, medicine and engineering fused together. M.S. in Biomedical Engineering lays across to candidates the platform for monitoring, treating and preventing diseases and various other medical conditions. Candidates are made aware of the various intricacies involved in the study as well as the tools and techniques needed in bringing breakthrough advancements in the field of science.

The program covers all the aspects involved in Biomedical Engineering starting from molecular biology, body physiology, system level biology and mathematics. Candidates through M.S. in Biomedical Engineering program are trained in different dimensions to mold them as professionals in the field. They are rendered a medium to polish their analytical and interactive skills, communication skills in reading and writing as well as evaluating the changes with a keen eye for detail. The course is designed with the view of educating candidates for gaining advanced knowledge and training in science stream so as to build their career in the field of biomedical engineering.APPLY NOWCHECK ELIGIBILITYGET UPDATES

The curriculum applies the methodology of combining theory with practice, thereby offering the students extensive and in-depth understanding of the field. It includes a combination of research, developing new products, life sciences, physics, chemistry, and natural science. The other methodologies which make part of the study are seminars, presentations and case studies. M.S. in Biomedical Engineering course will also include dissertation by the students in the final year to prepare them for higher studies in the field for doing research.

M.S. in Biomedical Engineering through the program turns the students proficient to take up higher qualification of research in the field of Biomedical Engineering. They are made competent to hire as project managers, product specialists and much more in eminent private and public-sector organizations. The overall aim of the course is to build in students the competence to take up future studies in addition to growing their career in the field of biomedical engineering.https://34385608b87de7d53e483613e4f38aa9.safeframe.googlesyndication.com/safeframe/1-0-38/html/container.html

M.S. in Biomedical Engineering: Top Colleges and Institutes

Name of InstitutionLocationAverage Course Fee (in INR)
Banasthali VidyapithRajasthan1,98,000
Karpaga Vinayaga College of Engineering and TechnologyTamil Nadu1,90,000
MIT College of EngineeringPuneNA
Indian Institute of Technology โ€“ IIT MadrasTamil Nadu50,000
Lovely Professional UniversityPunjab1,98,000

M.S. in Biomedical Engineering: Eligibility

The eligibility criterion for M.S. in Biomedical Engineering are as follows:

  1. Candidates should have completed their Bachelor’s degree in Biomedical Engineering with a minimum aggregate of 50% marks and above from a recognized university.
  2. They should have studied Physics, Chemistry, Biology, and Mathematics as the main subject of study in class 12.
  3. They must pass the entrance examination conducted by the respective colleges and universities.

M.S. in Biomedical Engineering: Admission Process

Candidates seeking admission to M.S. in Biomedical Engineering must fulfill the prescribed eligibility criteria as set by different universities of colleges. This includes passing Bachelor’s degree in Biomedical Engineering with a minimum aggregate of 50% marks and above from recognized universities with either Physics, Chemistry, Biology, and Mathematics as the main subject of study in class 12th. The admission eligibility is subject to vary for different colleges and institutes. Admission to the course is done on the merit basis, however, certain reputed colleges and universities may conduct their own entrance examination in the process of candidate selection. The overall marks obtained in qualifying examination and entrance tests is thereby calculated to obtain the merit which is subject to differ for various universities.

Some of the entrance examinations held for M.S. in Biomedical Engineering are as follows:

  • JEE Advanced 2020 – Indian Institute of Technology Joint Entrance Exam 2020
  • UPSEE 2020 โ€“ Uttar Pradesh State Entrance Test
  • JCECE 2020 โ€“ Jharkhand Common Entrance Competitive Exam
  • BCECE โ€“ Bihar Common Entrance Competitive Exam

Applicants can apply for M.S. in Biomedical Engineering program both through online as well as the offline basis. All information about admission dates, counseling and selected students list will be notified through email or listed on the official website of the college.

M.S. in Biomedical Engineering:Syllabus and Course Description 

The curriculum is designed with a view of getting students acquainted with the subject. They are rendered an overall understanding of the subject using different tools and techniques along with combining the study of life sciences, designing, developing medical devices, procedures for diagnosis and building of tools for better treatment

Below listed is an overview of M.S. in Biomedical Engineering syllabus followed by most of the universities and colleges:

Subjects of Study
Biomedical Imaging Systems
Image Processing
Biomedical Instrumentation
Biomechanics
Design of Algorithms and Data Structures
Signal Processing
Computer Graphics
Seminar
Dissertation

** The Syllabus of the program may differ for different colleges.

M.S. in Biomedical Engineering: Career Prospects

Graduates after the completion of M.S. in Biomedical Engineering program have a plethora of opportunity in the area of biomedical engineering in both public as well as private sector. This includes working in research and development, biomedical companies and much more. They can choose their career in the field of Healthcare, Manufacturing Companies, Diagnostic Centres, Marketing Department and other such. They can choose to become project managers, product specialist, healthcare manager, packaging engineer, biomedical officer and much more.

Enlisted below are some career options for candidates to choose from:M.S. in Biomedical Engineering annual salary

Job ProfileJob DescriptionAverage Salary (in INR) per annum
Engineering TechnicianRole includes creating products, improving methods and maintaining the systems involved.INR 2 to 3 lacs
Product SpecialistRole includes monitoring aspects, marketing the products, developing and ensuring the product is upscales the profits.INR 5 to 6 lacs
Project ManagerRole includes managing and maintaining records as well as overseeing the project and processes are carried in the proper way.INR 12 to 18 lacs
Biomedical OfficerRole includes diagnosing, installing, testing and repairing equipment as well as maintaining safer operations.INR 6 to 9 lacs
Quality Control and Testing ManagerDevise procedures, monitor operations, supervise and guide the technicians in managing the quality of products.INR 9 to 11 lacs
Packaging EngineerOverseeing the procedures, packaging development processes, managing products and carrying on the operations.INR 4 to 5 lacs

Program description

MSc in Biomedical Engineering

MSc Biomedical Engineering offers you the opportunity to gain in-depth information on a broad-range of topics within health care and technology, while working with state-of-the-art medical facilities.

Current-day medical practice relies increasingly on technology. You can think of imaging the inside of your body with MRI or CT, solving heart problems by placing artificial valves, or measuring stress to avoid a burn-out. Many disciplines are involved to realise these devices: microelectronics, information technology, mechanical and material engineering.

As a biomedical engineer you have knowledge of all these fields of expertise and you apply it to develop new devices; from ever more advanced imaging instruments to scaffolds for tissue engineering; and from sensor systems to new implants and artificial organs. Commonly, you work in multidisciplinary teams with medical doctors, engineers, biologists and of course patients.

If you are interested in health care and technology, the Master’s programme Biomedical Engineering offers you the opportunity to gain in-depth information on a broad-range of topics. You will study topics in the fields of imaging techniques, physiological control engineering, rehabilitation engineering, implant engineering, cell and tissue engineering and infection prevention, as well as aspects of medical ethics and law. You also become well-versed in medical and biological basic knowledge.

In addition, the University of Groningen offers you state-of-the-art medical facilities and a unique professional cooperation with the University Medical Center Groningen (UMCG).

We also offer a European Master in Biomedical Engineering, with available scholarships. This joint project is organized between six European universities. Students will start the programme at one of these universities and will spend at least one year at a partner university.

Tuition fees

  • Full-time EU/EEA Students: โ‚ฌ 2,168 per year
  • Full-time Non-EU/EEA Students: โ‚ฌ 18,500 per year

Qualification

Masters of Science (MSc) in Biomedical Engineering

Should I Get a Master’s in Biomedical Engineering?

Students who love the technical aspect of medicine can pursue a biomedical engineering master’s degree. Most schools with a master’s program in the discipline also offer a bachelor’s degree in the field. However, many students with a background in life or natural sciences enroll in biomedical engineering programs. Once students enroll, they can explore class format.

On-campus courses appeal to students looking for the traditional college experience complete with a lecturing professor and a written syllabus. Online programs work best for self-starters, people who need little direction, and whose busy schedules prevent them from taking traditional courses. On-campus students value the face-to-face contact.

With this degree, learners develop into medical engineers capable of building an artificial heart from scratch. They understand the functions of every cell, artery, and organ in the body. They use this knowledge to create innovative medical devices that improve the quality of life for many people. Master’s programs in biomedical engineering expose students to the world of scientific technology and the ever-growing healthcare industry.

While in this program, students visit hospitals, laboratories, and other healthcare facilities filled with healthcare personnel and patients who rely on engineers to create the technology they use daily. Schools also help connect students with industry professionals and like-minded individuals. Students should take advantage of their school’s career services center before graduation.

What Can I Do With a Master’s in Biomedical Engineering?

Biomedical engineers possess a unique skill set because they understand the complexities of engineering coupled with the attributes of medicine. They can work in many different capacities creating, using, and selling equipment. Most scientists must know how to use advanced technology to perform their duties. A biomedical engineering master’s degree prepares graduates to work with this equipment, using it to conduct research and test samples. Students interested in the industry’s research aspect enjoy working in laboratories with other researchers to brainstorm ideas. Extroverted students like interacting with other healthcare personnel and prefer sharing their inventions in the field.

A bachelorโ€™s degree is a post-secondary degree awarded after completed 120 credits. It usually takes eight semesters to complete a Bachelorโ€™s degree. While completing an undergraduate course, candidates have to study general courses and chose a major specific subject. A Bachelorโ€™s degree can also be called a baccalaureate in certain countries.

The knowledge of human biology gets combined with engineering principles in the discipline of biomedical engineering. This type of scientific application works to create solutions to promote the length and quality of life.

Biomedicine degrees

Biomedicine degrees are connected to the broader discipline of Life Sciences. Biomedicine graduates will contribute to the diagnosis and treatment of disease, by conducting scientific research on how the body’s biochemistry interacts with drugs, external stimuli and other organisms. Biomedicine students studying at international medical schools close the gap between Natural Sciences and clinical practice

biomedical engineer salary in Germany

Study in Germany, at universities and colleges famous for excellent education, not only in Engineering. You can study in Germany in English, in some of the best universities in the world. Students coming to study abroad in Germany are attracted by the generous scholarships and the strong international focus of business schools, medical schools and engineering schools in the country.

Study Biomedicine or Biomedical Sciences: All you need to know
Author: Dee Lawlor โ€” Last update: 18 May 2020
Biomedicine, sometimes Biomedical Science (or โ€œBioMedโ€), is an academic field dedicated to the advancement of human medicine. It is a very diverse discipline – offering students an opportunity to explore the biological sciences and to work towards a career that can make a real difference in the world.

What is Biomedical Science?
Biomedical Science (Biomedicine) is the field of study that focuses on the areas of biology and chemistry that are relevant to healthcare. The discipline is very wide-ranging, and there are three general areas of specialty โ€“ life sciences, physiological sciences, and bioengineering. Careers in Biomedical Science are mostly research- and lab-based, with the aim to improve and advance medical knowledge.

The broadness of this discipline gives graduates many opportunities to specialise already during their studies, and thus offers many career options. It is a very โ€˜real-worldโ€™ discipline. Biomedical scientists regularly make headlines with advances in their fields, with results that you can see first-hand. As a biomedical scientist, you might be growing embryos for IVF, 3D-printing a heart, or finding a new medicine to fight cancer. Biomedicine is the field where biology, chemistry, and changing the world meet.

Where can I study Biomedical Science?
Biomedical Science is a very popular degree, and it is widely available across Europe. Note that some universities call it โ€œBiomedicineโ€, which is the same discipline.

Universities that offer Bachelors in Biomedicine:
Jacobs University Bremen (Germany)
NUI Galway (Ireland)
University of Kent (UK)
More: Show Bachelors in Biomedicine in Europe

Universities that offer Masters in Biomedicine:
Kaunas University of Technology (KTU) (Lithuania)
University of Helsinki (Finland)
University of Wรผrzburg (Germany)
More: Show Masters in Biomedicine in Europe

Is there a difference between Biomedicine and Biomedical Sciences?
โ€œBiomedicineโ€ and โ€œBiomedical Sciencesโ€ usually refer to the same thing. Degree programmes might be named one or the other, but this is mostly driven by how a university wants to present their curriculum to students like you. To be sure about the course content, check a programmeโ€™s list of mandatory and elective modules.

What can I expect to study in a Biomedicine Bachelorโ€™s programme?
An undergraduate course in Biomedicine covers an extremely diverse range of topics, making it an excellent choice for those who are yet unsure of where they would like to specialise.

As you advance through your degree, you will be offered many elective courses to choose from. It is a good idea to not specialise too early in your degree, as this will limit your options later on. You can expect to study subjects such as (but not limited to):

Anatomy, Physiology, Pathology
Microbiology, Cell Biology
Toxicology, Pharmacology
Epidemiology, Virology, Bacteriology, Immunology
Biochemistry, Molecular Biology
Phlebotomy
Genetics, Embryology
Bioinformatics
Bioengineering
A standard degree in Biomedical Sciences is three years long and will result in a Bachelors of Science (BSc). Some universities alternatively offer four-year programmes that result in an โ€œhonoursโ€ degree, BSc (Hons). This will make it easier to pursue a Masters or PhD later on.

Entry requirements for Bachelor programmes in Biomedicine will differ depending on the university, but you can expect to need good grades in Mathematics, Biology, and Chemistry.

Find Bachelors in Biomedical Sciences

What can I expect to study in a Biomedicine Masterโ€™s (MSc) programme?
It is at the Masterโ€™s level that most Biomedicine students choose a speciality, although a broad qualification is also an option. Your choices for postgraduate study will usually align with what courses you chose at undergraduate level. For example, a Masterโ€™s programme that is based heavily on genetics will be a good choice if you have covered genetics in detail during your Bachelorโ€™s, but would be difficult if your focus previously lay elsewhere.

The Masters that you choose will have a significant impact on your career path, so this is a good time to really think about where you want your career to go. Likewise, if you want to do a PhD, you need to ensure that your MSc aligns with the career or research field that you want to go into. Therefore, pay attention to the course content laid out in the curriculum when you decide which Masters to apply to.

Postgraduate courses are usually one or two years long and, as in undergrad, will be a mix of classroom-based and lab-based learning. You will usually need to have achieved a good final mark in your BSc degree to qualify for an MSc. In the UK, that often means an upper second-class Bachelorโ€™s (or โ€œ2.1โ€); in other countries, criteria can differ.

Find Masters in Biomedical Sciences

What should I know about doing a PhD in Biomedicine?
If you want to become an expert in your area of Biomedical Sciences, then pursuing a PhD is for you. Like other STEM subjects, a Biomedicine PhD usually takes a minimum of three years. Anything less than this is considered too short a time to have achieved anything significant enough to deserve a doctorate. Most PhD programmes are three or four years long, but they can last several years, depending on your project and the available funding.

It is possible to go straight from a BSc into a PhD programme, but you will need to have achieved very good marks. The application process for an PhD will usually include an interview and you will need to provide references from your lecturers and/or advisors.

PhD students will work closely with an advisor, who will guide and support them through their project. PhD projects involve a lot of research, experimental work, and data processing. At the end of the PhD programme, if you are successful in contributing something new to your field of science, you will earn the title of Doctor.

Find PhD programmes in Biomedical Sciences

The best universities for Biomedical Science
Teaching and research standards in Europe are high and you can expect to get high-quality education. If you are looking to get your Biomedicine degree from a top university, rankings can serve as one indication.

There is no ranking specifically for Biomedicine. But what comes close is the โ€œLife Sciencesโ€ ranking by Times Higher Education. Here are the top universities in 2020 in a selection of European countries:

Best in the United Kingdom: University of Cambridge (1st worldwide)
Best in Switzerland: ETH Zurich (11th worldwide)
Best in the Netherlands: Wageningen University & Research (20th worldwide)
Best in Sweden: Karolinska Institute (25th worldwide)
Best in Germany: LMU Munich (31st worldwide)
Best in Finland: University of Helsinki (71st worldwide)
How to pick the right university for Biomedical Science?
Biomedicine is a very popular course, and most universities that offer it are well-practiced at delivering a valuable curriculum. Some universities (especially in the UK) offer degree programmes with industrial placements. If you think you want to work in the private industry, then a course that includes a work placement will be a great choice. If no placement is embedded in the curriculum, you can always use semester breaks for internships.

Also, look for a university in a city where there are nearby pharmaceutical companies or large hospitals. They will always be interested in hiring graduates as they finish university, or hiring students as interns.

If you think you are going to be more interested in staying in academia, check out what research facilities the university has. Explore their website, try to find out what their lecturers specialise in, and try to learn more about the research projects that current PhD students are doing. It will give you an idea of the research areas that the university invests in.

Can studying Biomedical Science get me into Medicine?
Some universities accept Biomedical Science as an alternative entry into studying Medicine, i.e. to become a medical doctor. However, do not consider Biomedicine merely a feeder course! Most universities offer a very limited number of transfer places โ€“ many offer less than ten each year โ€“ and competition for those places is very high. So, while it is possible to use Biomedicine as a path into Medicine, it is not a recommended tactic.

Different universities have different criteria for transferring. Some universities will allow high-performing Biomedicine students to transfer into medicine after year one or two of their BioMed degree. Others will ask you to complete your degree in BioMed first.

Criteria for a transfer usually include that

you have performed excellently in your university exams and course work,
you have studied certain subjects previously, such as chemistry, and
you pass an interview, and have demonstrated excellent conduct and professionalism during your time in university.
Transfers between courses are usually internal, meaning you cannot transfer to a different university. However, if you have finished your undergraduate degree, you can then apply to Medicine somewhere else.

If you are considering trying to use Biomedicine as a way to transfer into medicine, contact the university directly and discuss your options with them first.

How is studying Biomedical Science different from Biotechnology?
Biomedical Science and Biotechnology (โ€œBioTechโ€) or Bioengineering overlap in many places, but they differ in their ultimate goal. In Biomedicine, everything is aimed at medical applications, ranging from diagnostics to research. In Biotechnology or Bioengineering, the end goal may be more open, and your methods may be different. As a Biotechnologist, your work can be aimed at agriculture, green energy, technology, food science, or the environmental industry.

Top reasons for studying Biomedical Science
Choosing your course is a big decision and there is a lot of information to take in. Here, put simply, are the three main reasons that make studying Biomedicine a great choice:

Itโ€™s very broad: BioMed is an incredibly diverse field. You will have the chance to explore lots of different areas of life science before choosing which path you want to take. Donโ€™t specialise too early in your education, though, so as not to restrict your career and postgraduate options.
Itโ€™s a desirable qualification: Many industries require biomedical scientists and the skills learned are highly transferable.
You can make a real difference in the world: Advances in medicine, cures for diseases, environmental investigations – Biomedical scientists are at the forefront of it all!
Career options for Biomedicine graduates
The careers available to you as a Biomedicine graduate are as wide ranging as the subjects you can study during your degree programme. Biomedical career paths are usually focused on research, analysis, or development. You can choose to stay in academia and pursue a PhD, researching and developing new diagnostic or medical treatments. Or you can go out into the world and start an exciting career in the private sector. The sky’s the limit!

Examples of careers you can have with a qualification in Biomedical Sciences include:

Research scientist: Make new discoveries and develop cures, treatments, and diagnostic techniques. Research scientists can work in nearly every industry, not just healthcare.
Biotechnologist: Have a deep understanding of the building blocks of life. Use this knowledge to discover and develop novel uses and treatments for cells, tissues, and organs.
Forensic scientist: Use science to identify and analyse evidence from accidents and crime scenes.
Bioengineer: Build artificial organs, design machines and devices for healthcare.
Lab Technician or Lab Manager: Run a laboratory and support researchers in their work.
Toxicologist: Investigate toxins and their effects. Work in healthcare or help protect the environment.
Virologist: Study, identify and fight viruses.
Clinical scientist: Be able to test for and identify a wide range of samples, research and develop new techniques for diagnosing illnesses.
Medical chemist: Be an expert in how medicines work, discover and develop new medicines.
Microbiologist: Study and work with microorganisms, including bacteria, fungi, algae, yeast, etc.
Epidemiologist: Study and analyse how diseases spread and advise on how to contain and treat them.
Phlebotomist: Know how to test blood for diagnostics, conduct transfusions, and take donations.
Remember that this is just a small sample of the careers you can pursue with a qualification in Biomedical Science.

What advice do you have for a Biomedicine student?
Learn good lab skills! Learning to be confident and competent at basic laboratory tasks such as micro-pipetting, titrations, preparing microscope slides, balancing a centrifuge, etc. will make a huge difference to your biomedical career.

When applying for jobs โ€“ especially at the beginning of your career โ€“ laboratories will prefer candidates with strong lab skills. It means they can trust you to perform tasks, and that saves them time and money. Experience and skills in laboratory work are highly desired and transferable across all areas of science.

What are similar subjects I could study?
Biomedicine is a cross-disciplinary subject that not only combines Biology, Chemistry, and Medicine, but also incorporates aspects of many other subjects. Some of these may suit you better, depending on your personal preferences:

Medicine: If you want to interact with patients directly and help them get well, consider studying Medicine. Studying Medicine will make you an MD (Medical Doctor).
Biology: Biology is an incredibly diverse science with many more areas to specialise in.
Biotechnology / Bioengineering: Use Biology to explore and solve real-world issues in a range of industries.
Biochemistry: For those who love Chemistry as much as they love Biology. Biochemistry is the study of chemical processes within the body.
Life Sciences: Many universities offer degrees in what they call โ€œLife Sciencesโ€, and this is often a broad term for a variety of Biology-related subjects. Check the curricula to find something that excites you.
Bioinformatics: Research in Biology often heavily relies on data. Bioinformatics is the science of handling and analysing large amounts of scientific data. Some universities also call this โ€œLife Science Informaticsโ€.
Pharmacology / Pharmacy: If you are specifically interested in pharmaceutical applications and researching potential new medicines, this is your area.

Summary

Make a difference to humanity by studying a BSc (Hons) Biomedical Science at Roehampton. Here you will discover life processes, health, disease, treatment and prevention.

IBMS logo for course

This course is accredited by the Institute of Biomedical Science, and offers a strong scientific foundation in the biological aspects of health and disease, ready for building a career in the health sciences. This accredited degree can lead to State Registration as professional Biomedical Scientist, by the Health and Care Professions Council.  

You will develop your knowledge in the essential functions of life, by studying cell biology and molecular biology; and gain an understanding of areas such as pharmacology, the branch of medicine concerned with the use and effect of drugs; and immunology, which studies all aspects of the immune system. Thereโ€™s also an opportunity to explore the relationship between nutrition and health.

To support your studies, you will have access to modern, well-equipped laboratories, with facilities for DNA analysis, high performance liquid chromatography, electrophysiology, microbiology, light and electron microscopy. You will have use of computer suites equipped with subject-specific software, and be supported with your work by a team of specialist laboratory and IT technicians. 

Research collaborations with many of London’s hospitals and medical schools facilitate visits, projects and access to specialist libraries. 

We offer a range of interesting modules such as Introduction to Human Disease or Human Epidemiology and Pathophysiology, which looks at the immune system and patterns for diseases. Other modules include, Advances in Molecular Biology & Biotechnology, which reviews recent developments and applications in biomedicine together with the commercial and ethical implications of these technologies or The Brain in Health and Disease, where you will be exposed to the latest developments in brain imaging and theories on brain plasticity, the ability for the brain to modify its structure in response to change.

MASTER OF BIOMEDICAL SCIENCES

Study Biomedicine or Biomedical Sciences: All you need to know | Study.eu

Master programme 120 ECTS study points โ€“ full time or part time

The 21st century started as the century of molecular life sciences. Ever since the 1990s when scientists greatly improved our insights into the molecular basis of life processes, the life sciences have developed at a tremendous rate. Various breakthroughs, including the mapping of the human genome, are leading to the rapid development of inter-relationships between formerly autonomous scientific disciplines such as genetics, medicine, pharmacology, biology, and environmental science. This creates new prospects for the academic and business worlds. Investments are huge: all over the world, universities, research institutes and businesses are launching new research initiatives, teaching programmes and business related activities.

In accordance with its Lisbon Strategy, aimed at a more ambitious reinforcement of Europeโ€™s knowledge-based economy, the EU strongly supports further development of genomics and biotechnology. And these are only two of many future scientific developments in the realm of the life sciences, including proteomics, bioinformatics, bioelectronics and imaging, all of which have numerous applications for human health, wellness and prosperity.

The Master of Biomedical Sciences focuses on state-of-the-art methodology, knowledge, insight and academic skills, enabling graduates to unravel the molecular mechanisms of health and disease as independent researchers. The programme provides students with the knowledge and skills required for the proper design of a scientific research project


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