The Best Bioengineering Schools In The World

January 12, 2023
By AdmissionSight

The Best Bioengineering Schools In The World

What does a biomedical engineer do?

What is the role of a biomedical engineer? A biomedical engineer is a medical science specialist who designs and builds software, systems, equipment, or devices to diagnose and treat medical illnesses and injuries. Graduates from the best bioengineering schools use biology, medicine, and engineering to solve problems involving living systems. They may develop items such as:

  • Artificial organs
  • Pacemakers
  • Hip and knee replacements
  • Artificial body part components
  • Software used to design, build, and control those products
  • Stem cell and tissue engineering and 3D bioprinting to create artificial organs for transplants are examples of innovative biomedical engineering concepts.
  • Collaborating with research scientists to demonstrate how engineering principles apply to specific biological processes
  • Preparing technical manuals and research reports
  • Designing equipment, software, and devices such as diagnosis machines, health care delivery systems, and body part replacements
  • Training clinicians and providing technical support for biomedical equipment
  • Maintaining equipment and systems
  • Visiting healthcare facilities to install, service, or maintain equipment

What are jobs with a bioengineering degree?

Finding a suitable position necessitates research into the various bioengineering degree jobs available. This list includes bioengineering positions and regular responsibilities:


A biotechnology consultant’s primary responsibilities are to conduct assessments and advise on various biological and engineering issues. Working in public policy, nonprofit, and private sectors, they conduct extensive research and design experiments to collect necessary data. They conduct tests, collect data, and conduct analyses. Bioengineering consultants work with hardware and software throughout the development process, performing diagnostics and advising on potential improvements.

Bioprocess engineer

A bioprocess engineer’s primary responsibilities include analyzing, developing, and improving the systems used to manufacture biological processes. They work to improve process efficiencies, product quality, and employee safety conditions through careful experimentation and observation.

Bioprocess engineers may work in agricultural R&D, food processing plants, pharmaceutical companies, biotechnology companies, or alternative fuel manufacturers. They are in charge of designing, supervising, and troubleshooting the equipment used in these technologies.


A biologist’s primary responsibilities include the scientific study of living organisms such as humans, plants, animals, bacteria, and fungi, as well as the ecological systems in which they live. They conduct experiments, collect data, review information, form hypotheses, and conclude.

Many who graduate from the best bioengineering schools devote significant time to writing reports and books, reading other research to stay current, and continuing their education to advance the field. Biologists frequently seek grants to fund research and collaborate with corporate and government entities.

Biomedical engineer

A biomedical engineer’s primary responsibilities include identifying and designing solutions to biological and medical problems to improve patient care. They investigate how engineering can be used within human and animal biological systems to create systems and products that meet needs.

Biomedical engineers install, maintain, and perform diagnostics on medical equipment such as prosthetics and imaging supplies. They assess the safety and effectiveness of equipment and train others on how to use it properly.

Research scientist

The primary responsibilities of a bioengineering research scientist include working on all stages of product development and policy development. They apply for grants, design experiments to collect the necessary data, and test within the parameters. They strictly adhere to data guidelines, evaluate and analyze experiment data, and compile it into a report.

To stay relevant in the industry, researcher scientists publish papers regularly and actively participate in bioengineering research. They may work for and conduct research for corporations, nonprofits, or government agencies, or they may conduct personal research in an academic setting.

Medical Technologist

A medical technologist, a medical laboratory scientist, performs clinical laboratory procedures and tests on tissues, blood, and fluid. They adhere to laboratory protocol, prepare specimens for testing, complete testing using technology and specialized tools, and interpret and strictly record results. They troubleshoot, maintain, and repair laboratory equipment. Medical technologists interact with various medical databases and are accountable for data integrity and accuracy.

Engineering program manager

Primary responsibilities include leading a team of fellow engineers and overseeing the timely completion of bioengineering project tasks. They manage resources and collaborate with manufacturers and vendors to meet project requirements. They plan the work, manage and combine the innovative ideas of scientists and engineers, review data as the program progresses, and analyze that data to generate conclusions.

Program managers are in charge of ensuring the quality and integrity of an engineering project.


The primary responsibilities of a biostatistician are to be in charge of creating experiments, analyzing data, and carrying out statistical studies on living organisms. They gather raw numerical data and interpret it in various ways based on the information sought. Biostatisticians use statistical techniques to convert data sets into usable information.

Moreover, their reports are critical to a wide range of industries, including government, medicine, pharmaceuticals, and the environment, and they influence decisions such as environmental policy and medical administrative processes.

What are the world’s top bioengineering schools?

Massachusetts Institute of Technology (MIT)

Undergraduate, Master’s, and Ph.D. degrees are available.

The Massachusetts Institute of Technology was founded in 1861 in Boston before moving to its current location in Cambridge, Massachusetts, USA, in 1916. MIT, one of the world’s best biomedical engineering schools, is motivated by its mission to improve the world through education, research, and innovation.

MIT Main Entrance

The Biological Engineering Department at MIT is founded on biology as a scientific foundation. Biological knowledge is used to improve the medical and healthcare sectors through engineering methods such as analysis, design, and synthesis.

The Department of Biological Engineering is constantly developing new collaborations and efforts to produce better knowledge and more qualified experts. The department successfully put MIT on the map for biomedical engineering, ranking it first among field universities worldwide.

Stanford University

Undergraduate, Master’s, and PhD degrees are available.

Stanford University was founded in 1885 by American Senator Leland Stanford and his wife, Jane Stanford, to provide educational opportunities for men and women in California. The university’s history is littered with notable accomplishments by its faculty and alumni. As such, it has also garnered a reputation as one of the best bioengineering schools in the world.

Stanford campus sprawled with students

The Bioengineering Department at Stanford University is part of the Schools of Engineering and Medicine. Since its inception, the department has relied on groundbreaking research to better understand all aspects of biomedical engineering. The Bioengineering Department also applies this knowledge through engineering, resulting in high-impact innovations in the medical and healthcare fields.

Stanford uses cutting-edge facilities to maximize the potential of its students and researchers to advance consistently in the field of biomedical engineering. The administration added cutting-edge laboratories to ensure that the department and university maintain their leadership in the discipline. Stanford is currently ranked among the top biomedical engineering universities in the world.

University of Cambridge

Undergraduate, Master’s, and PhD degrees are available.

The University of Cambridge officially began in 1209, following the migration of Oxford scholars to Cambridge, England. Until its formal incorporation and independence, the university thrived under the sponsorship and support of the English Royalties.

Cambridge University aerial view

The establishment of the Department of Engineering in 1875 marked the beginning of Cambridge University’s unwavering commitment to engineering excellence. Throughout the years, the department has added new disciplines that have enriched engineering scholarship and research.

Biomedical engineering is one of the fields in which the Department of Engineering excels. Cambridge is well-known for its top biomedical engineering program. Cambridge earned the distinction of being one of the best by encouraging a multidisciplinary approach to pursuing knowledge while ensuring the quality of its research outputs. Cambridge University is currently ranked first among the world’s best biomedical engineering schools.

ETH Zurich – Swiss Federal Institute of Technology

Undergraduate, Master’s, and PhD degrees are available.

The Swiss Federal Institute of Technology, or ETH Zurich, was founded in 1855 as the Federal Polytechnic School. Since its inception, the Swiss government has envisioned the institution as a national educational center that will serve students worldwide.

The Institute for Biomedical Engineering at ETH Zurich is a joint educational and research institute with the University of Zurich. The IBT focuses on combining natural science and electrical engineering knowledge with biology and medicine to create new developments in life-saving procedures.

Front view of Swiss Federal Institute of Technology Zürich with an empty front yard

The Institute of Biomedical Engineering educates and trains its students and researchers to bridge biological and technical systems and develop better alternatives to existing methods. Such an approach yielded internationally recognized biomedical engineering experts, elevating ETH Zurich’s standing as one of the best bioengineering schools in the world.

Nanyang Technological University, Singapore

Undergraduate, Master’s, and PhD degrees are available.

After the merger of the Nanyang Technological Institute and the National Institute of Education, the Singaporean government established Nanyang Technological University in 1991. NTU was granted autonomy in 2006 and is one of Singapore’s two largest public universities.

Nanyang Technological University’s School of Chemical and Biomedical Engineering is part of the College of Engineering and is regarded as one of the best biomedical engineering schools in the world. The department strives to apply fundamental engineering principles and methods to the medical and life sciences while pushing for high-impact advancements in the discipline.

A spiral-shape building of Nanyang Technological University

Despite its young age, the School of Chemical and Biomedical Engineering has produced world-class experts and made significant contributions to the field. Nanyang Technological University has quickly risen to the top of the list of biomedical engineering universities worldwide.

University of Oxford

Undergraduate, Master’s, and PhD degrees are available.

Teaching began in the Oxford grounds in 1096 and flourished under Henry II in 1167. Oxford led the pursuit of knowledge in various disciplines as the oldest university in the English-speaking world with the fortune of an ideal institutional foundation, making the institution a global source of quality training.

The Institute of Biomedical Engineering, one of the world’s leaders in the field, is housed in Oxford University’s Department of Engineering Science. Through consistent collaborations with institutions within the university and worldwide, the institute maintains its excellent track record of applying academic research.

University of Oxford main building

The Institute of Biomedical Engineering’s insistence on applying knowledge to real-world issues and applications has made it one of the best in bioengineering. Because of the university’s drive for excellence, IBME’s graduates and faculty are recognized internationally. Oxford University is still ranked among the best bioengineering schools in the world.

University of California, Berkeley

Undergraduate, Master’s, and PhD degrees are available.

The College of California and the Agricultural, Mining, and Mechanical Arts College merged to form the University of California, Berkeley, in 1868. The university’s history is marked by significant decades of discoveries and accomplishments that advanced the scholarship and research of the disciplines taught at UCB.

The Department of Bioengineering was established in 1998 as part of UCB’s efforts to enrich academic research. The bioengineering department prioritizes cutting-edge research and technology development, faculty development, and investment in the UCB bioengineering community to produce better experts.

The department’s efforts have yielded excellent results, as the university’s expertise is well-known worldwide. This demonstrates that the University of California, Berkeley is one of the best bioengineering schools in the world.

Imperial College London

Undergraduate and Masters degrees are available.

Imperial College London is a public research university in London, England. Since its inception in 1907, the university has established itself as a top biomedical university worldwide. Imperial College was a college of the University of London until 2007 when it became an independent university.

University College of London main building

The bioengineering department oversees the university’s biomedical engineering program. The department remains at the top due to its emphasis on providing students with technical knowledge. Furthermore, they conduct extensive research to comprehend the most important biomedical concepts.

The university provides world-class facilities for students to be trained, thereby increasing their potential. All students participate in an industrial attachment program during their undergraduate studies, where they can apply their knowledge and skills to solve real-world problems. This department currently ranks Imperial College among the best biomedical institutions in the world.

National University of Singapore

Undergraduate, Master’s, and PhD degrees are available.

The National University of Singapore, Singapore’s oldest university, was founded in 1905. The engineering faculty, which houses the biomedical engineering department, is the most prominent in the university, established in 1968.

National University of Singapore signage

Through its world-class research institutes, the university has advanced research in the field of biomedical engineering. Furthermore, the university employs an integrated approach that facilitates collaboration among researchers. The university has cutting-edge laboratories, ensuring that students learn cutting-edge skills. These fantastic facilities propel the National University of Singapore to the top of the biomedical engineering rankings in Asia and worldwide.

Tsinghua University

Undergraduate, Master’s, and PhD degrees are available.

Tsinghua University, a public university in Beijing, China, was founded in 1911. It is one of the C9 league’s nine higher education institutions. The education ministry also supports Tsinghua University. The university provides programs in various fields, including more than 70 undergraduate degrees. There are over 300 research centers at the university.

Students walking in Tsinghua University building.

The university is regarded as one of the most prestigious in the world’s biomedical engineering field. Tsinghua University has excellent research laboratories that are well-equipped.

The biomedical engineering department at the university conducts research in medical imaging, neural engineering, and tissue engineering. The university also has a relationship with the Beijing Huaxin Hospital, which allows for additional biomedical engineering research. Tsinghua University’s incredible facilities place it among the best bioengineering schools.

Now that you know where to study bioengineering, the next thing you should think about is your college admissions. To ensure that you get into the college you want, you can get help with AdmissionSight. With ten years of experience with college admission experts, Admissionsight can help you get into the college of your choice. You can talk to our experts today to get an initial consultation.





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