Biomedical engineering aids in improving human health by applying science and engineering to problems in biology, medicine, and biotechnology. It includes a significant quantity of multidisciplinary effort that blends engineering study and the project’s quantitative components with a diversity of biology and physiology, from the molecular and cellular level to that of the entire systems and species. Learning biomedical engineering has only one goal: to comprehend and improve patient health care and provide quality of life.
The following subjects must be studied in order to pursue a BS in biomedical engineering:
Mathematics: calculus and geometry skills for analyzing and designing medical solutions.
Biology: Applying biological concepts to the treatment of the whole person.
Chemistry: research into chemical processes in the body and cells.
Eligibility:
Students who wish to apply for a BS in Biomedical Engineering must have scored at least 50% in their senior secondary school (10+2) from an accredited board.
Specializations:
Many specializations are made possible by the fact that biomedical engineering encompasses a wide range of medical specialties. So, if a student chooses a Bachelor’s in Biomedical Engineering, one can easily conduct research and choose their field of interest. There are several choices accessible for students, including Biomechanics, Systems Physiology, Biomaterials, Cellular, Tissue, and Genetic Engineering, Clinical Engineering, Orthopedic Bioengineering, and Rehabilitation Engineering. Even though each specialty would require a unique approach, a biomedical engineer would eventually need to invest a significant amount of time in research while utilizing their engineering talents.
Biomedical engineers are in great demand due to technological expansion in the healthcare industry and thus the scope of job opportunities increases post bachelor in Biomedical Engineering. It is anticipated that a biomedical engineer will work in partnership with scientists and researchers on numerous medical issues. Together, medical research and engineering have significantly improved human life and are predicted to do so considerably more. In the coming decades, it is estimated that employment in the field of biomedical engineering will rise by 6%. The following list includes some possible employment roles:
Rehabilitation Engineer
Biomedical Researcher
Medical Technology Developer
Physician
Independent Consultant
Biomaterials Developer
Manufacturing Engineer
Source: U.S. Bureau of Labor Statistics, Employment Projections program
TOP Universities
The demand for technologically enhanced methods to enhance human well-being is increasing in the modern world, where the threat of disease causing micro-organisms is always present. In addition to applying engineering ideas to medical issues, biomedical engineering will support the development of technology that could save lives. This has caused numerous institutions to offer this degree across the globe. Some of the popular destinations in the United States, the United Kingdom, Canada, Australia, and Europe have TOP Universities for BS Biomedical Engineering and the list is mentioned below.
United States
A significant component of biomedical engineering is research and development, and the United States offers a variety of prospects in this area. In the first year, a typical student will spend between INR 15 Lac and INR 20 Lac for housing, books, supplies, transport, and other personal expenses. This also largely depends on the college and area of accommodation.
Here are a few examples of the people who have achieved success after earning a BS in biomedical engineering from the United States.
Winjie Tang Miao, Executive Vice President and Chief Experience Officer, Texas Health Resources, Johns Hopkins University
Brain Fahey, Founder and Chief operating officer at Niveus Medical, Dukes University
A biomedical engineer in the United Kingdom has several job options due to the recent growth in demand for medical equipment, particularly ventilators. Expenses for housing, transportation, books, housing application fees, housing down payments, and other expenses will range from £10,000 up to £38,000.
Knowing that there are successful people who have completed the course is always encouraging; a few are listed below for your reference.
Janet Cheung, Systems Engineer at Medtronic University College of London
Professor James Warnock is the School Chair and a Professor at the Universities of Georgia completed his biomedical engineering from the University of Birmingham.
For international students, Canada offers a fantastic work-life balance and a high-quality education. A student can readily accommodate and pay other expenses here,which offers affordable education in the range of C$20,000 and C$30,000.
Some prominent graduates from the subject of biomedical engineering come from Canada:
Dr. Cindy Yip, a Global Project Leader in Immunology and Heamatology at the Global Rare Disease division of Chiesi Group University of Toronto.
Anastasiia Kyrylova, has written a thesis on development of wearable mechatronic elbow brace for postoperative motion rehabilitation.
In recent years, Australia has become one of the world’s leading nations for higher learning. Owing to the most sought after education pedagogy, it is a preferred study destination for international students. Living expenses for students in Australia range between $20,000 and $27,000 a year.
Famous Australian alums include:
Professor Andreas Fouras is a former biomedical researcher, now founder of 4DX conducting research in the field of respiratory diagnosis from Monash University.
Houssam Abiad, CEO and founder of Digimob Australia and graduated with a double degree of Biomedical Engineering and Science from Flinders University.
Intake: Australian universities, unlike in other countries, offer only two intakes and students start the process six months in advance. There are still a few universities offering intakes in September and November.
February
July
Application Process: Keep a check at the documents below while applying in an Australian University:
10th and 12th-grade Transcripts
English Proficiency Test (IELTS, TOEFL, C1, and C2 Proficiency)
Admission Essays
Resume
Letter of Recommendation
Europe
Without a doubt, the level of education is among the best in Europe, and there are some top-notch research and development departments as well. International students in Europe enjoy lower annual tuition and housing costs compared to those in other nations.
Below is the list of top five colleges for BS in biomedical engineering
Is biomedical engineering truly engineering, or do we need to do electrical, mechanical, or chemical engineering alongside?
BME curriculum will provide students with the information and abilities needed to work as both engineers and medical investigators. Biomedical engineering was created in response to the need to handle challenging interdisciplinary complications.
Is BME a viable route to a career in dentistry and medicine?
BME is the perfect course for students interested in engineering to continue on to medical studies. The BME program offers outstanding options for both medical and dental school.
Will I need an advanced degree post BS in Biomedical Engineering to start any professional career?
A student with a BS in biomedical engineering can start a specialised profession without taking any additional classes or studying more.
Neha Uppal is a passionate content creator and editor. She carries 7.5+ years of experience working with leading edutech companies where she worked as a Faculty, Community Manager, and Content Marketeer. At upGrad, she is helping out people keep informed about the scopes and opportunities of studying abroad via informational articles/blogs.