The area of biomedical technology is really booming. It’s no wonder that a masters in biomedical engineering is gaining popularity. There are many companies out there that are seeking highly qualified candidates that understand all facets of biomedical engineering.
Why Choose a Masters in Biomedical Engineering?
Students who have an undergraduate degree in chemistry, mathematics, physics, computer science, or biology are all good candidates for a masters in biomedical engineering. If the student is not adequately prepared for coursework, they may require more classes before being admitted to a program. The job outlook is good for students who have a masters in biomedical engineering and may also go on to seek a PhD in the subject area.
What Types of Jobs Are Available to Those With a Masters in Biomedical Engineering?
There are many career paths open to those who have obtained a masters in biomedical engineering. There are jobs in academics, medicine, and research and development. Graduates can work for pharmaceutical companies, in a medical or academic research facility, government agency, hospital, medical device development firm, or biotechnology company.
|1||University of Wisconsin||Madison, Wisconsin|
|2||Georgia Institute of Technology||Atlanta, Georgia|
|3||University of Oklahoma||Norman, Oklahoma|
|4||Colorado State University||Fort Collins, Colorado|
|5||San Jose State University||San Jose, California|
Top 17 Schools That Offer a Masters in Biomedical Engineering
We’ve compiled a list of the best schools that offer a masters in biomedical engineering and ranked them according to the cost of tuition per year (lowest is best) and their enrollment (highest is best). Here is our list of the top 17 schools that offer a masters in biomedical engineering.
University of Wisconsin
There are many areas of exploration available at the University of Wisconsin when obtaining a masters. in biomedical engineering. Graduates go on to practice engineering or work in research in medicine or biology. The areas of exploration include rehabilitation and human performance, biomaterials, cellular engineering, bioinstrumentation, systems biology, neuroengineering, tissue engineering, and more. This large campus offers many opportunities for faculty from various colleges and professionals schools to teach in this area.
Georgia Institute of Technology
Students coming into the Master of Biomedical Innovation and Development program at Georgia Institute of Technology should have an undergraduate degree in business, medicine, science, or engineering. This program is an intensive one-year program. When students complete the program of study, they are prepared to enter the field of biomedical engineering devices and technology.
University of Oklahoma
The Gallogly College of Engineering at the University of Oklahoma offers an M.S. in biomedical engineering that can usually be completed in two years. There are several areas of emphasis to choose from, including molecular, cellular and tissue engineering, nanomedicine, biotransport, and biomechanics. Unique research opportunities are available in addition to all applicable coursework..
Colorado State University
The School of Biomedical Engineering at Colorado State University offers students the chance to hone in on their exact area of interest. Students enjoy learning in state-of-the-art biomedical engineering research labs and get plenty of hands-on experience. The diverse faculty has experience in many areas, including imaging and diagnostics, medical devices and therapeutics, and regenerative and rehabilitative medicine.
San Jose State University
An M.S. in biomedical engineering from San Jose State University is designed for students with a background in physics, chemistry, engineering, or biology. Coursework has been designed to prepare students to develop techniques and health-related products that will improve the quality of life for patients. Electives, together with a required project or thesis, will allow students to go into depth in one of the many areas of biomedical engineering.
The Meinig School is home to the biomedical engineering program at Cornell University. The program offers a one-year, professional masters of engineering (M.Eng.) in biomedical engineering, with flexibility to design a sequence of courses that match the interests and career aspirations of the students. Courses are generally divided into four main career pathways, each providing a balanced number of credits among graduate level STEM or field of research courses, professional development or electives, and design and/or research projects. These include professional, business school, medical school, and graduate school.
A young program, the graduate program in biomedical engineering at Yale University only began in 2000. The program became an immediate success. Students participate in research projects called “Special Investigations” right away and most research is done in state-of-the-art facilities located at the Yale School of Medicine or at the Malone Engineering Center. Most students who come into the program have a background in mathematics, computer science, chemistry, biology, or physics.
Johns Hopkins University
Johns Hopkins University offers the chance for students to graduate and pursue a career in biomedical engineering or go on to pursue a PhD. Students can choose to complete their coursework in one year, or choose the “thesis track,” which involves one year of coursework and one year of research only. Seven focus areas are available, including biomedical science data, computational medicine, genomics and systems biology, imaging and medical devices, immunoengineering, neuroengineering, and translational cell and tissue engineering.
George Washington University
The School of Engineering and Applied Science grants the M.S. in biomedical engineering at George Washington University. The program here is a 30-credit hour graduate program, which can also include a master’s thesis at 6 credits. The program is located at the main campus in Foggy Bottom and students have access to all applicable facilities on campus. Faculty in the program have expertise in medical imaging and image analysis, ultrasound applications, biosensors, microfluidics, cardiac electrophysiology, and cancer therapy.
The M.S.E. program in biomedical engineering at Mercer University emphasizes four major areas. These are biomedical instrumentation/imaging, biotransport/biofluids, biomechanics/biomaterials, and tissue/cell engineering. The experienced team of faculty brings many years of expertise to the program. This program is open to those who have an undergraduate engineering major. If a student’s background isn’t adequate, additional courses may be required.
Carnegie Mellon University
Approximately 90 students are enrolled in the masters in biomedical engineering program at Carnegie Mellon. This program has a long history at this school and the faculty-to-student ratio is 1:8. There is personalized instruction available as well as six core research areas. Students can choose between the traditional Research-Option M.S. program or the accelerated Practicum-Option M.S. program.
Prepare to join the academia community or the industry with a masters in biomedical engineering from Duke University. Students have gone on to found their own start-up companies or join leading biomedical firms. The school offers access to a huge variety of internship resources and has a dedicated career services department. The engineering campus is right next to a leading academic medical center, plus Research Triangle Park is only a few miles away.
Located within the McCormick School of Engineering, the biomedical engineering program at Northwestern University offers two tracks. These are an MS degree without thesis and MS degree with thesis. Students can go on to seek a job in the biomedical industry or continue on to a PhD program. Students participate in research projects and are provided instruction in mathematics, science, and engineering.
The biomedical engineering program at Tufts University is available on a full-time or part-time basis. Students also have the chance to take advantage of a tuition discount when entering the Dual Master’s Degree Program. Students can emerge with an M.S. in biomedical engineering and an M.S. in innovation and management. This dual degree program can be completed in as little as two years and students come out ready to find a job and enter the workforce.
Florida Institute of Technology
Florida Institute of Technology is located on Florida’s Space Coast, a great location in the middle of more than 5,000 high-tech companies. High-tech laboratories and research facilities are available on campus. Many of the faculty members are involved in research related to the field. Medical doctors also guide students, as well as those involved in computer science, chemical engineering, electrical engineering, and mechanical and aerospace engineering. Students can customize their learning experience to focus on their area of interest.
Lawrence Technological University
With an excellent location in a region known for engineering and technology, Lawrence Technological University offers a complete program with instruction in theory and practice. The professors have experience in biomedical devices, tissue engineering, bioMEMS, biomechanics, and are happy to help with design and research projects. There are two degree options available, one with a research thesis, and one with a design project.
When enrolling in the biomedical engineering program at Brown University, expect to experience engineering, biology, and medicine. There are four complementary research areas featured in the program, including tissue engineering/regenerative medicine, neuroengineering/imaging, biomaterials/nanotechnology, and biomechanics. Students can choose from three tracks, master of science research track, master of science design track, and master of science non-thesis track.
Still not sure which school is right for you? We can help you find the right fit based on the program you select.
Our Ranking Methodology
We found each school’s tuition rate from the school website and enrollment data from the National Center for Education Statistics. We used the in-state tuition cost where relevant. Whenever tuition was listed by credit or by semester, we multiplied by the applicable number to find the yearly tuition rate.
We then sorted the schools first by tuition (lowest is best) and then by enrollment (highest is best) and assigned points to each school in each category. We then added the two scores together to get a final score for ranking.
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