Why study Biomedical Engineering BS/MS at UB?
The Biomedical Engineering MS program is intended to provide a fundamental/research-oriented program of advanced study for students wishing to enhance their knowledge and understanding within a specialized discipline.
Students enrolled in this combined degree will be well-prepared for the Biomedical Engineering graduate coursework given the coursework they’ve completed through the BS degree plan.
The curriculum is designed to meet several educational objectives. These broad statements describe what we expect our graduates to achieve within a few years of graduation. Our program educational objectives are:
- Graduates will use their scientific, technical, and communication skills to contribute to the achievement of the goals and objectives of employers of biomedical engineers.
- Graduates will continue their professional development in biomedical engineering or medicine, including professional licensure, continuing education, and/or graduate study.
- Graduates will have advanced knowledge of modern theories, engineering systems, and mathematical and engineering tools enabling them to identify and address unmet clinical, diagnostic, and/or healthcare needs.
In addition, the curriculum provides opportunities for students to develop the following knowledge, skills, and behaviors by the time of graduation:
- an ability to identify, formulate, and solve complex engineering problems by applying principles of engineering, science, and mathematics
- an ability to apply engineering design to produce solutions that meet specified needs with consideration of public health, safety, and welfare, as well as global, cultural, social, environmental, and economic factors
- an ability to communicate effectively with a range of audiences
- an ability to recognize ethical and professional responsibilities in engineering situations and make informed judgments, which must consider the impact of engineering solutions in global, economic, environmental, and societal contexts
- an ability to function effectively on a team whose members together provide leadership, create a collaborative and inclusive environment, establish goals, plan tasks, and meet objectives
- an ability to develop and conduct appropriate experimentation, analyze and interpret data, and use engineering judgment to draw conclusions
- an ability to acquire and apply new knowledge as needed, using appropriate learning strategies.
The Learning Environment
The School of Engineering and Applied Sciences offers nine engineering programs leading to the degree of Bachelor of Science (BS) degree: aerospace, biomedical, chemical, civil, computer, electrical, environmental, industrial and mechanical engineering.
Five combined BS/MBA programs are offered in conjunction with the School of Management. BA, BS, and BS/MS degrees in computer science are offered through the Department of Computer Science and Engineering. A BS degree in engineering physics is offered jointly with the Department of Physics.
The curricula allow students flexibility in their programs of study and encourages interaction between students and faculty. The undergraduate educational experience prepares students for professional practice and advanced study. Special programs including our experiential learning program, undergraduate research, and internship opportunities provide professional development skills and experiences and facilitate placement of our graduates in high-quality engineering positions.
About Our Facilities
The School of Engineering and Applied Sciences occupies six buildings on UB's north campus: Bell, Bonner, Davis, Furnas, Jarvis, and Ketter Hall.
Together, these buildings form an outstanding educational and research facility, comprising 275,000 square feet of laboratory and office space.
The Department of Biomedical Engineering is located in Bonner Hall on the North Campus, although faculty in the Department are located on each of the three UB campuses. There are two primary laboratory spaces used in undergraduate education: our modern, well-equipped wet lab and dry lab that encompass over 2000 sq ft. These spaces are also available to students outside of class time for independent project work. Additionally, students have access to shared project spaces within the School of Engineering and Applied Sciences. Students who wish to engage in research will also find cutting-edge research labs.
About Our Faculty
With thirteen full-time faculty members and numerous other affiliated faculty members, undergraduate BME students will interact with our faculty in the classroom and through research activities. Our faculty are engaged in cutting-edge research in the areas of nanomedicine, tissue engineering, biomedical imaging and biomedical devices, among others; this research activity is translated to the classroom so that undergraduate students understand the changes occurring in the field. Additionally, students will have the opportunity to engage with our faculty in research and design projects.
The Chair and Director of Undergraduate Studies, Albert H. Titus, may be contacted at email@example.com to answer questions about the program.
Faculty List Directory
Please visit the Biomedical Engineering department website for additional information about our faculty.
Biomedical engineers are employed in many areas. You can find biomedical engineers in:
- Companies designing and testing new devices and systems.
- Universities and hospitals as researchers and support personnel.
- Government regulatory agencies, helping to develop and standards for product testing and safety.
Because of their training in both the engineering and medical disciplines, biomedical engineers are often in the role of interfacing between these two fields.
Based on the latest data from the Bureau of Labor Statistics, the median annual salary for biomedical engineers is $85,620, with a 10%-90% range of $51,050 to $134,620. Nationally about a third of biomedical engineering students go on to graduate school in engineering or related disciplines, about a third go on to medical school, and about a third go directly to industry.
Students obtain academic advice and guidance from the academic advisors in the SEAS Office of Undergraduate Education (410 Bonner Hall) and from faculty advisors in their program of study. The Office of Undergraduate Education advises all students throughout their first two years of study. In the junior and senior years, students seek advisement primarily from departmental faculty advisors.
The Biomedical Engineering Department also offers one-on-one advisement by appointment. Contact the Academic Coordinator for details.
Academic Advising Contact Information
SEAS Office of Undergraduate Education
410 Bonner Hall
North Campus, Buffalo, NY 14260-1900
School of Engineering and Applied Sciences Website
Academic Advising Contact Person
332B Bonner Hall
Scholarships and Financial Support
There are many scholarships, fellowships and other funding opportunities available for students accepted into the School of Engineering and Applied Sciences. These include recruitment scholarships and annual scholarships/awards for current students. There are both merit and need-based scholarships.