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The core requirements for the master's in Biomedical engineering include a minimum of 45 course credits (most courses carry three credits each) and an optional research thesis.While a research thesis is highly recommended a Non-Thesis option is also available.
While such concentrations are facilitated, the School does not offer formal certification in these sub-areas and the final degree is MS in Biomedical Engineering.
A full list of required and elective courses as well as course-specific information is available in the course catalog.
It is expected that the requirements for the MS in Bioengineering can be completed within approximately one year. All students are required to take the following: These courses, together with the Approved Technical Electives, should form a cohesive course of study that provides depth and breadth.
These units must be selected from graduate courses in mathematics, statistics, engineering, physical science, life science and medicine.
Students will be assigned an initial faculty advisor, who will assist the student in designing a plan of study that creates a cohesive degree program with a concentration in a particular bioengineering focus area.
These focus areas include (but are not limited to): Students and advisors should work together to design a program of courses that offers depth in a particular area and breadth across at least two areas of bioengineering.Students who elect to pursue a Non-thesis option are required to complete a minimum of 45 credits of coursework to be approved by the School Graduate Advisor.For a more detailed description of the MS requirements, please visit the MS Program Guidelines page.The Master of Science in Bioengineering requires 45 units of coursework.The curriculum consists of core bioengineering courses, technical electives, seminars and unrestricted electives.The MS in Biomedical Engineering degree curriculum develops graduates who can identify and address unmet clinical, diagnostic, and healthcare needs by using their knowledge of modern theories, engineering systems, and mathematical and engineering tools.Biomedical engineers require the analytical tools and broad knowledge of modern engineering and science, fundamental understanding of the biological or physiological system, and familiarity with recent technological breakthroughs. non-thesis degree option must complete at least 30 graded course credit hours and satisfactorily pass a comprehensive oral examination. students must also register each semester for one credit hour of 5944 Seminar. plan of study may contain a combination of 5xxx and 6xxx-level courses and a maximum of six hours of approved 4xxx-level courses. Administered by the student’s advisory committee, the examination is expected to cover all mechanics course work as well as the project completed by the student. students must pass an oral examination upon completion of the degree requirements.The program features an interdisciplinary approach in four complementary research areas: Research in these areas is advancing the understanding of fundamental problems in biology and medicine, while developing new therapies to improve the quality of life for people with medical problems.The program is distinguished by its strong and collaborative connections between academic science, clinical medicine, and industry.