Areas of research include cardiac arrhythmia, cardiopulmonary mechanics and controls, electromagnetic stimulation of tissue magnetic resonance imaging, orthopedic biomaterials and bone tissue engineering, orthopedic biomechanics, and respiratory dynamics. The Center is located in the Wenner-Gren Research Laboratory that provides the framework for multidisciplinary research. Faculty and staff of the Center collaborate with investigators from other units of the University, including Anatomy & Neurobiology, Biochemistry, Biology, Cardiology, Cardiothoracic Surgery, Center for Applied Energy Research, Chemical Engineering, Chemistry, Electrical Engineering, Mathematics, Mechanical Engineering, Neonatology, Nephrology, Neurosurgery, Oral Surgery, Orthopaedic Surgery, Otolaryngology, Pediatric Cardiology, Periodontics, Pharmacy, Physiology, and Plastic Surgery. Center faculty and staff provide opportunities and support for graduate students, medical residents, and selected undergraduates. Graduates of the program enter careers in research institutes, academia, hospitals, and the biomedical industry.
Entering students are expected to have a baccalaureate degree in engineering. Some course work in the biological sciences is desirable but not required. Applicants with degrees purely in the physical or biological sciences may be required to complete course work in the undergraduate engineering curriculum before being admitted to the graduate program. Admission to the biomedical engineering graduate programs normally requires a GPA of at least 3.0/4.0 or 70% for all graduate and undergraduate work and Graduate Record Examination scores of at least 1200 (Quantitative + Verbal) and 3.5 (Analytical). Additional application materials to be submitted to the Center include a statement describing your reasons for wanting to pursue graduate education in Biomedical Engineering and letters of recommendations from three faculty members who are familiar with your academic record. Satisfying the above requirements does not guarantee admission to the biomedical engineering graduate program.
The Master of Science degree provides students with a combination of experiences in basic research, design, development, and practical applications. The M.S. degree requires successful completion of the core curriculum (26 credit hours) plus an acceptable thesis. In special cases, a non-thesis option consisting of 31 credit hours is available for students with significant previous research or design experience. Enrollment in the non-thesis option requires approval of the Director of Graduate Studies and must be requested within the student's first 9 credit hours of graduate course work.
Core M.S. Curriculum
BME 530 Biomedical Instrumentation (3)
BME 605 Biomedical Signal Processing (3)
BME 661 Biomaterials Science and Engineering (3)
BME 6xx Biomechanics Elective (3)
BME xxx BME Technical Elective (3)
BME 774 Graduate BME Seminar (1)
PGY 412G Principles of Human Physiology (4)
Math Elective (3)
Technical Elective (3)
The Professional Master of Biomedical Engineering degree seeks to develop a unique combination of managerial, technical, and leadership skills for those who will direct the future course of biomedical technology. In addition to the requirements previously described, the personal statement should clearly communicate the applicants career objectives and how the Professional Masters Degree in Biomedical Engineering will enable these objectives to be achieved. The P.B.M.E. degree requires successful completion of 42 credits, including the capstone Advanced Study Project, and a summer internship.
Core P.B.M.E. Curriculum
BME XXX BME Technical Electives (9)
BME 642 Navigational Guides for Biomedical Product Designs (2) BME 767 Management of Technology (3)
BME 772 Seminar (0)
BME 777 Advanced Study Project (3)
HA 601 Healthcare System Overview (3)
HA 602 Strategic Planning & Mgmt of HC Organizations (3)
HA 621 Quantitative Methods of Research (3)
HA 637 Health Finance (3)
MKT 600 Marketing Management (3)
PA 623 Decision Analysis (3)
PA 642 Public Organ Theory & Behavior (3)
PGY 412G Principles of Human Physiology (4)
The Doctor of Philosophy is a research degree granted on the basis of broad knowledge of engineering applications in biology and medicine and an in-depth study in a specific area leading to a dissertation reflecting original and independent work by the candidate. Applicants to the Ph.D. program are generally expected to have a master's degree. Under special circumstances, exceptional students may bypass the M.S. or be admitted directly to the Ph.D. program upon approval of the biomedical engineering faculty. Courses for advanced study are determined in consultation with an advisory committee and will be selected from the areas of engineering, mathematics, life sciences, and chemistry. To earn a Ph.D. degree, students must:
1. Meet the general requirements of the Graduate School.
2. Successfully complete PGY 502.
3. Pass the Qualifying Examination. This exam, consisting of written and oral components, is designed and administered by the student's Doctoral Advisory Committee.
4. Present and satisfactorily defend a dissertation documenting independent and comprehensive scholarship.
Further information about the graduate programs may be obtained by writing to the Director of Graduate Studies, Center for Biomedical Engineering, Wenner-Gren Research Laboratory, University of Kentucky, Lexington, KY 40506-0070, by e-mail at firstname.lastname@example.org, or by visiting our Web site at <http://www.uky.edu/RGS/CBME>.
BME 481G TOPICS IN BIOMEDICAL ENGINEERING (SUBTITLE REQUIRED) (3)
BME 501 FOUNDATIONS OF BIOMEDICAL ENGINEERING (3)
BME 530 BIOMEDICAL INSTRUMENTATION (3)
BME 579 NEURAL ENGINEERING: MERGING ENGINEERING WITH NEUROSCIENCE (SAME AS EE 579) (3)
BME 605 BIOMEDICAL SIGNAL PROCESSING I (3)
BME 610 BIOMEDICAL CONTROL SYSTEMS I (3)
BME 615 BIOMEDICAL SIGNAL PROCESSING II (3)
BME 620 BIOMEDICAL CONTROL SYSTEMS II (3)
BME 625 ANALYSIS OF NONLINEAR BIOMEDICAL SYSTEMS (3)
BME 635 MAGNETIC RESONANCE INSTRUMENTATION AND MEASUREMENT (3)
BME 641 PRACTICES OF BIOMEDICAL ENGINEERING (3)
BME 642 NAVIGATIONAL GUIDES FOR BIOMEDICAL PRODUCT DEVELOPMENT (3)
BME 661 BIOMATERIALS SCIENCE AND ENGINEERING (3)
BME 662 TISSUE-IMPLANT INTERFACE (3)
BME 670 BIOMECHANICS I (3)
BME 672 MUSCULOSKELETAL BIOMECHANICS (3)
BME 685 BIOFLUID MECHANICS (3)
BME 690 RESEARCH IN BIOMEDICAL ENGINEERING (SUBTITLE REQUIRED) (1-3)
BME 699 SPECIAL TOPICS IN BIOMEDICAL ENGINEERING (SUBTITLE REQUIRED) (1-3)
BME 748 MASTER'S THESIS RESEARCH (0)
BME 749 DISSERTATION RESEARCH (0)
BME 767 MANAGEMENT OF TECHNOLOGY (3)
BME 768 RESIDENCE CREDIT FOR THE MASTER'S DEGREE (1-6)
BME 769 RESIDENCE CREDIT FOR THE DOCTOR'S DEGREE (0-12)
BME 772 SEMINAR (0)
BME 774 GRADUATE BME SEMINAR (0-1)
BME 777 SPECIAL PROBLEMS IN BIOMEDICAL ENGINEERING (SUBTITLE REQUIRED) (1-3)
BME 781 SPECIAL PROBLEMS IN BIOMEDICAL ENGINEERING (SUBTITLE REQUIRED) (1-3)