Biomedical engineering is a discipline that advances knowledge in engineering, biology and medicine, and improves human health through cross-disciplinary activities that integrate the engineering sciences with the biomedical sciences and clinical practice. It includes:
Biomedical engineering has existed at the University of Kentucky for almost 60 years. We started offering degrees in Biomedical Engineering nearly 30 years ago. Here is some of the things we offer our Biomedical Engineering graduate students:
-The Department of Biomedical Engineering is located within short walking distance of a major academic medical center with all six health sciences colleges and the full spectrum of academic colleges on a single campus. Few engineering schools have access to such colleges all so close by.
-Aided by its proximity, faculty within the department routinely collaborate with other departments in the Colleges of Engineering, Medicine, Dentistry, Health Sciences, Arts & Sciences and Pharmacy, as well as units such as the Markey Cancer Center, Magnetic Resonance Imaging and Spectroscopy Center, Saha Cardiovascular Research Center and Institute for Sustainable Manufacturing.
-Our alumni are highly respected in their fields, whether in academia, government agencies or industry.
-In 2014, the Department of Biomedical Engineering moved into renovated facilities with new labs, personalized study carrels, and access to a lounge reserved for graduate students.
-In April 2016, the department received a $7 million gift from Joe and Joani Halcomb to rename the department the F. Joseph Halcomb III, M.D. Department of Biomedical Engineering. The naming gift will add one endowed chair and two endowed faculty fellowships as well as fully-funded graduate fellowships to attract top graduate students and support their research.
It is always exciting when motivating and intellectually curious graduate students join our program. Once here, they find a dedicated group of faculty who are leaders in their respective fields. The breadth of faculty research interests combined with the proximity of different colleges on a single campus provide students with unique opportunities to contribute to biomedical engineering advances in fields such as cancer, tissue regeneration, neuromuscular pain, brain-machine interface, and cardiovascular diseases. Our program provides an intimate environment for graduate students to develop skills and accrue experience that equips them to attain success in whatever endeavors they pursue upon graduation, whether in academia or in industry.
Professor and Chair
The Master of Science degree provides students with a combination of experiences in basic research, design, development and practical applications. The M.S. program requires successful completion of 26 credit hours plus a 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 nine credit hours of graduate work.
The Doctor of Philosophy (Ph.D.) 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 often have earned a master’s degree, however we routinely admit exceptional students with a bachelor’s degree directly into the Ph.D. program. Courses for advanced study are determined in consultation with an advisory committee and are tailored to the student’s research direction and career plans.
Applicants for admission to the Graduate Program in Biomedical Engineering must meet the general requirements of The Graduate School and are expected to hold a baccalaureate degree from an ABET accredited engineering program or its equivalent. Applicants with baccalaureates in other disciplines are considered on a case-by-case basis.
Admission to the biomedical engineering graduate programs normally requires GPA of at least 3.0/4.0 for all graduate and undergraduate work, and Graduate Record Examination (GRE) scores of ≥156 for Quantitative, ≥154 for Verbal, and ≥4.0 for Analytical. Additional application materials include a statement describing your reasons for wanting to pursue graduate education in Biomedical Engineering and letters of recommendations from three (3) faculty members who are familiar with your academic record. Satisfying the above requirements does not guarantee admission to the biomedical engineering graduate program. Applications are reviewed by a committee of BME Faculty on a rolling basis.
For students who do not have an engineering degree, please refer to our FAQ on our website.
Biomaterials and Tissue Engineering
Development and testing of regenerative biomaterials and tissue engineering strategies for controlling cellular events based on an understanding of pathology and physiology.
Development and application of diffuse optical spectroscopy/tomography for diagnosing and therapeutic monitoring of various diseases.
Cardiovascular and Neural Control
Combination of experimentation and computational modeling to understand cardiac rhythm dynamics and brain function.
Cellular and Musculoskeletal Biomechanics
Ranging from the whole body to tissue to cellular levels, computational and experimental approaches are being used to understand and manage musculoskeletal disorders and bone quality and to investigate the effects of fluid mechanical forces on vascular cells.
Dr. Babak Bazrgari
Research Areas: biomechanics, sport biomechanics, rehabilitation engineering
Dr. David Puleo
Research Areas: tissue regeneration, tissue-implant interactions,
Dr. Sridhar Sunderam
Research Areas: computational neural engineering, signal
analysis for epilepsy, state-space models of behavior
Biomedical engineers combine engineering principles with medical and biological sciences to design and create equipment, devices, computer systems, and software used in healthcare.
Source: Bureau of Labor Statistics | Click the link for more info.
per year in 2014
Number of Jobs
10 Year Job Outlook
new jobs (average)
Biomedical engineers work in manufacturing, universities, hospitals, research facilities of companies and educational and medical institutions, and government regulatory agencies. They usually work full time.
Source: Bureau of Labor StatisticsRead More
Source: Bureau of Labor Statistics
Dr. Abhijit Patwardhan
Director of Graduate Studies
College of Engineering
522 Robotics and Manufacturing Building
Lexington, KY 40506-0108
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