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Course Criteria
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3.00 Credits
Advanced topics in skeletal tissue mechanics, including: skeletal biology, fracture healing, and bone remodeling; the mechanical properties, fracture resistance, and adaptability of bone to external forces; and the mechanics of synovial joints, cartilage, tendons, and ligaments. Prerequisites: BME 320, BME 340, BIOL 260
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3.00 Credits
With the foundations of fluid, heat and mass transfer established in Transport Fundamentals, this course focuses on specific biological examples of transport including oxygen transport, blood flow and solute transport in biological systems. Additionally, discussion will include integration of fluid, heat and mass transfer in specific biomedical examples such as artificial organ development and extracorporeal devices. Prerequisites: BME200, BME330, BIOL360, MATH403.
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3.00 Credits
Biomaterials is a multidisciplinary field requiring knowledge of biology, chemistry, materials science, mechanics, transport and medicine. In this course we will examine aspects of chemistry, biology, material science and mechanics as they apply to the interaction of a material with a biological system. Our examination of the field will lead to a general understanding of biocompatibility and how to design experiments that assess biocompatibility. Prerequisites: BME340, BIOL260, PHYS341, MTA403
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3.00 Credits
This course will explore numerical methods to characterize a variety of the major topics in Biomedical Engineering (transport phenomena, measurements, materials, mechanics and signals). Topics range from simple modeling of biosystems to steady and dynamic behavior of these systems. Various modeling tools and applications will also be explored. The course will utilize Matlab as its primary programming tool.
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3.00 Credits
This course will explore mathematical application sin human physiology that will aid in engineering medical devices. The course is intended for advanced undergraduate engineering students with a background in advanced mathematics, biomaterials, biomechanics, and transport phenomena. Topics to be covered include developmental biology, human anatomy (cardiac, renal, pulmonary and gasterointestinal), physiological function, and functional changed due to disease.
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0.00 Credits
A full-time supervised work experience with an agency, firm or organization that employs persons in this degree field. This course is used for the third experiential learning session. Grading system is determined by department offering course. Prerequisite: BME375 Offered every semester.
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0.00 - 3.00 Credits
A work experience with an agency, firm or organization that employs persons in this degree field. This experience may be full time or part-time as required by the industry sponsor. Grading system is determined by department offering course. Prerequisite: BME376 or Senior standing. Offered every semester.
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0.00 - 3.00 Credits
Experimental or one-time courses of special interest. Course must be approved by BME faculty prior to offering. Prerequisite: Approval of instructor.
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0.00 - 3.00 Credits
Capstone project; process of design; proposal development; project planning and scheduling; prototyping; quality; testing; regulatory issues; biomedical ethics; design review; teamwork; oral and written reports. Prerequisites: Completion of BME core requirements (BME 100, 101, 200, 305, 310, 330, 340), or consent of project advisor and consent of BME Chair.
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0.00 - 3.00 Credits
Continuation of first Senior Project I. Prerequisites: BME495, consent of research advisor, or consent of BME Chair. (This class must normally be taken in the same academic year as BME495.)
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