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Course Criteria
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3.00 Credits
Continuation of ASL 101. Prerequisite: ASL 101.
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3.00 Credits
Mechanics of deformable bodies. Mechanical properties of biomaterials, bone, ligaments, and muscle. Uniaxial tension, compression, bending, and torsion applied to orthopedic biomechanics. Rigid body planar kinematics and dynamics, finite element techniques with applications to the biomechanics of walking, running, cycling, and other athletic activities. Formerly offered as 265. Prerequisite: ENGR 201.
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3.00 Credits
Introduction to materials, their surface and mechanical properties. Biomaterials used in prosthetic devices, dentures, arterial grafts, orthopedic implants, and other medical applications. Biocompatibility, biomaterial/tissue interactions, and other factors involved in the design of implants, biosensors and neuroprostheses.
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3.00 Credits
This course introduces the techniques for analysis and modeling of biological and physiological systems. Students will derive mathematical models of the systems developed in the co-requisite physiology and apply them to generate simulation data. Time and frequency domain issues will be addressed. Students will use computer methods to solve problems in data analysis, system identification, and model validation. Prerequisite ENGR 222, co-requisite BIOL 518.
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3.00 Credits
Fundamentals of biomechanical design and design of mechanical elements for use in orthopedics and rehabilitation. Integration of static analysis, stress analysis, and failure theories with practical biomedical design constraints. Use of CAD, finite element techniques and interactive anthropometric computer graphics in ergonomics and rehabilitation. Group design homework projects in rehabilitation or other biomedical applications. Formerly offered as 298. Prerequisites: ENGR 106, 201; BE 202.
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0.00 Credits
Presentations by faculty, graduate students, and guest speakers in the areas related to Biomedical Engineering; may include visits to laboratories and industry. Professional aspects of Biomedical Engineering presented through lectures and discussions by guest speakers, field trips, films, panel discussions.
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3.00 Credits
Laboratory experiments and design projects in areas of biomedical engineering. Topics may include measurements of cell deformability, adhesive strength, and parameters of cell migration. Primary component is student design projects and their presentation in class.
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3.00 Credits
Biomedical engineering internship projects. On-campus faculty supervised or off-campus student training, in which students are co-supervised by a professional at the supporting institution and a biomedical engineering faculty member. Includes a proposal, a mid-term report, and a final project presentation and report.
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3.00 Credits
Primary component is student design projects in biomedical or rehabilitation engineering. Also, guest lectures and group discussions deal with patent searches and application, product liability, the role of technical standards, the FDA regulatory process for medical devices, research and development, and professionalism. Prerequisite: BE 398.
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3.00 Credits
No course description available.
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