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Course Criteria
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4.00 Credits
Folch Introduction to BioMEMS. State-of-the-art techniques in patterning biomolecules, machining threedimensional microstructures and building microfluidic devices. Various biomedical problems that can be addressed with microfabrication technology and the engineering challenges associated with it. Biweekly labs. Offered: Sp.
Prerequisite:
BIOEN 303
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4.00 Credits
Stayton Fundamentals of molecular recognition: thermodynamics, forces, kinetics. Manipulation of recognition processes for current molecular bioengineering research and development. Fundamental physical chemistry of molecular recognition in the context of biomedicine. Therapeutics based on cells. Offered: Sp.
Prerequisite:
BIOEN 357; BIOC 405
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3.00 Credits
Baneyx Application of basic chemical engineering principles to biochemical and biological process industries such as fermentation, enzyme technology, and biological waste treatment. Rapid overview of relevant microbiology, biochemistry, and molecular genetics. Design and analysis of biological reactors and product recovery operations. Offered: jointly with CHEM E 467; W.
Prerequisite:
either CHEM 223 with CHEM E 340 or either CHEM 237 or CHEM 335; recommended: CHEM E 465
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4.00 Credits
Kim Provides students with understanding and hands-on experience in systems engineering, healthcare information systems, and core technologies for electronic medicine; including how large-scale engineering systems are defined, architected, built, and tested. Focus is on current and future medical systems. Offered: W.
Prerequisite:
BIOEN 303; MATH 308
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4.00 Credits
Engineering design, planning and managing an open-ended project, bioengineering and society. Offered: AWSPS.
Prerequisite:
BIOEN 303; BIOEN 305
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2.00 - 6.00 Credits
Independent capstone design/research project; final paper. Offered: AWSPS.
Prerequisite:
BIOEN 303; BIOEN 305
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4.00 Credits
Vicini Introduction to computational, mathematical and statistical approaches to the analysis of biological systems, including systems and control theory, molecular models and bioinformatics. Lectures and laboratory sessions emphasize practical problems in kinetics, metabolism and genomics. Offered: W.
Prerequisite:
CSE 143; BIOEN 305; MATH 308
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3.00 Credits
Bonadio, Horbett Combined application of principles of physical chemistry and biochemistry, materials engineering, to biomedical problems and products. Applications include implants and medical devices, drug delivery systems, cell culture processes, diagnostics, and bioseparations. Offered: jointly with CHEM E 490; Sp.
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3.00 Credits
Hoffman Mechanisms for controlled release of active agents and the development of useful drug delivery systems for this purpose. Release mechanisms considered include diffusive, convective, and erosive driving forces. Delivery routes include topical, oral and in vivo. Some special case studies covered in detail. Offered: jointly with CHEM E 491; even years; W.
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3.00 Credits
Ratner Understanding of solid surfaces for research and development in microelectronics, catalysis, adhesion, biomaterials, science wear, and corrosion science. Newer methods available to study surfaces of materials. Electron emission spectroscopies (ESCA, Auger): ion scattering, ion spectroscopic, photon spectroscopic, and thermodynamic methods. Offered: jointly with CHEM E 458; W.
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