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Course Criteria
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3.00 Credits
This class focuses on the development, design, and application of controlled and targeted drug delivery systems including transdermal, inhalation, drug eluting stents, stimulated-drug, as well as microparticles and nanoparticles for controlled drug delivery. Principles of drug delivery, targeting, modification, distribution and diffusion will be discussed. Prerequisite: BE 3380, BIOL 1442, CHEM 4311 (or concurrent enrollment), and MATH 3319.
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3.00 Credits
An introduction to human physiology emphasizing biomedical engineering related topics. The course focuses on understanding basic function with the relationships on the cellular as well as organ level in both healthy and diseased states. Prerequisite: BIOL 1442, CHEM 2181, CHEM 2321, MATH 3319, and PHYS 1444.
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0.00 Credits
Senior level undergraduate research. Prerequisite: Departmental good standing and permission of instructor. May be taken a maximum of 3 times.
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1.00 Credits
Student participates in a research project under the individual instruction of a faculty supervisor.
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2.00 Credits
Student participates in a research project under the individual instruction of a faculty supervisor.
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3.00 Credits
Topics cover fundamentals of biosensors, bio-signal processing, and bioinstrumentation. An introduction to various imaging modalities such as ultrasound, magnetic resonance, optical tomography, and x-ray radiography is also presented. Other bioengineering topics may be included as time allows or as is appropriate. Prerequisite: 90 or more hours (senior) standing in an engineering or science discipline or instructor's consent.
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3.00 Credits
This course consists of both lecture/discussion and laboratory. Lecture topics include central and peripheral nervous system injury and regeneration, brain/machine interfacing, primary culture of neural cells, neuroinflammatory and neurodegenerative disease. Laboratories include embryonic and neonatal rat derived neuronal culturing, immunostaining and quantitative analysis. Prerequisites: BIOL 3301, CSE 1301, CHEM 1442, CHEM 2322, MATH 3319 or consent of the instructor.
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3.00 Credits
Principles and computational methods in digitally processing medical images are presented. Topics include image reconstruction, two and three dimensional visualization, image registration, quantitative image analysis, image enhancement, and statistical processing methods including Monte Carlo methods. Prerequisite: BE 3352, BE 3380, EE 3317 (or MAE 3319), MATH 3319, and PHYS 1444.
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3.00 Credits
This is a foundation course in polymeric biomaterial design, synthesis, characteriztion, and processing. The topics include design, surface-engineering, functionalization, characterization, as well as micro- and nano-fabrication of polymeric biomaterials. The biomedical applications of the polymeric biomaterials and their interaction with cell/tissue is discussed. Prerequisite: BIOL 1442, CHEM 2181, CHEM 2321, CHEM 4311 (or concurrent enrollment), MATH 3319, and PHYS 1444.
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3.00 Credits
Synthesis, fabrication, characterization, and biomedical applications of nanobiomaterials. Topics include synthetic nanobiomaterials, biological nanobiomaterials (DNA nanomaterials, protein and peptide nanomaterials, etc.), biofunctionalization of nanobiomaterials, and use of nanobiomaterials in tissue engineering, drug delivery, gene delivery. Prerequisite: BIOL 1442, CHEM 2181, CHEM 2321, CHEM 4311 (or concurrent enrollment), MATH 3319, and PHYS 1444.
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