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Course Criteria
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0.00 Credits
Non-credit laboratory to accompany BIOE 6450. Coreq: BIOE 6450.
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3.00 Credits
Synthetic biology applies engineering principles to design and implement new biological systems and living organisms. This course covers approaches and tools for biological design, modeling, implementation, and debugging. Topics include gene regulatory networks, DNA assembly, modeling, biosensor development, and applications in the clinic, industry, and the environment.
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3.00 Credits
Introduces drug design, development and delivery in the context of creating biomaterial-based prodrugs and applying pharmaceutical therapies in tissue engineering/regenerative medicine. This course covers the relationship between drug physics-chemical properties and pharmacokinetics (ADME: Absorption, Metabolism, Distribution and Elimination)/pharmacodynamics (mechanism of drug interaction). Methods are described to improve the therapeutic efficacy and reduce the toxicity of drugs for the efficient treatment of diseases and regeneration of tissue/organs. This course also provides students with an understanding of the principles, strategies and biomaterials used in controlled delivery systems, targeted delivery systems and tissue engineering.
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3.00 Credits
Comprehensive study of a topic of current interest in the field of biomedical engineering under the direct supervision and guidance of a faculty member. May be repeated for a maximum of 12 credits, but only if different topics are covered.
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3.00 Credits
Biophotonics is an interdisciplinary subject of applying photonics to study biological samples from individual cells to the entire body. Introduces fundamental and frontier topics in optical imaging aspects of biophotonics for senior-level undergraduates and graduate students to gain the ability to solve bioimaging-related biomedical problems.
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3.00 Credits
Biomedical robotics is a highly interdisciplinary field centered around the design, development, and evaluation of medical robotic systems that enhance the physical capabilities of both patients and clinicians with the goal of improving our quality of life and healthcare. Students gain insights into the design, control, and application of robots in medical procedures, diagnostics, and therapy. The course also emphasizes the ethical, safety, and regulatory considerations surrounding medical robotics. In this course, students learn the fundamental design principles essential for meeting the functionality demands of modern biomedical robots, encompassing various products, processes, and system components.
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3.00 Credits
Provides training in the planning and conduct of experimental surgery, including laws and regulations; institutional requirements; selection of animal models; ethical considerations of animal research; preparation of animals for surgery; general and special surgical techniques; aseptic surgical techniques; and basic and applied instrumentation. Coreq: BIOE 6821.
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0.00 Credits
Non-credit laboratory to accompany BIOE 6820. Coreq: BIOE 6820.
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1.00 Credits
Original research in bioengineering; weekly one-hour seminar associated with weekly recitation covering seminar preparation, presentation, professional writing, bioengineering ethics and related topics. To be taken Pass/No Pass only.
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3.00 Credits
Structure and properties of the main classes of materials used in artificial organs and surgical implants; metals, ceramics, polymers, composites and materials of biological origin; mechanical properties, corrosion and design. Preq: Consent of instructor.
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