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BMEG 463: Mechanotransduction

3.00 Credits

University of Delaware

Covers topics of mechanosensation and mechanotransduction in biological systems. Includes the principles and evolution of mechanosensory/mechanostransduction systems, their cellular machinery and mechanisms, and their role in health, disease and the engineering of tissues. PREREQ: BMEG301. COREQ: BMEG302.

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BMEG 464: Medical Device Development

3.00 Credits

University of Delaware

Explore the medical device design process, from research and development to regulation and commercialization. Through these devices, key concepts in medical device design will be examined including principles of design, biocompatibility, device degradation, sterilization, manufacturing and benefit/risk ratio and regulation. PREREQ: MSEG302. RESTRICTIONS: Open to BME student; other students may take it with the instructor's permission.

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BMEG 466: Independent Study

1.00 - 6.00 Credits

University of Delaware

No course description available.

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BMEG 467: Seminar

1.00 - 6.00 Credits

University of Delaware

No course description available.

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BMEG 471: Mathematical Physiology

3.00 Credits

University of Delaware

Mathematical methods in Human Physiology, covering cellular, tissue, organ, and integrated systems. Dynamic modeling of homeostasis, endocrine regulatory systems, immune response dynamics, mutation and selection. Mathematical methods covered include linear and nonlinear differential equations, Lyapunov analysis, mass action, Hamming spaces, reaction-diffusion equations, and simulation. PREREQ: BMEG340.

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BMEG 479: Introduction to Medical Imaging Systems

3.00 Credits

University of Delaware

Physics, instrumentation, system design, and image reconstruction algorithms will be covered for the following modalities: radiography, x-ray computed tomography (CT), single photon emission computed tomography (SPECT), positron emission tomography (PET), magnetic resonance imaging (MRI), and real-time ultrasound. PREREQUESITES: BMEG 230 or ELEG 305

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BMEG 640: Attachments in Biology

3.00 Credits

University of Delaware

Facilitate an understanding of how dissimilar materials integrate and attach in biological constructs, both naturally and artificially. Specific examples of this include but are not limited to:tendon-to-bone attachments in the musculoskeletal system; gecko feet attachment to smooth surfaces; underwater adhesives; tissue engineered scaffolds to aid attachment healing; etc. Incorporate Lectures, interactive activities, and journal club to emphasize critical thinking and an open-forum environment. PREREQ: BMEG310 or equivalent, and MSEG302 or equivalent.

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BMEG 641: Biomechatronics

3.00 Credits

University of Delaware

Presents methods for the design and control of electromechanical devices that interact physically with humans to improve biomechanical performance, such as prostheses and exoskeletons. Topics include technologies for sensing and actuation, fundamentals of analog and digital control, methods for the analysis of biological signals such as EMG and of biosignal-based control for human-robot interaction. A mix between standard Lectures, laboratory experiments and a final project. PREREQ: BMEG310 or MEEG112, and BMEG311 or MEEG211, and ELEG305 or MEEG311.

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BMEG 643: Magnetic Resonance Imaging

3.00 Credits

University of Delaware

This course will cover the fundamental physical principles of magnetic resonance imaging (MRI), including signal basis, data sampling, basic signal processing, relaxation contrasts, and image formation. The latter portion of the course will explore advanced contrasts, such as motion encoding, functional MRI, diffusion imaging, and elastography. PREREQ: ELEG305 or equivalent course on signals and systems.

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BMEG 644: Microscale Biofluid Mechanics

3.00 Credits

University of Delaware

Biomedical applications of microfluidic systems discussed in the context of microfluidic device fabrication, fluid handling, imaging in microfluidic channels, 2D and 3D formats for perfusion culture of cells, micro tissues and organs, micro physiological systems (organ on a chip), microfluidic 3D bioprinting, and microfluidic synthesis. These applications will be used to discuss biological fluid mechanics at the micro and nano length-scales including a physicochemical description of hydrodynamics, scaling laws, mixing phenomena at low Reynolds number, capillarity, double layer phenomena and electrokinetic effects, nanofluidic entropic and confinement effects. PREREQ: BMEG420 or MEEG331 or equivalent course on fluid mechanics.

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