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- Physiology, human physiology, medicine, biomedical engineering, engineering, biomedical devices, syllabus, syllabi (12)
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- Materials, biomedical applications, biomedical engineering, engineering, biomedical engineering, tissue ingrowth, syllabus, syllabi (1)
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Articles 1 - 30 of 62
Full-Text Articles in Engineering
Biom 4784: Biomedical Design Studio (Syllabus), Amy Curry
Biom 4784: Biomedical Design Studio (Syllabus), Amy Curry
Biomedical Engineering Syllabi
Course Description: Laboratory experience dedicated to the design, development, and fabrication of a final prototype for use in conducting engineering analysis and design loop feedback. Responsibilities will include frequent team meetings, mentor advising, and group brainstorming along with prototype designing, technical drawings, fabrication, engineering analysis, and verification/validation. Deliverables for each team will be a prototype, final design specification report with engineering reports, and a final team presentation.
Biom 3110: Medical Physiology (Syllabus), Bradford D. Pendley
Biom 3110: Medical Physiology (Syllabus), Bradford D. Pendley
Biomedical Engineering Syllabi
Course Description: Basic principles of human physiology and how these are applied in medicine and biomedical engineering problem and devices; physiological principles using appropriate mathematical and engineering models to construct an understanding of how the body works as an integrated system.
Biom 4802/6802: Assertion-Evidence Model For Presentations In Engineering And Science (Syllabus), Amber Jennings
Biom 4802/6802: Assertion-Evidence Model For Presentations In Engineering And Science (Syllabus), Amber Jennings
Biomedical Engineering Syllabi
Course Description: This course will provide training and practice in delivering scientific presentations to diverse audiences. Students will design and deliver presentations of scientific data for different audience categories.
Biom 7904: Ultrasound Imaging Technology (Syllabus), Carl Herickhoff
Biom 7904: Ultrasound Imaging Technology (Syllabus), Carl Herickhoff
Biomedical Engineering Syllabi
Course Description: This course will introduce students to a variety of current and emerging methods in ultrasound imaging. Concepts will be grounded in fundamental physical principles (acoustic waves, piezoelectric transduction, diffraction, scattering) and progress to methods of array beamforming, k-space representation, and imaging system architecture. Ultrasound nonlinearity, bioeffects, safety metrics, as well as Doppler (flow), harmonic, contrast-enhanced, and elastography imaging methods will also be introduced. Students will have the opportunity to observe ultrasound experiments and perform ultrasound imaging on an abdominal phantom.
Biom 3710: Physiological Systems And Modeling (Syllabus), Stephen Strain
Biom 3710: Physiological Systems And Modeling (Syllabus), Stephen Strain
Biomedical Engineering Syllabi
Course Description: Fundamentals of control theory and mathematical modeling and analysis as applied to physiological systems.
Biom 4410/Mech 4397: Engineering Practicum (Syllabus), Sheila Moses, Jeff Marchetta, Amy Curry
Biom 4410/Mech 4397: Engineering Practicum (Syllabus), Sheila Moses, Jeff Marchetta, Amy Curry
Biomedical Engineering Syllabi
Course Description: Preparation for professional practice through experiential learning under the supervision of an experienced engineer with oversight by a member of the department’s faculty. Regular reporting throughout course required.
Biom 4720/6720: Bioelectricity (Syllabus), Amy Curry
Biom 4720/6720: Bioelectricity (Syllabus), Amy Curry
Biomedical Engineering Syllabi
Course Description: Bioelectricity, including calculations of potential fields resulting from cardiac or neural electrogeneration; treatment of how heart and nerves generate and propagate electrical signals.
Biom 2720: Experimental Design And Analysis For Biomedical Engineering (Syllabus), Stephen Strain
Biom 2720: Experimental Design And Analysis For Biomedical Engineering (Syllabus), Stephen Strain
Biomedical Engineering Syllabi
Description: Application of probability, statistics, error analysis, uncertainty in design and performance of biomedical engineering experimentation; discussion and evaluation of common experimental designs for medical device development.
Biom 4782: Biomedical Design Practicum (Syllabus), Amy Curry
Biom 4782: Biomedical Design Practicum (Syllabus), Amy Curry
Biomedical Engineering Syllabi
Course Description: Practical application of biomedical design principles with emphasis on project management, teamwork, prototype production, risk analysis and management, technical drawings, patent review with claim development, market analysis, regulatory issues, professional and ethical responsibilities of a biomedical engineer, engineering analysis/reports, incorporation of standards, prototype verification/validation, and presentation skills.
Biom 1720: Introduction To Biomedical Engineering Tools, Stephen Strain
Biom 1720: Introduction To Biomedical Engineering Tools, Stephen Strain
Biomedical Engineering Syllabi
Course Description: Use of computer tools for data analysis, presentation, documentation; introduction to programming; individual and group design projects.
Biom 4110(Honors)/6110: The Science Of Medicine (Syllabus), Bradford D. Pendley
Biom 4110(Honors)/6110: The Science Of Medicine (Syllabus), Bradford D. Pendley
Biomedical Engineering Syllabi
Course Description: Integration of fundamental principles from physics, chemistry, biology and mathematics, and applications of these principles to solve problems in medicine.
Engr 1009: Preparation For Engineering Problem Solving (Syllabus), Stephen Strain, Drew Garth
Engr 1009: Preparation For Engineering Problem Solving (Syllabus), Stephen Strain, Drew Garth
Biomedical Engineering Syllabi
Course Description: Applications of algebra and trigonometry to engineering problems. Accelerated preparation for an engineering or technology major.
Biom 3110(Honors): Medical Physiology (Syllabus), Bradford D. Pendley
Biom 3110(Honors): Medical Physiology (Syllabus), Bradford D. Pendley
Biomedical Engineering Syllabi
Course Description: Basic principles of human physiology and how these are applied in medicine and biomedical engineering problem and devices; physiological principles using appropriate mathematical and engineering models to construct an understanding of how the body works as an integrated system.
Biom/Biol 4110: The Science Of Medicine (Syllabus), Bradford D. Pendley
Biom/Biol 4110: The Science Of Medicine (Syllabus), Bradford D. Pendley
Biomedical Engineering Syllabi
Course Description: Integration of fundamental principles from physics, chemistry, biology and mathematics, and applications of these principles to solve problems in medicine.
Engr 1009: Preparation For Engineering Problem Solving (Syllabus), Stephen Strain
Engr 1009: Preparation For Engineering Problem Solving (Syllabus), Stephen Strain
Biomedical Engineering Syllabi
Course Description: Applications of algebra and trigonometry to engineering problems. Accelerated preparation for an engineering or technology major.
Biom 2720: Experimental Design And Analysis For Biomedical Engineering (Syllabus), Stephen Strain
Biom 2720: Experimental Design And Analysis For Biomedical Engineering (Syllabus), Stephen Strain
Biomedical Engineering Syllabi
Course Description: Application of probability, statistics, error analysis, uncertainty in design and performance of biomedical engineering experimentation; discussion and evaluation of common experimental designs for medical device development.
Biom 1720: Introduction To Biomedical Engineering Tools (Syllabus), Stephen Strain
Biom 1720: Introduction To Biomedical Engineering Tools (Syllabus), Stephen Strain
Biomedical Engineering Syllabi
Course Description: Use of computer tools for data analysis, presentation, documentation; introduction to programming; individual and group design projects.
Biom 1720: Introduction To Biomedical Engineering Tools (Syllabus), Stephen Strain
Biom 1720: Introduction To Biomedical Engineering Tools (Syllabus), Stephen Strain
Biomedical Engineering Syllabi
Course Description: Use of computer tools for data analysis, presentation, documentation; introduction to programming; individual and group design projects.
Biom 3010: Medical Measurements (Syllabus), Carl D. Herickhoff
Biom 3010: Medical Measurements (Syllabus), Carl D. Herickhoff
Biomedical Engineering Syllabi
Course Description: Theory and application of major types of sensors used in biomedical engineering and clinical medicine; principles of signal processing and instrumentation, such as frequency domain analysis, operational amplifiers, and filtration.
Biom 3110: Medical Physiology (Syllabus), Bradford D. Pendley
Biom 3110: Medical Physiology (Syllabus), Bradford D. Pendley
Biomedical Engineering Syllabi
Course Description: Basic principles of human physiology and how these are applied in medicine and biomedical engineering problem and devices; physiological principles using appropriate mathematical and engineering models to construct an understanding of how the body works as an integrated system.
Biom 4730 / Mech 4365: Biomaterials, Joel D. Bumgardner
Biom 4730 / Mech 4365: Biomaterials, Joel D. Bumgardner
Biomedical Engineering Syllabi
Course Description: Synthetic materials and their interaction with the physiological environment; methods to design and study materials that are compatible with natural tissue.
Biom 3010: Medical Measurements (Syllabus), Aaryani Sajja
Biom 3010: Medical Measurements (Syllabus), Aaryani Sajja
Biomedical Engineering Syllabi
Course Description: Theory and application of major types of sensors used in biomedical engineering and clinical medicine; principles of signal processing and instrumentation, such as frequency domain analysis, operational amplifiers, and filtration.
Biom 4760: Biomedical Engineering Design Principles (Syllabus), Carl D. Herickhoff
Biom 4760: Biomedical Engineering Design Principles (Syllabus), Carl D. Herickhoff
Biomedical Engineering Syllabi
Course Description: Practical design methods emphasizing the front-end or concept development stage of engineering design; design a system, component, or process to meet desired needs within realistic constraints with functioning on multi-disciplinary teams.
Biom 2720: Experimental Design And Analysis For Biomedical Engineering (Syllabus), Stephen Strain
Biom 2720: Experimental Design And Analysis For Biomedical Engineering (Syllabus), Stephen Strain
Biomedical Engineering Syllabi
Course Description: Application of probability, statistics, error analysis, uncertainty in design and performance of biomedical engineering experimentation; discussion and evaluation of common experimental designs for medical device development.
Biom 1720: Introduction To Biomedical Engineering Tools (Syllabus), Stephen Strain
Biom 1720: Introduction To Biomedical Engineering Tools (Syllabus), Stephen Strain
Biomedical Engineering Syllabi
Course Description: Use of computer tools for data analysis, presentation, documentation; introduction to programming; individual and group design projects.
Biom 7432/8432: Advanced Biomaterials (Syllabus), Gary L. Bowlin
Biom 7432/8432: Advanced Biomaterials (Syllabus), Gary L. Bowlin
Biomedical Engineering Syllabi
Course Description: Materials used in biomedical applications in relationship to corrosion, crack propagation, creep, and related topics; tissue ingrowth into materials.
Biom 3110(Honors): Medical Physiology (Syllabus), Bradford D. Pendley
Biom 3110(Honors): Medical Physiology (Syllabus), Bradford D. Pendley
Biomedical Engineering Syllabi
Course Description: Basic principles of human physiology and how these are applied in medicine and biomedical engineering problem and devices; physiological principles using appropriate mathematical and engineering models to construct an understanding of how the body works as an integrated system.
Biom/Biol 4110: The Science Of Medicine (Syllabus), Bradford D. Pendley
Biom/Biol 4110: The Science Of Medicine (Syllabus), Bradford D. Pendley
Biomedical Engineering Syllabi
Course Description: Integration of fundamental principles from physics, chemistry, biology and mathematics, and applications of these principles to solve problems in medicine.
Biom 4110(Honors)/6110: The Science Of Medicine (Syllabus), Bradford D. Pendley
Biom 4110(Honors)/6110: The Science Of Medicine (Syllabus), Bradford D. Pendley
Biomedical Engineering Syllabi
Course Description: Integration of fundamental principles from physics, chemistry, biology and mathematics, and applications of these principles to solve problems in medicine.
Biom 4801/6801: Introduction To Medical Imaging (Syllabus), Aaryani Sajja
Biom 4801/6801: Introduction To Medical Imaging (Syllabus), Aaryani Sajja
Biomedical Engineering Syllabi
Course Description: This course will introduce fundamentals of the four most-important clinical medical imaging modalities: X-ray, Radionuclide, Ultrasound, and MRI. The primary focus is on the physical principles, instrumentation methods, imaging algorithms, and clinical applications of each imaging modality.