LOWER-DIVISION
BME1 Introduction to Biomedical Engineering (2) W. Introduction to the central topics of biomedical engineering. Offers a perspective on bioengineering as a discipline in a seminar format. Principles of problem definition, team design, engineering inventiveness, information access, communication, ethics, and social responsibility are emphasized. (Design units: 1)
BME50A-B Cell and Molecular Engineering (4-4) W, S. Physiological function from a cellular, molecular, and biophysical perspective. Applications to bioengineering design. (Design units: 2-2)
UPPER-DIVISION
BME110A Biomechanics I (4) F. Introduction to continuum mechanics of both living and nonliving bodies. The laws of motion and free-body diagrams. Stresses. Deformation. Compatibility conditions. Constitutive equations. Properties of common fluids and solids. Derivation of field equations and boundary conditions. Applications to bioengineering design. Prerequisites: Physics 7D, 7LD, 7E. (Design units: 1)
BME110B Biomechanics II (4) W. Introduction to the mechanics of physiological systems. Application of mechanics to understand the structure/function relationship at gross and microscopic levels. Bioelastic solids. Rigid body biomechanics. Biofluids. Bioengineering and medical design. Prerequisite: BME110A. (Design units: 1)
BME111 Design of Biomaterials (4) S. Natural and synthetic polymeric materials. Materials characterization and design. Wound repair, blood clotting, foreign body response, transplantation biology, biocompatibility of materials, tissue engineering. Artificial organs and medical devices. Government regulations. Patenting. Ethical issues. Prerequisites: BME110A-B. (Design units: 3)
BME120 Quantitative Physiology: Sensory Motor Systems (4) F. A quantitative and systems approach to understanding physiological systems. Systems covered include the nervous and musculoskeletal systems. Prerequisite: Mathematics 3D or equivalent, or consent of instructor. Concurrent with BME220. Formerly Engineering E110B. (Design units: 2)
BME121 Quantitative Physiology: Organ Transport Systems (4) W. A quantitative and systems approach to understanding physiological systems. Systems covered include the cardiopulmonary, circulatory, and renal systems. Prerequisite: Mathematics 3D or equivalent, or consent of instructor. Same as CBEMS104. Concurrent with BME221, CBEMS204. Formerly Engineering E110A. (Design units: 1).
BME130 Biomedical Signals and Systems (4) F. Biomedical signal analysis in a vector space of signals: cluster analysis; orthogonal expansions; Fourier Series expansions; linear least squares estimation. Dynamical system models: analysis of forward (system responses) and inverse (system identification and inversion) problems. Class projects on applications. Prerequisites: Mathematics 2J; Mathematics 7 recommended. (Design units: 1)
BME135 Photomedicine (4) F. Studies the use of optical and engineering-based systems (laser-based) for diagnosis, treating diseases, manipulation of cells and cell function. Physical, optical, and electro-optical principles are explored regarding molecular, cellular, organ, and organism applications. Prerequisites: Physics 3A-B-C or 7A-B-D, or ECE10 or consent of instructor. Same as Biological Sciences 130. Formerly ECE175. (Design units: 0)
BME136 Engineering Optics for Medical Applications (3) W. Fundamentals of optical systems design, integration, and analysis used in biomedical optics. Design components: light sources, lenses, mirrors, dispersion elements, optical fibers, detectors. Systems integration: microscopy, radiometry, inteferometry. Optical system analysis: resolution, modulation transfer function, deconvolution, interference, tissue optics, noise. Corequisite: BME136L. Prerequisite: BME135 or ECE170, or consent of instructor. Formerly ECE176. (Design units: 1).
BME136L Engineering Optics for Medical Applications Laboratory (1) W. Optical system design and data analysis: microscopy, imaging, spectral analysis, interferometry, tomography, radiometry. Corequisite: BME136. Prerequisites: BME135 and ECE170 or consent of instructor. Formerly ECE176L. (Design units: 0)
BME 140 Design of Biomedical Electronics (4) W. Analog and digital circuits in bioinstrumentation. Biomedical signals in continuous and discrete systems. Sampling and digital signal processing. MRI; CT; ultrasound; bioelectromagnetics; electrokinetics. Applications to bioengineering design. Prerequisite: BME130. (Design units: 3)
BME 150 Biological Mass Transfer (4) S. Mass transfer in gas, liquid and solid with application to biological systems. Free and facilitated diffusion, active transport, convective mass transfer, diffusion-reaction phenomena, biological mass transfer coefficients, steady and unsteady transport, and flux-force relationships. Applications to bioengineering design. Prerequisites: BME110A-B. (Design units: 1)
BME160 Tissue Engineering (4) S. Quantitative analysis of cell and tissue functions. Emerging developments in stem cell technology, biodegradable scaffolds, growth factors, and others important in developing clinical products. Applications to bioengineering design. Prerequisites: BME50A-B, BME121. (Design units: 2)
BME170 Biomedical Engineering Laboratory (4) F. Laboratory experiments involving living systems with the emphasis on biophotonics, nanoscale systems, and physiological systems. Five laboratories are planned including image processing, Optical Computed Tomography, dynamic cooling, respiratory gas exchange, and electroosmotic transport phenomena. Study of possible errors. Prerequisites: BME111, BME120, BME121, BME130, BME140. (Design units: 1)
BME180 Biomedical Engineering Clinical Design (4) W. Design strategy and concepts commonly encountered in biomedical engineering such as reliability, safety, ethics, economic analysis, and marketing. Bioethical issues are discussed. A cardinal feature of this course is a clinical experience at the UCI Medical Center and Beckman Laser Institute. (Design units: 4)
BME181 Biomedical Engineering Industrial Design (4) S. Design strategy and concepts commonly encountered in biomedical engineering. A cardinal feature of the course is an industrial design project developed in partnership with the Center for Biomedical Engineering's industrial sponsors and Corporate Advisory Board. Prerequisites: BME111, BME120, BME121, BME140, BME150. (Design units: 4)
BME195 Special Topics in Biomedical Engineering (1 to 4) F, W, S. Prerequisites vary. May be repeated for credit. (Design units: varies)
BME196 Biomedical Engineering Thesis (4) F, W, S. Preparation of final presentation and paper describing individual research in biomedical engineering in one or more quarters of individual study (i.e., BME199). Prerequisites: satisfactory completion of lower-division writing requirement, completion of at least four units of BME199, and consent of BME199 instructor. (Design units: varies).
BMEH196 Biomedical Engineering Honors Thesis (4) F, W, S. Preparation of final presentation and paper describing individual research in biomedical engineering. Prerequisites: BMEH199 and consent of instructor. Open only to members of the Campuswide Honors Program who are Biomedical Engineering or Biomedical Engineering: Premedical majors. (Design units: varies)
BME199 Individual Study (1 to 4) F, W, S. Independent research conducted in the laboratory of a Biomedical Engineering core faculty member. A formal written report of the research conducted is required at the conclusion of the quarter. Prerequisites: Biological Sciences 194S and consent of instructor. May be repeated for credit. (Design units: varies)
BMEH199 Individual Study for Honors Students (1 to 4) F, W, S. Independent research conducted in the laboratory of a Biomedical Engineering faculty member for participants in the Campuswide Honors Program. A formal written report of the research conducted is required at the conclusion of quarter. Prerequisites: Biological Sciences 194S and consent of instructor. Open only to members of the Campuswide Honors Program who are Biomedical Engineering or Biomedical Engineering: Premedical majors. May be repeated for credit. (Design units: varies)
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