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INTERSCHOOL OR INTERCOLLEGE PROGRAMS
BIOENGINEERING

Detailed course offerings (Time Schedule) are available for

• Leap Quarter 2022
• Summer Quarter 2022
• Autumn Quarter 2022

BIOEN 215 Introduction to Bioengineering Problem Solving (3) Alyssa C Taylor
Introduces bioengineering through a problem solving approach. Topics include: creative problem solving techniques, self-directed research, engineering ethics, social constraints, and engineering design process.
View grade details in MyPlan: BIOEN 215

BIOEN 217 MATLAB Fundamentals for Bioengineers (ane) Christopher Neils
Introduction to scientific programming, using both standard programming methods and MATLAB-specific strategies. Intended every bit preparation for the Bioengineering core sequence. Applications include curve fitting, simulations, ODE solutions, and image processing fundamentals, executed every bit in-class tutorials and final project. Prerequisite: either CSE 142, CSE 160, or AMATH 301, which may be taken concurrently. Credit/no-credit only.
View form details in MyPlan: BIOEN 217

BIOEN 290 Guided Contained Studies on Transformative Science (four) NW M. POLLACK
Intensive laboratory experience mixed with lectures, readings, and discussions aimed at achieving deep agreement of scientific approach, particularly the nature of prototype shifts, role of governmental support and management of science, power of orthodoxy, role of challenger, and fate of unpopular scientific views. Offered: Westward.
View form details in MyPlan: BIOEN 290

BIOEN 299 Introduction to Bioengineering (1) Thou. POLLACK
Lectures on the various aspects of bioengineering; orientation in bioengineering studies and practice. Credit/no-credit only. Offered: ASp.
View course details in MyPlan: BIOEN 299

BIOEN 315 Biochemical Molecular Engineering (3) 5. Daggett, D. Ratner
Introduces the requisite organic, physical, and biochemistry for incoming bioengineers to empathise biological systems at the molecular level. Prerequisite: CHEM 223, CHEM 237 or CHEM 335; BIOL 200, which may be taken concurrently. Offered: Sp.
View course details in MyPlan: BIOEN 315

BIOEN 316 Biomedical Signals and Sensors (4) Christopher Neils
Introduces the sources, detection, and processing of signals in medical instrumentation. Includes analog and digital bespeak processing in the time and frequency domains. Emphasizes component strengths and limitations, to develop systems that improve safety, accuracy, and reliability. Co-requisite: BIOEN 317 Prerequisite: either AMATH 301, both BIOEN 217 and CSE 142, or both BIOEN 217 and CSE 160; either PHYS 122 or PHYS 142; and either MATH 136, MATH 207, or AMATH 351, whatsoever of which may be taken meantime. Offered: Sp.
View course details in MyPlan: BIOEN 316

BIOEN 317 Biomedical Signals and Sensors Laboratory (ii) A. Yazdan-Shahmorad
Uses computational and experimental projects roofing methods to larn, process, and clarify signals from physiological and biochemical origins. Co-requisite: BIOEN 315 and BIOEN 316. Offered: Sp.
View course details in MyPlan: BIOEN 317

BIOEN 325 Biotransport I (four) Ying Zheng
Introduces momentum and oestrus send in medical and biological systems. Examines how differential and control-volume analyses produce ordinary and partial differential equations; develops analytical and computational solution methods. Prerequisite: either AMATH 301, both BIOEN 217 and CSE 142, or both BIOEN 217 and CSE 160; either MATH 136, MATH 207, or AMATH 351; and either PHYS 122 or PHYS 142. Offered: A.
View course details in MyPlan: BIOEN 325

BIOEN 326 Solid and Gel Mechanics (four) Wendy East Thomas
Introduces solid mechanics and interactions of biological structures and medical materials. Emphasizes the relationships betwixt composition, construction, properties, and performance of metals and ceramics, constructed and natural macromolecules, cells, tissues, and self assembling systems. Prerequisite: either CHEM 162, CHEM 164, or CHEM 165; either PHYS 122 or PHYS 142; and a minimum grade of 2.0 in BIOEN 315. Offered: A.
View course details in MyPlan: BIOEN 326

BIOEN 327 Fluids and Materials Laboratory (two) C. NEILS
Practical exploration of the behavior of fluids and soft materials that occur in biological systems and biomedical devices; and the interaction betwixt cells and their environment. Includes methods of measurement, analysis, and design. Co-requisite: BIOEN 325 and BIOEN 326. Offered: A.
View form details in MyPlan: BIOEN 327

BIOEN 335 Biotransport Ii (three) J. BRYERS
Studies the principles of combined mass transport in homogeneous and heterogeneous reaction systems every bit applied to biological processes. Introduces chemical and biochemical reaction kinetics, methods of evaluating kinetic parameters for reaction rate data, and prediction of the performance of biological and biochemical processes. Prerequisite: minimum grade of 2.0 in BIOEN 325. Offered: W.
View class details in MyPlan: BIOEN 335

BIOEN 336 Bioengineering Systems and Command (3) Herbert Chiliad Sauro
Reviews linear and nonlinear systems analysis and command system design and biological and medical applications. Prerequisite: a minimum grade of 2.0 in BIOEN 327; and either MATH 136, MATH 208, or AMATH 352. Offered: W.
View course details in MyPlan: BIOEN 336

BIOEN 337 Mass Transport and Systems Laboratory (2) Alyssa C Taylor
Uses computational and experimental laboratory exercises to demonstrate fourth dimension- and infinite-dependent linear and nonlinear systems with specific emphasis on bioengineering application. Prerequisite: BIOEN 327; BIOEN 335 and BIOEN 336, which must exist taken concurrently; and either STAT 311, STAT 390, Q SCI 381, or IND Due east 315, which may be taken meantime. Offered: Due west.
View course details in MyPlan: BIOEN 337

BIOEN 345 Failure Assay and Human Physiology (4) Michael Regnier, Marta Scatena, Suzie H Pun
Applies engineering assay to sympathise human being physiology of the technology of solutions to medical and biological problems. Includes laboratory. Prerequisite: BIOL 220; a minimum class of 2.0 in either of BIOEN 215 or ENGR 115; a minimum grade of 2.0 in BIOEN 335; a minimum grade of 2.0 in BIOEN 336; and a minimum grade of two.0 in BIOEN 337. Offered: Sp.
View class details in MyPlan: BIOEN 345

BIOEN 400 Fundamentals of Bioengineering Blueprint (iii) Patrick Boyle
Preparatory projection-based course that develops understanding of the applied science design process and incorporates modern tools and methodologies for developing innovative health technologies. Prerequisite: BIOEN 337; either STAT 311, STAT 390, Q SCI 381, or IND E 315; BIOL 220; and either PHYS 122 or PHYS 142. Offered: Sp.
View class details in MyPlan: BIOEN 400

BIOEN 401 Bioengineering Capstone Proposal (1) P. Yager
Teaches proposal-writing principles and guides the development and planning of individually-based senior capstone projects. Prerequisite: BIOEN 337; STAT/MATH 390 or IND Due east 315; BIOL 180, 200, 220; PHYS 121, 122. Co-requisites: BIOEN 400 Offered: Sp.
View course details in MyPlan: BIOEN 401

BIOEN 402 Bioengineering Capstone Research and Design ([2-6]-, max. x)
Independent senior design project. Prerequisite: BIOEN 401. Offered: AWSpS.
View course details in MyPlan: BIOEN 402

BIOEN 403 Bioengineering Capstone Research (two-, max. 4)
Independent senior research projection. Prerequisite: BIOEN 401. Offered: AW.
View course details in MyPlan: BIOEN 403

BIOEN 404 Bioengineering Team Design I (3) C. Neils
First grade in team pattern projection class sequence. Prerequisite: BIOEN 400. Offered: Westward.
View class details in MyPlan: BIOEN 404

BIOEN 405 Bioengineering Team Design 2 (iv) A. TAYLOR AMOS
Second course in squad design projection course sequence. Prerequisite: BIOEN 404. Offered: Sp.
View course details in MyPlan: BIOEN 405

BIOEN 410 Bioengineering Honors Seminar (1)
Service-learning for departmental honors students. Credit/no-credit only. Offered: A.
View grade details in MyPlan: BIOEN 410

BIOEN 415 Bioconjugate Applied science (4) D. Ratner
Applies bioconjugate and molecular engineering science methods for use in nanotechnology, drug delivery, biomaterials, diagnostics, medical devices, and biomedical research. Students acquire how to engineer molecular and macromolecular systems using versatile bioconjugate techniques applicative to both manufacture and academia. Prerequisite: BIOEN 315, CHEM 221, CHEM 224, CHEM 239, or CHEM 337 Offered: A.
View course details in MyPlan: BIOEN 415

BIOEN 420 Medical Imaging (iv) Chun Yuan
Various medical imaging modalities (x-rays, CT, MRI, ultrasound, PET, SPECT optical imaging, etc.) and their applications in medicine and biology. Extends basic concepts of signal processing (BIOEN 303) to the 2 and 3 dimensions relevant to imaging physics, image reconstruction, image processing, and visualization. Prerequisite: either BIOEN 316 or E E 235; either MATH 136, MATH 208, or AMATH 352; and either CSE 142 or AMATH 301.
View course details in MyPlan: BIOEN 420

BIOEN 423 Introduction to Synthetic Biology (3)
Studies mathematical modeling of transcription, translation, regulation, and metabolism in jail cell; estimator aided blueprint methods for synthetic biological science; implementation of data processing, Boolean logic and feedback command laws with genetic regulatory networks; modularity, impedance matching and isolation in biochemical circuits; and parameter estimation methods. Prerequisite: either MATH 136, MATH 207, MATH 307, AMATH 351, or CSE 311; and either MATH 208, MATH 308, or AMATH 352. Offered: jointly with CHEM E 476/CSE 486/Eastward E 423.
View grade details in MyPlan: BIOEN 423

BIOEN 424 Avant-garde Systems and Synthetic Biology (3)
Covers advanced concepts in organization and constructed biology. Includes kinetics, modeling, stoichiometry, command theory, metabolic systems, signaling, and motifs. All topics are set confronting problems in synthetic biology. Prerequisite: E Eastward 423/BIOEN 423/CHEM Eastward 476/CSE 486. Offered: jointly with CHEM E 477/CSE 487/Eastward Eastward 424.
View course details in MyPlan: BIOEN 424

BIOEN 425 Laboratory Methods in Synthetic Biology (four)
Designs and builds transgenic bacterial using promoters and genes taken from a variety of organisms. Uses construction techniques including recombination, factor synthesis, and gene extraction. Evaluates designs using sequencing, fluorescence assays, enzyme activeness assays, and single cell studies using time-lapse microscopy. Prerequisite: E E 423/BIOEN 423/CHEM Eastward 476/CSE 486; and either CHEM 142, CHEM 143, or CHEM 145. Offered: jointly with CHEM E 478/CSE 488/E E 425.
View course details in MyPlan: BIOEN 425

BIOEN 436 Quantitative Physiology (3) Hao Yuan Kueh
Develops a foundation of human physiology by examining the homeostasis of vital parameters within the trunk, and the physiological properties of homo cells, tissue, and organs. Recommended: MATH 207 or AMATH 351; courses in ordinary differential equations; probability theory; introductory programming; and introductory cell and molecular biology.
View form details in MyPlan: BIOEN 436

BIOEN 437 Computational Systems Biological science (four) Herbert Yard Sauro, Joseph L Hellerstein
Application of modeling in systems biological science. Bones modeling techniques, standards and model repositories, model plumbing fixtures, model selection and confidence estimates, uncertainty quantification, ensemble modeling and a term long modeling game. Prerequisite: either MATH 207 or AMATH 351; either MATH 208 or AMATH 352; and either CSE 142, CSE 160, or AMATH 301; recommended: BIOL 180 and BIOL 200.
View course details in MyPlan: BIOEN 437

BIOEN 440 Introduction to Biomechanics (4) J. SANDERS
Presents the mechanical beliefs of tissues in the torso and the awarding to design of prostheses. Tissues studies include bone, skin, fascia, ligaments, tendons, middle valves, and blood vessels. Discussion of the structure of these tissues and their mechanical response to different loading configurations. An important office of the class is a final project. Offered: jointly with Chiliad E 445; Sp.
View course details in MyPlan: BIOEN 440

BIOEN 447 Fundamentals of Magnetic Resonance and Ultrasound Imaging (4) M. Averkiou
Principles and uses of biomedical imaging with magnetic resonance imaging (MRI) and ultrasound are presented from an engineering viewpoint. Topics include the physics of MRI and ultrasound, principles of image formation, clinical applications, and the technology supporting important modes of mod imaging equipment. Prerequisite: BIOEN 316 or BIOEN 317. Offered: Due west.
View form details in MyPlan: BIOEN 447

BIOEN 449 Therapeutic and Diagnostic Ultrasound (4) M. AVERKIOU
Fundamentals of ultrasound leading to real-time ultrasound imaging; audio beams and signals, transducers, arrays and array beamforming; ultrasound interaction with tissue; Doppler and Color-catamenia; nonlinear imaging and contrast agents. Ultrasound bioeffects and therapeutic ultrasound: thermal therapies, HIFU, hyperthermia and BIO estrus equation; cavitation, lithotripsy; drug commitment. Elastography, photoacoustic imaging. Prerequisite: BIOEN 316 or BIOEN 317. Offered: Sp.
View class details in MyPlan: BIOEN 449

BIOEN 451 Optical Coherence Tomography (4) Ruikang Wang
Describes the basic physics and applied science principles of optical coherence tomography, and rapid development of imaging applications in medicine and biology. Extends basic concepts of bespeak processing and instrumentation to imaging physics (eyes), image reconstruction, prototype processing, and visualization. Prerequisite: either BIOEN 316 or Due east Eastward 235; and either MATH 136, MATH 208, or AMATH 352; recommended: Contemporary Light Microscopy and Biophotonics Offered: A.
View course details in MyPlan: BIOEN 451

BIOEN 454 Bioengineering Solutions to Improve the Health of Families Worldwide (1) I&Due south, DIV Alexis Fifty Kaushansky
Seminar series that engages students in interdisciplinary discussions about global health. Explores how bioengineering approaches contribute to (ane) the study of problems of global wellness importance, (2) the development of diagnostics, and (3) the discovery of interventional strategies to improve human wellness. Emphasizes collaboration between students and researchers with backgrounds in infectious disease, basic scientific discipline, and bioengineering. Credit/no-credit only. Offered: jointly with K H 454; A.
View course details in MyPlan: BIOEN 454

BIOEN 455 BioMEMS (4) Albert Folch
Introduction to BioMEMS. State-of-the-fine art techniques in patterning biomolecules, machining three-dimensional microstructures and edifice microfluidic devices. Diverse biomedical issues that can be addressed with microfabrication engineering and the engineering challenges associated with it. Biweekly labs. Prerequisite: BIOEN 316. Offered: West.
View course details in MyPlan: BIOEN 455

BIOEN 457 Avant-garde Molecular Bioengineering (4) P. STAYTON
Fundamentals of molecular recognition: thermodynamics, forces, kinetics. Manipulation of recognition processes for current molecular bioengineering research and evolution. Fundamental physical chemistry of molecular recognition in the context of biomedicine. Therapeutics based on cells. Prerequisite: either BIOEN 315 and BIOEN 335. Offered: A.
View course details in MyPlan: BIOEN 457

BIOEN 460 Neural Engineering (3) Azadeh Yazdan-Shahmorad, Chet T Moritz
Introduces the field of Neural Engineering: overview of neurobiology, recording and stimulating the nervous arrangement, indicate processing, motorcar learning, powering and communicating with neural devices, invasive and not-invasive encephalon-machine interfaces, spinal interfaces, smart prostheses, deep-brain stimulators, cochlear implants and neuroethics. Heavy emphasis on primary literature. Prerequisite: either BIOL 130, BIOL 162, or BIOL 220; and either MATH 208, AMATH 301, or AMATH 352. Offered: jointly with E Eastward 460; A.
View grade details in MyPlan: BIOEN 460

BIOEN 461 Neural Engineering Tech Studio (4) Chet T Moritz, Azadeh Yazdan-Shahmorad
Neural technology design and translational engineering. Groups design, build and nowadays a neural engineering epitome project to a panel of industry judges. Prerequisite: BIOEN 460/E E 460. Offered: jointly with Due east E 461.
View grade details in MyPlan: BIOEN 461

BIOEN 463 Optogenetics (3) Andre Berndt
Overview of optogenetics, which utilizes light-activated ion channels and fluorescent proteins to control and monitor neuronal activeness through remote light stimulation in intact encephalon tissue. Includes (1) molecular basis, (2) tools and instrumentation, (3) experimental design, and (four) application range of optogenetic approaches. Builds a robust foundation for designing contemporary optogenetic experiments. Offered: W.
View course details in MyPlan: BIOEN 463

BIOEN 466 Neural Computation and Engineering Laboratory (4) NW Amy Orsborn
Introduces neural recording and quantitative analysis techniques to students with a background in quantitative methods. Prerequisite: either BIOL 130, BIOL 162, BIOL 220, AMATH 342; and either MATH 208, AMATH 301, or AMATH 352. ; recommended: courses in scientific calculating and matrix manipulations in Matlab; and courses in neural signal processing and data assay. Offered: jointly with East E 466.
View form details in MyPlan: BIOEN 466

BIOEN 467 Biochemical Engineering (3) F. BANEYX
Application of basic chemic engineering principles to biochemical and biological procedure industries such as fermentation, enzyme engineering, and biological waste matter treatment. Rapid overview of relevant microbiology, biochemistry, and molecular genetics. Design and analysis of biological reactors and product recovery operations. Prerequisite: CHEM E 340; either CHEM 223, CHEM 237, or CHEM 335. Offered: jointly with CHEM E 467; West.
View course details in MyPlan: BIOEN 467

BIOEN 468 Real-Time Biosignal Processing (iii) C. Neils
Lab-based introduction to techniques for real-time betoken acquisition, processing, and output, emphasizing software equally an interface betwixt user and electronic circuits. Students write programs for implementation both in graphical programming environments and in portable microprocessor platforms. In-depth discussion of hardware specifications and implications for circuit blueprint. Prerequisite: Either BIOEN 316, or E E 215 and Due east E 235. Offered: W.
View course details in MyPlan: BIOEN 468

BIOEN 470 Systems Immunology and Immunoengineering (3) Hao Yuan Kueh
Explores current progress towards a quantitative, systems-level agreement of immune system function. Topics include sensitivity and selectivity in immune receptor signaling, cell-cell coordination by cytokine communication, and cell engineering for immunotherapy. Prerequisite: MATH 207 or AMATH 351.
View form details in MyPlan: BIOEN 470

BIOEN 472 Biosensors for Cancer (4) Albert Folch
Introduces the broad field of biosensors for cancer diagnostics. Recommended: bones cancer biological science, basic organic chemistry, basic materials science. Offered: A.
View course details in MyPlan: BIOEN 472

BIOEN 474 Immunoengineering (3) K. Woodrow
Covers cell and tissues of allowed system; lymphocyte activation and specificity; cell biology of antigen processing and preservation; and effector mechanisms. Includes give-and-take of concepts in theoretical immunology used to describe viral dynamics and the dynamics of immune responses. Students present example studies in the pathogenesis of immunologically mediated diseases. Offered: West.
View class details in MyPlan: BIOEN 474

BIOEN 475 Global Health Technology: Molecular Diagnostics (4) Barry R. Lutz
Teaches engineering principles, tools, and technologies needed to do or develop nucleic acid (Dna/RNA) diagnostics and their context in global health. Recommended: Avant-garde Applied science, Chemistry or math groundwork. Offered: West.
View course details in MyPlan: BIOEN 475

BIOEN 481 Engineering Prison cell Biological science (three) Hongxia Fu
Introduces engineering approaches for analysis and control of jail cell structure and function, and application of such technologies in prison cell biology studies. Covers the nuts of jail cell biological science, engineering cellular microenvironments, as well as furnishings of external technology stimuli on cellular processes, which have meaning implications in diverse diseases such as cancer, neuromuscular disease, and cardiovascular disease. Prerequisite: either CHEM 142, CHEM 143, or CHEM 145; and BIOL 200; recommended: Introductory Biology, General Chemistry
View course details in MyPlan: BIOEN 481

BIOEN 482 Cardiac Bioengineering (3) Michael Regnier
Students talk over, present, and write literature reviews of scientific papers on the latest techniques, protocols and treatments being developed to treat middle failure and vascular diseases. Guest lecturers provide a clinical perspective, discuss clinical needs, and nowadays their ongoing research and development projects. Prerequisite: BIOL 220; recommended: BIOEN 345.
View class details in MyPlan: BIOEN 482

BIOEN 483 Vascular Biology and Engineering (3) Y. Zheng
Vascular Technology has emerged to provide strategies for generating vascular grafts with long-term patency, and vascularized tissues for regenerative medicine and disease modeling. Focuses on understanding the structure and office of different vascular beds in vivo, and learning the cutting edge inquiry and engineering principles in vascular biology and engineering. Recommended: Introductory Biology, General Mechanics, and Cell Biology Offered: Due west.
View class details in MyPlan: BIOEN 483

BIOEN 485 Computational Bioengineering (4) Wendy E Thomas
Introduction to computational and mathematical assay of biological systems, including command, stochastic, and transport systems. Lectures and laboratory sessions emphasize biochemical systems, but also include electrical, mechanical, and fluidic systems. Prerequisite: BIOEN 335; and either AMATH 351 or MATH 207. Offered: Sp.
View course details in MyPlan: BIOEN 485

BIOEN 486 Tissue Engineering (3) D. Kim
Tissue structure and office, scaffold design, applications to specialized tissues and organs. Prerequisite: BIOEN 315. Offered: W.
View course details in MyPlan: BIOEN 486

BIOEN 487 Bioengineering and Nanotechnology (3) X. Gao
Explores bones concepts of nanoscience and the current literature, focusing on practical applications for nanotechnology in biology and medicine. Prerequisite: CHEM 142, CHEM 144, or CHEM 145; BIOL 180. Offered: W.
View course details in MyPlan: BIOEN 487

BIOEN 488 Computational Protein Design (4) V. Daggett
Explores methods in protein applied science, emphasizing biomedical and biotechnological applications. Includes molecular visualization, homology modeling, molecular dynamics, computational protein design, and evaluation of designs. Introduces current research in subject expanse. Students acquire to apply and apply computational tools to investigate design issues. Prerequisite: BIOEN 315. Offered: West.
View course details in MyPlan: BIOEN 488

BIOEN 489 Advanced Tissue Applied science (three)
Develops avant-garde knowledge in tissue applied science. Primarily through critical assessment of seminal publications in areas such as biomaterials, biofabrication, organ decellularization, cellular self-organisation, organoids, and regenerative medicine. Students identify groundbreaking studies in tissue engineering and communicate the touch on to other scientists and the public. Prerequisite: BIOEN 486.
View grade details in MyPlan: BIOEN 489

BIOEN 490 Engineering Materials for Biomedical Applications (3) J. Bryers
Combined application of principles of physical chemistry and biochemistry, materials engineering, to biomedical problems and products. Applications include implants and medical devices, drug delivery systems, cell culture processes, diagnostics, and bioseparations. Offered: jointly with CHEM Due east 490; A.
View course details in MyPlan: BIOEN 490

BIOEN 491 Controlled-Release Systems (3) Due south. PUN
Mechanisms for controlled release of active agents and the development of useful drug delivery systems for this purpose. Release mechanisms considered include deviating, convective, and erosive driving forces. Commitment routes include topical, oral, and in vivo. Some special case studies covered in item. Offered: jointly with CHEM E 491; West.
View form details in MyPlan: BIOEN 491

BIOEN 492 Surface Analysis (iii)
Understanding of solid surfaces for research and evolution in microelectronics, catalysis, adhesion, biomaterials, science clothing, and corrosion scientific discipline. Newer methods available to report surfaces of materials. Electron emission spectroscopies (ESCA, Auger): ion scattering, ion spectroscopic, photon spectroscopic, and thermodynamic methods. Offered: jointly with CHEM E 458; Sp.
View grade details in MyPlan: BIOEN 492

BIOEN 493 Advanced Surface Analysis (3)
Covers the latest advanced in surface analysis instrumentation and methodology, including advanced methods of biorecognition AFM, surface Plasmon resonance, x-ray photoelectron spectroscopy, sum frequency generation spectroscopy, time-of-flight secondary ion mass spectrometry, and multivariate analysis. Prerequisite: either CHEM Eastward 458 or BIOEN 492. Offered: jointly with CHEM E 493; Due west.
View course details in MyPlan: BIOEN 493

BIOEN 494 Advanced Drug Delivery (3) Southward. PUN
Provides students with an understanding of the current state of the art for advanced drug delivery. Covers the major families of biologic drugs, major challenges associated with their commitment and specific illness applications. Prerequisite: BIOEN 491. Offered: Sp.
View course details in MyPlan: BIOEN 494

BIOEN 497 Bioengineering Education Outreach (1-ii, max. half-dozen)
Piece of work with K-12 schools or customs organizations. Current scientific discipline education research and instructional techniques. May involve presentations or instruction in hands-on activities. Credit/no-credit merely.
View course details in MyPlan: BIOEN 497

BIOEN 498 Special Topics (ane-6, max. 15)
Topics of current interest in the field, offered as lectures, conferences, or laboratory. Offered: AWSpS.
View course details in MyPlan: BIOEN 498

BIOEN 499 Special Projects (one-6, max. 24)
Individual undergraduate bioengineering projects (inquiry or contained study) under the supervision of an teacher. Credit/no-credit merely. Offered: AWSpS.
View course details in MyPlan: BIOEN 499

BIOEN 501 Molecular Bioengineering (4)
Examines avant-garde topics in molecular diffusion, reaction kinetics, and convective transport modeling as applied to biological systems. Includes mathematical assay and numerical simulation techniques practical to: Non-Fickian diffusion, rotational versus translational diffusion, immobilized enzyme kinetics, drug release, and gene commitment.
View class details in MyPlan: BIOEN 501

BIOEN 502 Cellular Bioengineering (4)
Covers basic principles of cell biology (including cell structure, office, and signaling), recombinant RNA/Dna technology, and specific examples of cellular bioengineering applications including gene delivery, RNA silencing, and tissue engineering. Prerequisite: BIOEN 501.
View form details in MyPlan: BIOEN 502

BIOEN 503 Systems Bioengineering (four)
Explores whole-body or organ physiology topics from an engineering science perspective. Uses various model systems to elucidate engineering principles such as feedback control and homeostatic regulation. Includes real-world examples, reckoner modeling, and research design approaches. Prerequisite: BIOEN 502.
View grade details in MyPlan: BIOEN 503

BIOEN 504 Introduction to Applied science Commercialization (4) K. O'Donnell, B. Ratner
Explores essential business, legal, technology, and other skills necessary to take new technology from research to market. Covers intellectual holding, market place analysis, licensing, funding mechanisms such as venture majuscule, and product marketing. Offered: A.
View course details in MyPlan: BIOEN 504

BIOEN 505 Biomedical Entrepreneurship (4)
Explores essential business organisation, legal, engineering, and other skills necessary to have new technology from research to market place. Covers intellectual property, market analysis, licensing, funding mechanisms such as venture capital, and production marketing; introduces strategic planning, direction of commercialization endeavor. Offered: West.
View course details in MyPlan: BIOEN 505

BIOEN 506 Applying Engineering science Commercialization (ane)
Focuses knowledge of entrepreneurship within the spaces of medical devices, hardware/software, and energy, into a practical description of a potential start-up company. Corequisite: ENTRE 540. Credit/no-credit just.
View form details in MyPlan: BIOEN 506

BIOEN 509 Bioengineering Departmental Seminar (one, max. xvi)
Enquiry review and discussions centered on demonstrating approaches and solving scientific bug. Seminar lectures led by faculty and visiting faculty in Bioengineering and related disciplines. Credit/no-credit only. Offered: WSp.
View course details in MyPlan: BIOEN 509

BIOEN 511 Biomaterials Seminar (1, max. xviii) Lara J. Gamble
Presentation of student research results. Prerequisite: permission of teacher. Credit/no-credit simply. Offered: jointly with CHEM East 511.
View course details in MyPlan: BIOEN 511

BIOEN 513 Current Topics in Cardiac Physiology (1, max. iii) M. REGNIER
Current research in cardiac physiology. Student presentation and discussions of current research methodologies. Credit/no-credit only.
View course details in MyPlan: BIOEN 513

BIOEN 515 Bioconjugate Engineering (4) D. Ratner
Applies bioconjugate and molecular engineering methods for utilise in nanotechnology, drug delivery, biomaterials, diagnostics, medical devices, and biomedical inquiry. Students learn how to engineer molecular and macromolecular systems using versatile bioconjugate techniques applicable to both industry and academia. Recommended: Basic organic chemistry, biochemistry, molecular technology Offered: A.
View course details in MyPlan: BIOEN 515

BIOEN 516 Medical Imaging Seminar (1)
Weekly seminars, presented by UW kinesthesia members, researchers and graduate students from UW, other academic institutions, and industry, on image calculating and medical imaging. Topics include digital video, epitome processing, calculator graphics, video/epitome compression, paradigm analysis, algorithms and systems, pattern recognition, multimedia computer architectures, and other applications. Credit/no-credit simply.
View course details in MyPlan: BIOEN 516

BIOEN 518 Healthcare Transformation: Forces, Directions, Implications (2) L. HUNTSMAN
Introduces the history, current realities and forces driving change in healthcare and provides an opportunity to use this noesis to evaluate contemporary attempts to introduce. Addresses implications for those involved in the scientific discipline, technology, business organization and policy of medicine. Offered: West.
View course details in MyPlan: BIOEN 518

BIOEN 520 Musculoskeletal Biomechanics (4) William R. Ledoux, Scott Telfer, Joseph G. Iaquinto
A wide introduction to musculoskeletal biomechanics, i.e., applying engineering mechanics to the human being trunk. Examines: experimental techniques; beefcake; bones structure-function relationships; and implementation into enquiry and commercial applications. Briefly covers scientific writing and presentations, literature reviews, and regulatory considerations. Offered: jointly with Yard E 527.
View course details in MyPlan: BIOEN 520

BIOEN 522 Biomechanics of Soft Tissue (3) J. SANDERS
Applies soft tissue biomechanics to medical research. Develops specific biomechanical questions and experiments to address those aims or hypotheses.
View course details in MyPlan: BIOEN 522

BIOEN 523 Introduction to Synthetic Biological science (iii)
Studies mathematical modeling of transcription, translation, regulation, and metabolism in cell; computer aided design methods for synthetic biology; implementation of information processing, Boolean logic and feedback control laws with genetic regulatory networks; modularity, impedance matching and isolation in biochemical circuits; and parameter interpretation methods. Prerequisite: either MATH 136, MATH 207, MATH 307, AMATH 351, or CSE 311; and either MATH 208, MATH 308, or AMATH 352. Offered: jointly with CHEM Eastward 576/CSE 586/East E 523/MOLENG 525.
View grade details in MyPlan: BIOEN 523

BIOEN 524 Advanced Systems and Synthetic Biology (three)
Covers avant-garde concepts in system and synthetic biology. Includes kinetics, modeling, stoichiometry, control theory, metabolic systems, signaling, and motifs. All topics are gear up against issues in constructed biology. Prerequisite: E East 523/BIOEN 523/CHEM Due east 576/CSE 586/MOLENG 525. Offered: jointly with CHEM E 577/CSE 587/E Due east 524.
View course details in MyPlan: BIOEN 524

BIOEN 530 Bioengineering Professional Series I: Literature Assay (2) V. DAGGETT
Skills in scientific literature analysis developed through topics in bioengineering. Credit/no-credit simply. Offered: A.
View class details in MyPlan: BIOEN 530

BIOEN 531 Bioengineering Professional Serial Two: Proposal Writing (two) M. SCATENA
Covers grant and fellowship proposal writing. Offered: Due west.
View course details in MyPlan: BIOEN 531

BIOEN 532 Bioengineering Professional Series Three: Professional person Skills Evolution (1) 1000. Averkiou
Primal areas of professional development related to the bioengineering field, including voice communication, management, networking, and interviewing. Credit/no-credit only. Offered: Sp.
View course details in MyPlan: BIOEN 532

BIOEN 536 Quantitative Physiology (iii) Hao Yuan Kueh
Develops a foundation of human physiology past examining the homeostasis of vital parameters within the trunk, and the physiological properties of human cells, tissue, and organs. Recommended: MATH 107, AMATH 351, or equivalent; courses in ordinary differential equations; probability theory; introductory programming; and introductory cell and molecular biology.
View course details in MyPlan: BIOEN 536

BIOEN 537 Computational Systems Biology (four) Joseph L Hellerstein, Herbert M Sauro
Application of modeling in systems biological science. Basic modeling techniques, standards and model repositories, model fitting, model selection and confidence estimates, uncertainty quantification, ensemble modeling and a term long modeling game. Recommended: coursework in differential equations; linear algebra; and introductory biology; and either coursework or experience coding in Python (preferred), MATLAB or equivalent.
View course details in MyPlan: BIOEN 537

BIOEN 540 Bioengineering Clinical Practicum (two) Soraya Bailey
Clinical needs identification for the Principal of Applied Bioengineering. Students observe diagnosis and treatment in a clinical setting to learn current practice, drivers, and constraints. Students learn to place and communicate clinical needs not met by current technology, but with potential bioengineering design solutions. Addresses ethics, patient privacy, and medical/academic communication. Credit/no-credit only. Offered: A.
View class details in MyPlan: BIOEN 540

BIOEN 541 Design Skills I: Clinical Needs Evaluation (4) Soraya Bailey
First quarter of Design Skills sequence in Chief of Applied Bioengineering. Student teams initiate pattern process through needs evaluation, market analysis, prior art research, identification of pattern specifications, and brainstorming of design concepts. Offered: A.
View grade details in MyPlan: BIOEN 541

BIOEN 542 Design Skills II: Clinical Needs Evaluation (four)
Second quarter of Design Skills sequence. Students conceive, evaluate, and nowadays design options to potential clinical users, utilize feedback to revise blueprint concepts, and gear up a formal design proposal. Prerequisite: BIOEN 541 Offered: W.
View course details in MyPlan: BIOEN 542

BIOEN 543 Pattern Skills Three: Project Implementation (4)
Culmination of the 3-quarter Design Skills sequence in the Master of Applied Bioengineering. Students create and test a proof-of-principle deliverables for the device or organization proposed in the previous quarter, and set up a formal business organization plan. Prerequisite: BIOEN 542. Offered: Sp.
View course details in MyPlan: BIOEN 543

BIOEN 544 Advanced Clinical Design Projection (ane-10)
Summertime-long culminating design experience in which educatee teams generate and test a solution to encounter desired clinical needs. Prerequisite: BIOEN 543 Offered: S.
View course details in MyPlan: BIOEN 544

BIOEN 546 Fundamentals of Biomedical Imaging: X-ray and Nuclear (four) P. Kinahan
Explores core principles of biomedical imaging with a focus on ten-ray and nuclear imaging. Fundamental concepts common to all modalities are reviewed: Multi-dimensional Fourier transforms, the imaging equation, the inverse problem, prototype SNR, and contrast agents. Lectures will emphasize a systems approach that is reinforced though computational mini projects using Matlab. Recommended: Signal and systems (linear systems), Fourier transforms and advanced linear algebra, scientific programming (due east.one thousand. Matlab or other languages). Offered: A.
View form details in MyPlan: BIOEN 546

BIOEN 547 Fundamentals of Magnetic Resonance and Ultrasound Imaging (iv) M. Averkiou
Principles and uses of biomedical imaging with magnetic resonance imaging (MRI) and ultrasound are presented from an engineering science viewpoint. Topics include the physics of MRI and ultrasound, principles of epitome formation, clinical applications, and the applied science supporting important modes of modern imaging equipment. Offered: W.
View grade details in MyPlan: BIOEN 547

BIOEN 549 Therapeutic and Diagnostic Ultrasound (4) M. Averkiou
Fundamentals of ultrasound leading to real-time ultrasound imaging; audio beams and signals, transducers, arrays and array beamforming; ultrasound interaction with tissue; Doppler and Color-flow; nonlinear imaging and dissimilarity agents. Ultrasound bioeffects and therapeutic ultrasound: thermal therapies, HIFU, hyperthermia and BIO oestrus equation; cavitation, lithotripsy; drug commitment. Elastography, photoacoustic imaging. Offered: Sp.
View course details in MyPlan: BIOEN 549

BIOEN 551 Optical Coherence Tomography (iv) R. Wang
Describes the basic physics and applied science principles of optical coherence tomography, and rapid development of imaging applications in medicine and biology. Extends basic concepts of signal processing and instrumentation to imaging physics (optics), image reconstruction, image processing, and visualization. Recommended: Signal processing and linear systems (at a level of BIOEN 316) Mathematical skills (at a level of AMATH352) Physics level at PHYS 122 BIOEN 498/599: Contemporary Light Microscopy and Biophotonics Offered: A.
View grade details in MyPlan: BIOEN 551

BIOEN 552 Microfabrication and Microfluidics (3) A. FOLCH, P. YAGER
Studies the use of 2- and 3-dimensional structures in enquiry and biomaterials, cells, and circuitous liquids. Focuses on micropatterning of surfaces and microfluidic chemic analytical systems. Co-requisite: BIOEN 553.
View course details in MyPlan: BIOEN 552

BIOEN 553 Microfabrication and Microfluidics Laboratory (2) A. FOLCH, P. YAGER
Studies the creation of 2- and 3-dimensional structures for utilise in research with biomaterials, cells, and circuitous liquids. Each student volition fabricate at least one PDMS device and demonstrate its part. Co-requisite: BIOEN 552. Credit/no-credit only.
View course details in MyPlan: BIOEN 553

BIOEN 554 Bioengineering Solutions to Improve the Health of Families Worldwide (1/2) Alexis 50 Kaushansky
Seminar series that engages students in interdisciplinary discussions about global health. Explores how bioengineering approaches contribute to (1) the study of problems of global health importance, (two) the development of diagnostics, and (three) the discovery of interventional strategies to improve human being wellness. Emphasizes collaboration betwixt students and researchers with backgrounds in infectious disease, bones science, and bioengineering. Credit/no-credit only. Offered: jointly with M H 554; A.
View course details in MyPlan: BIOEN 554

BIOEN 555 Water, Nature, and Biological Office (three) K. Pollack
Explores emerging concepts of water at interfaces as a new and simpler way to sympathise many features of chemistry, physics, and biology. Considers new agreement in cell function, energy transduction, solar energy, flow, send, weather, green science, and other nuts of nature and engineering.
View course details in MyPlan: BIOEN 555

BIOEN 557 Advanced Molecular Bioengineering (4) P. STAYTON
Covers fundamentals of molecular recognition and blueprint: thermodynamics, dynamics, and kinetics. Includes molecular blueprint of macromolecules, recognition processes for current molecular engineering applications in biomedicine, and therapeutics based on cells. Offered: jointly with MOLENG 515; A.
View grade details in MyPlan: BIOEN 557

BIOEN 560 Neural Engineering (3) Azadeh Yazdan-Shahmorad, Chet T Moritz
Introduces the field of Neural Engineering: overview of neurobiology, recording and stimulating the nervous organisation, signal processing, motorcar learning, powering and communicating with neural devices, invasive and not-invasive brain-machine interfaces, spinal interfaces, smart prostheses, deep-brain stimulators, cochlear implants and neuroethics. Heavy accent on primary literature. Offered: jointly with E Eastward 560; A.
View course details in MyPlan: BIOEN 560

BIOEN 561 Neural Technology Tech Studio (iv) Azadeh Yazdan-Shahmorad, Chet T Moritz
Neural engineering science blueprint and translational engineering. Groups design, build and nowadays a neural engineering science prototype project to a panel of manufacture judges. Prerequisite: BIOEN 560 Offered: jointly with East East 561; W.
View course details in MyPlan: BIOEN 561

BIOEN 563 Optogenetics (3) Andre Berndt
Overview of optogenetics, which utilizes light-activated ion channels and fluorescent proteins to command and monitor neuronal activity through remote light stimulation in intact encephalon tissue. Includes (1) molecular basis, (ii) tools and instrumentation, (3) experimental pattern, and (4) application range of optogenetic approaches. Builds a robust foundation for designing contemporary optogenetic experiments. Offered: W.
View form details in MyPlan: BIOEN 563

BIOEN 566 Neural Computation and Applied science Laboratory (iv) Amy Orsborn
Introduces neural recording and quantitative assay techniques to students with a background in quantitative methods. Offered: jointly with E East 564.
View course details in MyPlan: BIOEN 566

BIOEN 568 Real-Time Biosignal Processing (3) C. Neils
Lab-based introduction to techniques for existent-time point acquisition, processing, and output, emphasizing software equally an interface between user and electronic circuits. Students write programs for implementation both in graphical programming environments and in portable microprocessor platforms. In-depth discussion of hardware specifications and implications for circuit blueprint. Recommended: Basic Electrical Engineering Offered: W.
View course details in MyPlan: BIOEN 568

BIOEN 570 Systems Immunology and Immunoengineering (iii) Hao Yuan Kueh
Explores current progress towards a quantitative, systems-level understanding of immune system function. Topics include sensitivity and selectivity in immune receptor signaling, cell-prison cell coordination by cytokine communication, and cell applied science for immunotherapy.
View course details in MyPlan: BIOEN 570

BIOEN 572 Biosensors for Cancer (4) Albert Folch
Introduces the broad field of biosensors for cancer diagnostics. Offered: A.
View grade details in MyPlan: BIOEN 572

BIOEN 573 Biosensors and Biomedical Sensing (iii) P. Yager
In-depth overview of the primary types of biosensors. Topics include: how biological molecules are used in sensing, how the sensors operate, how unlike sensors compare, under what circumstances sensors can be useful, and the applicability of sensors to biomedical sensing. Offered: W.
View course details in MyPlan: BIOEN 573

BIOEN 574 Immunoengineering (3) K. Woodrow
Covers cell and tissues of immune system; lymphocyte activation and specificity; cell biology of antigen processing and preservation; and effector mechanisms. Includes give-and-take of concepts in theoretical immunology used to describe viral dynamics and the dynamics of immune responses. Students nowadays instance studies in the pathogenesis of immunologically mediated diseases. Offered: West.
View class details in MyPlan: BIOEN 574

BIOEN 575 Global Health Engineering science: Molecular Diagnostics (4) Barry R. Lutz
Teachers applied science principles, tools, and technologies needed to practice or develop nucleic acid (Deoxyribonucleic acid/RNA) diagnostics and their context in global health. Recommended: Advanced Engineering, Chemistry or math background. Offered: Due west.
View form details in MyPlan: BIOEN 575

BIOEN 576 Laboratory Techniques in Poly peptide Engineering (iv)
Practical introduction to fundamentals of recombinant Dna applied science and protein engineering. Gene pattern, bacterial molecular biology, genetic engineering strategy. Laboratory project focused on making site-directed protein mutations. Techniques include the Polymerase Chain Reaction, DNA sequencing, DNA cutting/splicing, protein expression. Prerequisite: background in biochemistry or molecular biology or permission of teacher.
View course details in MyPlan: BIOEN 576

BIOEN 577 Cell and Protein Reaction with Foreign Materials (3)
Study of means in which jail cell and protein interactions with foreign materials affect the biocompatibility of biomaterials. Description of phenomenology and mechanisms of poly peptide adsorption, mammalian jail cell adhesion, and jail cell receptor biology and of methods used to study these phenomena. Surface properties of materials discussed in context of the course. Prerequisite: permission of instructor.
View form details in MyPlan: BIOEN 577

BIOEN 578 Biomembranes (3) P. YAGER
Develops an agreement of the molecular principles that underlie the cocky-assembly of surfactants into natural and model membranes; in particular, on the relationship between the chemical construction of lipid molecules and the three-dimensional aggregates that they form in water.
View course details in MyPlan: BIOEN 578

BIOEN 579 Host Response to Biomaterials (3) C. GIACHELLI
Bones cell and molecular biological science of the pathologies associated with biomaterial implantation that limit bioprosthetic use, including hemostasis, infection, acute and chronic inflammation, wound healing and fibrosis, and structural alterations. Major methods for histological analysis of retrieved implants. Prerequisite: general biological science, BIOEN 490 (may be taken concurrently), or permission of instructor.
View class details in MyPlan: BIOEN 579

BIOEN 581 Engineering Prison cell Biology (3) D. Kim
Introduces applied science approaches for assay and command of jail cell structure and function, and application of such technologies in cell biology studies. Covers the basics of cell biology, engineering cellular microenvironments, besides as furnishings of external engineering stimuli on cellular processes, which have significant implications in various diseases such equally cancer, neuromuscular disease, and cardiovascular disease. Recommended: Introductory Biology, General Chemistry Offered: A.
View course details in MyPlan: BIOEN 581

BIOEN 582 Cardiac Bioengineering (three) Michael Regnier
Students hash out, present, and write literature reviews of scientific papers on the latest techniques, protocols and treatments being developed to treat centre failure and vascular diseases. Guest lecturers provide a clinical perspective, talk over clinical needs, and nowadays their ongoing research and development projects.
View form details in MyPlan: BIOEN 582

BIOEN 583 Vascular Biology and Engineering (3) Y. Zheng
Vascular Engineering has emerged to provide strategies for generating vascular grafts with long-term patency, and vascularized tissues for regenerative medicine and illness modeling. This course focuses on agreement the structure and function of different vascular beds in vivo, and learning the cutting edge research and engineering principles in vascular biology and engineering. Recommended: Introductory Biology, Full general Mechanics, and Cell Biology Offered: Westward.
View course details in MyPlan: BIOEN 583

BIOEN 585 Computational Bioengineering (4) W. THOMAS
Introduction to computational and mathematical analysis of biological systems, including control, stochastic, and transport systems. Lectures and laboratory sessions emphasize biochemical systems, only also include electrical, mechanical, and fluidic systems.
View class details in MyPlan: BIOEN 585

BIOEN 586 Tissue Applied science (three) D. Kim
Tissue structure and function, scaffold pattern, applications to specialized tissues and organs. Offered: W.
View course details in MyPlan: BIOEN 586

BIOEN 587 Bioengineering and Nanotechnology (3) 10. Gao
Explores basic concepts of nanoscience and the current literature, focusing on practical applications for nanotechnology in biological science and medicine.
View course details in MyPlan: BIOEN 587

BIOEN 588 Computational Protein Blueprint (4) V. DAGGETT
Explores methods in protein technology, emphasizing biomedical and biotechnological applications. Includes molecular visualization, homology modeling, molecular dynamics, computational protein blueprint, and evaluation of designs. Introduces electric current research in subject field area. Students learn to employ and apply computational tools to investigate blueprint problems.
View course details in MyPlan: BIOEN 588

BIOEN 589 Advanced Tissue Engineering (3)
Develops advanced knowledge in tissue technology. Primarily through disquisitional assessment of seminal publications in areas such as biomaterials, biofabrication, organ decellularization, cellular self-organization, organoids, and regenerative medicine. Students place groundbreaking studies in tissue technology and communicate the impact to other scientists and the public. Recommended: BIOEN 586.
View course details in MyPlan: BIOEN 589

BIOEN 590 Avant-garde Topics in Biomaterials (3)
Major, controversial bug in application of synthetic materials to medical problems. Claret compatibility, bioadhesion, intraocular lenses, contact lenses, polyurethanes, biodegradation, protein adsorption, corrosion, bone fixation, new materials, artificial heart, medical device regulation. Prerequisite: BIOEN 490 or CHEM E 490. Offered: jointly with CHEM Due east 590.
View form details in MyPlan: BIOEN 590

BIOEN 591 Controlled Release Systems (3) Suzie H Pun
Provides students with an understanding of the current land of the art for avant-garde drug commitment. Covers the major families of biologic drugs, major challenges associated with their delivery and specific illness applications. Offered: W.
View grade details in MyPlan: BIOEN 591

BIOEN 592 Surface Assay (3)
Understanding of solid surfaces for inquiry and development in microminiaturization, catalysis, adhesion, biomaterials science, clothing and corrosion science. Newer methods available to study surfaces of materials. Electron emission spectroscopies (ESCA, Auger); ion scattering, ion spectroscopic, photon spectroscopic, and thermodynamic methods. Offered: jointly with CHEM E 558.
View course details in MyPlan: BIOEN 592

BIOEN 593 Advanced Surface Analysis (3)
Covers the latest advanced in surface analysis instrumentation and methodology, including avant-garde methods of biorecognition AFM, surface Plasmon resonance, x-ray photoelectron spectroscopy, sum frequency generation spectroscopy, time-of-flight secondary ion mass spectrometry, and multivariate assay. Prerequisite: either CHEM East 558 or BIOEN 592. Offered: jointly with CHEM E 593; W.
View course details in MyPlan: BIOEN 593

BIOEN 594 Advanced Drug Commitment (iii) S. PUN
Provides students with an understanding of the current state of the art for advanced drug commitment. Covers the major families of biologic drugs, major challenges associated with their delivery and specific disease applications. Offered: Sp.
View course details in MyPlan: BIOEN 594

BIOEN 598 Inquiry Rotation (1-10, max. 30)
Enquiry rotation in the laboratories of core or adjunct faculty in the Section of Bioengineering. Credit/no-credit but. Offered: AWSpS.
View course details in MyPlan: BIOEN 598

BIOEN 599 Special Topics in Bioengineering (ane-6, max. 30)
Offered at a graduate level periodically by kinesthesia members inside the Department of Bioengineering; concerns areas of research activities with current and topical interest to bioengineers. Prerequisite: undergraduate or graduate courses (or equivalent) adamant individually for each special topic.
View course details in MyPlan: BIOEN 599

BIOEN 600 Independent Study or Inquiry (*-)
Offered: AWSpS.
View course details in MyPlan: BIOEN 600

BIOEN 601 Internship (1-10, max. 10)
Bioengineering graduate internship plan. Requires written written report. Prerequisite: permission of supervisory commission chair. Offered: AWSpS.
View course details in MyPlan: BIOEN 601

BIOEN 700 Primary's Thesis (*-)
Offered: AWSpS.
View form details in MyPlan: BIOEN 700

BIOEN 800 Doctoral Dissertation (*-)
Offered: AWSpS.
View course details in MyPlan: BIOEN 800

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Source: https://www.washington.edu/students/crscat/bioeng.html

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