uw bioengineering courses

Therapeutics based on cells. Student teams initiate design process through needs evaluation, market analysis, prior art research, identification of design specifications, and brainstorming of design concepts. Credit/no-credit only. Gene design, bacterial molecular biology, genetic engineering strategy. Uses various model systems to elucidate engineering principles such as feedback control and homeostatic regulation. The Bioengineering major course sequence begins in spring quarter with BIOEN 315, 316 and 317. It is an engineering discipline that is practiced by professionals trained primarily as engineers, but with a specialized focus on the medical and biological applications of … Ultrasound bioeffects and therapeutic ultrasound: thermal therapies, HIFU, hyperthermia and BIO heat equation; cavitation, lithotripsy; drug delivery. The bioengineering program is a four-year degree with an advised sequence of courses outlined in the curriculum map. Some special case studies covered in detail. Includes analog and digital signal processing in the time and frequency domains. Biomedical Signals and Sensors Laboratory. Refer to departmental list. Offered: AWSpS.View course details in MyPlan: BIOEN 601, BIOEN 700 Master's Thesis (*-)Offered: AWSpS.View course details in MyPlan: BIOEN 700, BIOEN 800 Doctoral Dissertation (*-)Offered: AWSpS.View course details in MyPlan: BIOEN 800. Includes discussion of concepts in theoretical immunology used to describe viral dynamics and the dynamics of immune responses. Our undergraduates learn hard engineering skills (mathematics, instrumentation, fluid dynamics, transport phenomena) as well as biotechnology concepts (physiology, protein structure and … View course details in MyPlan: ENGR 401. Students identify groundbreaking studies in tissue engineering and communicate the impact to other scientists and the public. Our undergraduates learn hard engineering skills (mathematics, instrumentation, fluid dynamics, transport phenomena) as well as biotechnology concepts (physiology, protein structure and … Offered: W.View course details in MyPlan: BIOEN 337, BIOEN 345 Failure Analysis and Human Physiology (4) S. Pun, M. Regnier, M. ScatenaApplies engineering analysis to understand human physiology of the engineering of solutions to medical and biological problems. 6)Work with K-12 schools or community organizations. Offered: AWSpS.View course details in MyPlan: BIOEN 498, BIOEN 499 Special Projects (1-6, max. Our small program size and cohort structure fosters a close community that is passionate about engineering better health care. Starting in the sophomore year, BioE students will begine to take a series of core classes to gain essential knowledge to pursue a career in bioengineering and will then have the opportunity to pursue elective courses suited to their own interests. BIOEN 498/599: Contemporary Light Microscopy and Biophotonics Topics include sensitivity and selectivity in immune receptor signaling, cell-cell coordination by cytokine communication, and cell engineering for immunotherapy. Co-requisite: BIOEN 325 and BIOEN 326. At Loughborough, our course will take you from the fundamental science and engineering to the cutting-edge of the subject. A list of all UW courses, with credit value, description of the class, and name of instructor, if available, can be found on the University of Washington Course Catalogue. (source: UW CoMotion) Research Themes Biomaterials and Regenerative Medicine. Specific course selection is very flexible, draws upon a variety of courses, and is designed to complement each student’s interests and background in biomedical engineering. Prerequisite: minimum grade of 2.0 in BIOEN 325. Site list Offered: W.View course details in MyPlan: BIOEN 586, BIOEN 587 Bioengineering and Nanotechnology (3) X. GaoExplores basic concepts of nanoscience and the current literature, focusing on practical applications for nanotechnology in biology and medicine.View course details in MyPlan: BIOEN 587, BIOEN 588 Computational Protein Design (4) V. DAGGETTExplores methods in protein engineering, emphasizing biomedical and biotechnological applications. Bioengineering Lab Courses. Department of Bioengineering . Prerequisite: BIOEN 316 or BIOEN 317. Credit/no-credit only. Starting in the sophomore year, BioE students will begin to take a series of core classes to gain essential knowledge to pursue a career in bioengineering and will then have the opportunity to pursue elective courses suited to their own interests. Credit/no-credit only. Offered: W.View course details in MyPlan: BIOEN 486, BIOEN 487 Bioengineering and Nanotechnology (3) X. GaoExplores basic concepts of nanoscience and the current literature, focusing on practical applications for nanotechnology in biology and medicine. Recommended: Introductory Biology, General Chemistry May apply toward UW faculty-led programs or to courses taught approved study abroad programs. INTENDED AUDIENCE : Standard X, XI and XII, , First Year Engineering (BE/B.Tech) Students, B.Sc students Science Background but course is open to all. Offered: jointly with MOLENG 515; A.View course details in MyPlan: BIOEN 557, BIOEN 560 Neural Engineering (3) Azadeh Yazdan-Shahmorad, Chet T MoritzIntroduces the field of Neural Engineering: overview of neurobiology, recording and stimulating the nervous system, signal processing, machine learning, powering and communicating with neural devices, invasive and non-invasive brain-machine interfaces, spinal interfaces, smart prostheses, deep-brain stimulators, cochlear implants and neuroethics. See Creating Your Educational Plan for courses required by each department for graduation. 18) Lara J. GamblePresentation of student research results. Offered: jointly with CHEM E 491; W.View course details in MyPlan: BIOEN 491, BIOEN 492 Surface Analysis (3)Understanding of solid surfaces for research and development in microelectronics, catalysis, adhesion, biomaterials, science wear, and corrosion science. For the safety of our community, UWPCE programs will be taught remotely for the 2020-21 academic year. The MS graduate program is a 30-credit option for students who are interested in conducting research during their MS degree. Offered: W.View course details in MyPlan: BIOEN 575, BIOEN 576 Laboratory Techniques in Protein Engineering (4)Practical introduction to fundamentals of recombinant DNA technology and protein engineering. Offered: A.View course details in MyPlan: BIOEN 325, BIOEN 326 Solid and Gel Mechanics (4) Wendy E ThomasIntroduces solid mechanics and interactions of biological structures and medical materials. More Bioengineering Courses: Includes kinetics, modeling, stoichiometry, control theory, metabolic systems, signaling, and motifs. Department of Bioengineering University of Washington Box 355061 Seattle, WA 98195-5061. Courses labeled "Take x of n" indicate that you can choose to complete any x courses out of the series of n to meet the requirement for that department. This course focuses on understanding the structure and function of different vascular beds in vivo, and learning the cutting edge research and engineering principles in vascular biology and engineering. Offered: jointly with CSE 488/E E 425.View course details in MyPlan: BIOEN 425, BIOEN 436 Quantitative Physiology (3) Hao Yuan KuehDevelops a foundation of human physiology by examining the homeostasis of vital parameters within the body, and the physiological properties of human cells, tissue, and organs. Topics include: how biological molecules are used in sensing, how the sensors operate, how different sensors compare, under what circumstances sensors can be useful, and the applicability of sensors to biomedical sensing. Prerequisite: BIOEN 315. BIOENGINEERING (INTERSCHOOL OR INTERCOLLEGE PROGRAMS ) ... (UW NetID required.) A separate departmental application is required in addition to the UW application for admission. Throu... See More. Covers intellectual property, market analysis, licensing, funding mechanisms such as venture capital, and product marketing. Mailing Address. Offered: W.View course details in MyPlan: BIOEN 487, BIOEN 488 Computational Protein Design (4) V. DaggettExplores methods in protein engineering, emphasizing biomedical and biotechnological applications. Students have the opportunity to participate in department service, including on our Curriculum Committee, Diversity Committee, Student Affairs Committee and the Chair’s Student Advisory Board. Primarily through critical assessment of seminal publications in areas such as biomaterials, biofabrication, organ decellularization, cellular self-organization, organoids, and regenerative medicine. Offered: A.View course details in MyPlan: BIOEN 481, BIOEN 483 Vascular Biology and Engineering (3) Y. ZhengVascular Engineering has emerged to provide strategies for generating vascular grafts with long-term patency, and vascularized tissues for regenerative medicine and disease modeling. Blood compatibility, bioadhesion, intraocular lenses, contact lenses, polyurethanes, biodegradation, protein adsorption, corrosion, bone fixation, new materials, artificial heart, medical device regulation. Surface properties of materials discussed in context of the course. Recommended: BIOEN 586.View course details in MyPlan: BIOEN 589, BIOEN 590 Advanced Topics in Biomaterials (3)Major, controversial issues in application of synthetic materials to medical problems. Presented by faculty members, visiting scientists, or individuals with industrial bioengineering experience. Sample 4-year plans and course catalogs. Help with the UW Time Schedule. They will take three engineering fundamentals courses, including an introductory bioengineering course and computer programming. Includes methods of measurement, analysis, and design. Courses with Ethics Content. The technical electives must total nine or more credit hours. Students write programs for implementation both in graphical programming environments and in portable microprocessor platforms. Bioengineering Lab Courses. 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 (4) Chun YuanVarious medical imaging modalities (x-rays, CT, MRI, ultrasound, PET, SPECT optical imaging, etc.) Prerequisite: BIOEN 460/E E 460. Prerequisite: AMATH 301 and PHYS 122; BIOEN 317, which must be taken concurrently; either MATH 307 or AMATH 351, which may be taken concurrently. It's available as a four year BEng or a five year MEng. Introduction to Bioengineering. A grade of 2.0 or above is needed for each course required for placement. Biomedical Engineering Society (BMES) at Illinois; GradBMES at Illinois Undergraduate Bioengineering Courses. Credit/no-credit only. Matlab or other languages). Offered: Sp.View course details in MyPlan: BIOEN 549, BIOEN 551 Optical Coherence Tomography (4) R. WangDescribes the basic physics and engineering principles of optical coherence tomography, and rapid development of imaging applications in medicine and biology. Co-requisites: BIOEN 400 Faculty and staff get to know students as individuals, and take pride in being responsive to student concerns. Center for Neurotechnology. Biomedical Engineering is the application of engineering tools to solve problems in biology and medicine. If courses are taken out of sequence, it may not always be possible to enroll in courses as desired or needed for timely graduation. Our students enjoy day and night access to our building, teaching labs, computer labs and student lounge. 3) M. REGNIERCurrent research in cardiac physiology. Prerequisite: CHEM 142, CHEM 144, or CHEM 145; BIOL 180. Requires written report. All topics are set against problems in synthetic biology. Biomedical Engineering Society (BMES) at Illinois; GradBMES at Illinois Seminar lectures led by faculty and visiting faculty in Bioengineering and related disciplines. Recommended: MATH 107 or AMATH 351; courses in ordinary differential equations; probability theory; introductory programming; and introductory cell and molecular biology.View course details in MyPlan: BIOEN 436, BIOEN 440 Introduction to Biomechanics (4) J. SANDERSPresents the mechanical behavior of tissues in the body and the application to design of prostheses. Covers the basics of cell biology, engineering cellular microenvironments, as well as effects of external engineering stimuli on cellular processes, which have significant implications in various diseases such as cancer, neuromuscular disease, and cardiovascular disease. Technical Topics. Students also complete one of the following concentrations: Degree Requirements Topics include the physics of MRI and ultrasound, principles of image formation, clinical applications, and the technology supporting important modes of modern imaging equipment. 256 check-ins. The Bioengineering major course sequence begins in spring quarter with BIOEN 315, 316 and 317. Recommended: Introductory Biology, General Mechanics, and Cell Biology Offered: W.View course details in MyPlan: BIOEN 483, BIOEN 485 Computational Bioengineering (4) Wendy E ThomasIntroduction to computational and mathematical analysis of biological systems, including control, stochastic, and transport systems. The Voiland School offers degrees in chemical engineering and bioengineering that prepare leaders who solve the most important challenges facing our nation and the world. We connect industry partners with faculty/student research and department services, facilities, and consulting opportunities to develop … Credit/no-credit only.View course details in MyPlan: BIOEN 516, BIOEN 518 Healthcare Transformation: Forces, Directions, Implications (2) L. HUNTSMANIntroduces the history, current realities and forces driving change in healthcare and provides an opportunity to use this knowledge to evaluate contemporary attempts to innovate. An important part of the class is a final project. Molecular and Cellular Engineering . Includes real-world examples, computer modeling, and research design approaches. Prerequisite: either CSE 142, CSE 160, or AMATH 301, which may be taken concurrently. Founded in 1967 as UW’s Center for Bioengineering, we strive to invent the future of medicine. Recommended: Basic Electrical Engineering Offered: W.View course details in MyPlan: BIOEN 568, BIOEN 570 Systems Immunology and Immunoengineering (3) Hao Yuan KuehExplores current progress towards a quantitative, systems-level understanding of immune system function. Groups design, build and present a neural engineering prototype project to a panel of industry judges. Department of Bioengineering. It is an interdisciplinary engineering discipline practiced by professionals trained as engineers, who often work in teams including engineers, physicians, biologists, nurses and therapists. Offered: A.View course details in MyPlan: BIOEN 472, BIOEN 474 Immunoengineering (3) K. WoodrowCovers cell and tissues of immune system; lymphocyte activation and specificity; cell biology of antigen processing and preservation; and effector mechanisms. Offered: W.View course details in MyPlan: BIOEN 475, BIOEN 481 Engineering Cell Biology (3)Introduces engineering approaches for analysis and control of cell structure and function, and application of such technologies in cell biology studies. Topics include: creative problem solving techniques, self-directed inquiry, engineering ethics, social constraints, and engineering design process.View course details in MyPlan: BIOEN 215, BIOEN 217 MATLAB Fundamentals for Bioengineers (1) Christopher NeilsIntroduction to scientific programming, using both standard programming methods and MATLAB-specific strategies. Design and analysis of biological reactors and product recovery operations. Offered: jointly with CHEM E 467; W.View course details in MyPlan: BIOEN 467, BIOEN 468 Real-Time Biosignal Processing (3) C. NeilsLab-based introduction to techniques for real-time signal acquisition, processing, and output, emphasizing software as an interface between user and electronic circuits. Offered: jointly with CHEM E 458; Sp.View course 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. 2,517 people follow this. UW Bioengineering’s rigorous undergraduate and graduate programs produce students prepared to succeed in industry. BIEN 001 Introductory Colloquium in Bioengineering. More information, please visit the department’s website. Offered: jointly with M E 527.View course details in MyPlan: BIOEN 520, BIOEN 522 Biomechanics of Soft Tissue (3) J. SANDERSApplies soft tissue biomechanics to medical research. 10)Bioengineering graduate internship program.