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1 - 10 of 21 results for: RAD

RAD 101: Readings in Radiology Research

Prerequisite: consent of instructor.
Terms: Aut, Win, Spr, Sum | Units: 1-18 | Repeatable for credit
Instructors: Atlas, S. (PI) ; Bammer, R. (PI) ; Barnes, P. (PI) ; Barth, R. (PI) ; Bazalova, M. (PI) ; Beaulieu, C. (PI) ; Becker, C. (PI) ; Biswal, S. (PI) ; Blankenberg, F. (PI) ; Chan, F. (PI) ; Cheng, Z. (PI) ; Chin, F. (PI) ; Dahl, J. (PI) ; Daldrup-Link, H. (PI) ; Daniel, B. (PI) ; Demirci, U. (PI) ; Desser, T. (PI) ; Do, H. (PI) ; Fahrig, R. (PI) ; Federle, M. (PI) ; Fischbein, N. (PI) ; Fleischmann, D. (PI) ; Gambhir, S. (PI) ; Gayer, G. (PI) ; Ghanouni, P. (PI) ; Glover, G. (PI) ; Gold, G. (PI) ; Goris, M. (PI) ; Hargreaves, B. (PI) ; Herfkens, R. (PI) ; Hofmann, L. (PI) ; Hovsepian, D. (PI) ; Hwang, G. (PI) ; Iagaru, A. (PI) ; Ikeda, D. (PI) ; Jaramillo, D. (PI) ; Jeffrey, R. (PI) ; KUO, W. (PI) ; Kamaya, A. (PI) ; Kane, P. (PI) ; Kao, J. (PI) ; Keeling, C. (PI) ; Kothary, N. (PI) ; Lachman, R. (PI) ; Langlotz, C. (PI) ; Larson, D. (PI) ; Lebowitz, E. (PI) ; Leung, A. (PI) ; Levin, C. (PI) ; Lipson, J. (PI) ; Loening, A. (PI) ; Louie, J. (PI) ; Lungren, M. (PI) ; Lutz, A. (PI) ; Mallick, P. (PI) ; Marks, M. (PI) ; Massoud, T. (PI) ; McNab, J. (PI) ; Moseley, M. (PI) ; Moskowitz, P. (PI) ; Napel, S. (PI) ; Newman, B. (PI) ; Nino-Murcia, M. (PI) ; Olcott, E. (PI) ; Paik, D. (PI) ; Pal, S. (PI) ; Paulmurugan, R. (PI) ; Pauly, K. (PI) ; Pelc, N. (PI) ; Pitteri, S. (PI) ; Plevritis, S. (PI) ; Quon, A. (PI) ; Rao, J. (PI) ; Riley, G. (PI) ; Rubesova, E. (PI) ; Rubin, D. (PI) ; Rutt, B. (PI) ; Segall, G. (PI) ; Seidel, F. (PI) ; Shin, L. (PI) ; Soh, H. (PI) ; Sommer, F. (PI) ; Spielman, D. (PI) ; Stevens, K. (PI) ; Stoyanova, T. (PI) ; Sze, D. (PI) ; Thakor, A. (PI) ; Van Dalsem, V. (PI) ; Vasanawala, S. (PI) ; Willmann, J. (PI) ; Wintermark, M. (PI) ; Yao, D. (PI) ; Yeom, K. (PI) ; Zaharchuk, G. (PI) ; Zeineh, M. (PI)

RAD 199: Undergraduate Research

Students undertake investigations sponsored by individual faculty members. Prerequisite: consent of instructor.
Terms: Aut, Win, Spr, Sum | Units: 1-18 | Repeatable for credit
Instructors: Atlas, S. (PI) ; Bammer, R. (PI) ; Barnes, P. (PI) ; Barth, R. (PI) ; Bazalova, M. (PI) ; Beaulieu, C. (PI) ; Becker, C. (PI) ; Biswal, S. (PI) ; Blankenberg, F. (PI) ; Chan, F. (PI) ; Cheng, Z. (PI) ; Chin, F. (PI) ; Dahl, J. (PI) ; Daldrup-Link, H. (PI) ; Daniel, B. (PI) ; Demirci, U. (PI) ; Desser, T. (PI) ; Do, H. (PI) ; Fahrig, R. (PI) ; Federle, M. (PI) ; Fischbein, N. (PI) ; Fleischmann, D. (PI) ; Gambhir, S. (PI) ; Gayer, G. (PI) ; Ghanouni, P. (PI) ; Glover, G. (PI) ; Gold, G. (PI) ; Goris, M. (PI) ; Hargreaves, B. (PI) ; Herfkens, R. (PI) ; Hofmann, L. (PI) ; Hovsepian, D. (PI) ; Hwang, G. (PI) ; Iagaru, A. (PI) ; Ikeda, D. (PI) ; Jaramillo, D. (PI) ; Jeffrey, R. (PI) ; KUO, W. (PI) ; Kamaya, A. (PI) ; Kane, P. (PI) ; Kao, J. (PI) ; Keeling, C. (PI) ; Kothary, N. (PI) ; Lachman, R. (PI) ; Langlotz, C. (PI) ; Larson, D. (PI) ; Lebowitz, E. (PI) ; Leung, A. (PI) ; Levin, C. (PI) ; Lipson, J. (PI) ; Loening, A. (PI) ; Louie, J. (PI) ; Lungren, M. (PI) ; Lutz, A. (PI) ; Mallick, P. (PI) ; Marks, M. (PI) ; Massoud, T. (PI) ; McNab, J. (PI) ; Moseley, M. (PI) ; Moskowitz, P. (PI) ; Napel, S. (PI) ; Newman, B. (PI) ; Nino-Murcia, M. (PI) ; Olcott, E. (PI) ; Paik, D. (PI) ; Pal, S. (PI) ; Paulmurugan, R. (PI) ; Pauly, K. (PI) ; Pelc, N. (PI) ; Pitteri, S. (PI) ; Plevritis, S. (PI) ; Quon, A. (PI) ; Rao, J. (PI) ; Riley, G. (PI) ; Rubesova, E. (PI) ; Rubin, D. (PI) ; Rutt, B. (PI) ; Segall, G. (PI) ; Seidel, F. (PI) ; Shin, L. (PI) ; Soh, H. (PI) ; Sommer, F. (PI) ; Spielman, D. (PI) ; Stevens, K. (PI) ; Stoyanova, T. (PI) ; Sze, D. (PI) ; Thakor, A. (PI) ; Van Dalsem, V. (PI) ; Vasanawala, S. (PI) ; Willmann, J. (PI) ; Wintermark, M. (PI) ; Wu, J. (PI) ; Yao, D. (PI) ; Yeom, K. (PI) ; Zaharchuk, G. (PI) ; Zeineh, M. (PI)

RAD 220: Introduction to Imaging and Image-based Human Anatomy (BIOE 220)

Focus on learning the fundamentals of each imaging modality including X-ray Imaging, Ultrasound, CT, and MRI, to learn normal human anatomy and how it appears on medical images, to learn the relative strengths of the modalities, and to answer, "What am I looking at?" Course website:  http://bioe220.stanford.edu
Terms: Win | Units: 3

RAD 221: Physics and Engineering of Radionuclide-based Medical Imaging (BIOE 221)

Physics, instrumentation, and algorithms for radionuclide-based medical imaging, with a focus on positron emission tomography (PET) and single photon emission computed tomography (SPECT). Topics include basic physics of photon emission from the body and detection, sensors, readout and data acquisition electronics, system design, strategies for tomographic image reconstruction, system calibration and data correction algorithms, methods of image quantification, and image quality assessment, and current developments in the field. Prerequisites: A year of university-level mathematics and physics.
Terms: Win | Units: 3

RAD 222: Instrumentation and Applications for Multi-modality Molecular Imaging of Living Subjects (BIOE 222)

Focuses on instruments, algorithms and other technologies for imaging of cellular and molecular processes in living subjects. Introduces preclinical and clinical molecular imaging modalities, including strategies for molecular imaging using PET, SPECT, MRI, Ultrasound, Optics, and Photoacoustics. Covers basics of instrumentation physics, the origin and properties of the signal generation, and image data quantification.nn http://med.stanford.edu/mips/education/bioe222/2016.html
Terms: Aut | Units: 3-4

RAD 223: Physics and Engineering of X-Ray Computed Tomography (BIOE 223)

CT scanning geometries, production of x-rays, interactions of x-rays with matter, 2D and 3D CT reconstruction, image presentation, image quality performance parameters, system components, image artirfacts, radiation dose. Prerequisites: differential and integral calculus. Knowledge of Fourier transforms ( EE261) recommended.
Terms: Aut | Units: 3

RAD 224: Probes and Applications for Multi-modality Molecular Imaging of Living Subjects (BIOE 224)

Focuses on molecular contrast agents (a.k.a. "probes") that interrogate and target specific cellular and molecular disease mechanisms. Covers the ideal characteristics of molecular probes and how to optimize their design for use as effective imaging reagents that enables readout of specific steps in biological pathways and reveal the nature of disease through noninvasive imaging assays. Prerequisites: none.
Terms: Win | Units: 4 | Repeatable 2 times (up to 8 units total)

RAD 225: Ultrasound Imaging and Therapeutic Applications (BIOE 225)

Covers the basic concepts of ultrasound imaging including acoustic properties of biological tissues, transducer hardware, beam formation, and clinical imaging.  Also includes the therapeutic applications of ultrasound including thermal and mechanical effects, visualization of the temperature and radiation force with MRI, tissue assessment with MRI and ultrasound, and ultrasound-enhanced drug delivery. Course website: http://bioe225.stanford.edu
Terms: Aut | Units: 3

RAD 226A: In Vivo MR: SpinPhysics and Spectroscopy (BIOE 326A)

Collections of independent identical nuclear spins are well described by the classical vector model of magnetic resonance imaging, however, interaction among spins, as occur in many in vivo processes, require a more complete description. This course develops the basic physics and engineering principles of these interactions with emphasis on current research questions and clinical spectroscopy applications. Prerequisite: EE396b; familiarity with MRI, linear algebra recommended.
Terms: Win | Units: 3 | Repeatable 3 times (up to 9 units total)
Instructors: Spielman, D. (PI)
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