The Department of Electrical Engineering, working with researchers in the School of Medicine, has had a long and successful history in collaborative medical imaging research and in medical imaging training of a large number of predoctoral students. In this renewal application, we seek to continue our program in training electrical engineering predoctoral students in the area of cardiac magnetic resonance imaging (MRI). MRI has achieved great success in imaging many regions of the body and is poised to make a significant impact in cardiac imaging. With its many challenges, this field provides an outstanding vehicle for research training of predoctoral students in medical imaging. Predoctoral students in this training program will have abundant access to imaging equipment, and to both technical and clinical personnel. We propose to enhance our program through the training of three predoctoral students in cardiac MRI. Based on our track record of predoctoral student training, we strongly feel that this program will not only provide an excellent base but also lead to significant contributions to the field of cardiac MRI.
There is a need for researchers with a background in cardiac medical imaging technology and applications. The proposed training program with predoctoral students in electrical engineering at Stanford University addresses this need. These students will receive training in the growing field of cardiac magnetic resonance imaging. These students will work with a closely knit group of technical and clinical preceptors with access to a wide range of imaging equipment.
Addy, Nii Okai; Ingle, R Reeve; Luo, Jieying et al. (2017) 3D image-based navigators for coronary MR angiography. Magn Reson Med 77:1874-1883 |
Dwork, Nicholas; Lasry, Eric M; Pauly, John M et al. (2017) Formulation of image fusion as a constrained least squares optimization problem. J Med Imaging (Bellingham) 4:014003 |
Smith, Gennifer T; Dwork, Nicholas; Khan, Saara A et al. (2016) Robust dipstick urinalysis using a low-cost, micro-volume slipping manifold and mobile phone platform. Lab Chip 16:2069-78 |
Etezadi-Amoli, Maryam; Stang, Pascal; Kerr, Adam et al. (2015) Controlling radiofrequency-induced currents in guidewires using parallel transmit. Magn Reson Med 74:1790-802 |
Addy, Nii Okai; Ingle, R Reeve; Wu, Holden H et al. (2015) High-resolution variable-density 3D cones coronary MRA. Magn Reson Med 74:614-21 |
Etezadi-Amoli, Maryam; Stang, Pascal; Kerr, Adam et al. (2015) Interventional device visualization with toroidal transceiver and optically coupled current sensor for radiofrequency safety monitoring. Magn Reson Med 73:1315-27 |
Addy, Nii Okai; Wu, Holden H; Nishimura, Dwight G (2012) Simple method for MR gradient system characterization and k-space trajectory estimation. Magn Reson Med 68:120-9 |
Bangerter, Neal K; Cukur, Tolga; Hargreaves, Brian A et al. (2011) Three-dimensional fluid-suppressed T2-prep flow-independent peripheral angiography using balanced SSFP. Magn Reson Imaging 29:1119-24 |
Wu, Holden H; Nishimura, Dwight G (2010) 3D magnetization-prepared imaging using a stack-of-rings trajectory. Magn Reson Med 63:1210-8 |
Wu, Hochong H; Lee, Jin Hyung; Nishimura, Dwight G (2009) Fat/water separation using a concentric rings trajectory. Magn Reson Med 61:639-49 |
Showing the most recent 10 out of 14 publications