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Explore cutting-edge research in medical imaging including thermo-elastic modeling of breast tissue, real-time temperature strain analysis, and innovative methods for image quality assessment and diffusion-tensor imaging. This research has significant implications for improved diagnosis, prognosis, and therapy in medical imaging.
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Representative Recent Research in Medical Imaging Murray Loew Biomedical Engineering Program Department of Electrical and Computer Engineering June 27, 2007
With R. Brem, M.D., GWU, F. Razjouyan, B.S. student, and I. Kopriva, Ph.D., visiting scientist
Thermo-elastic modeling of breast tissue with gravity-induced deformation And can then model the thermal state of the tissue – in 3-d – under the influence of a source (e.g., a tumor) at an arbitrary position We can model the shape of the breast under realistic conditions of position and orientation This information is useful for diagnosis, prognosis, and therapy Temperature Strain With L. Jiang, doctoral student
With J. Reinhardt, Ph.D., U. of Iowa, and Z. Markowitz, doctoral student
With H. Kundel, M.D., U. of Pennsylvania, and P. Perconti, doctoral student
With G. Sharp, Ph.D. and S. Straub, Ph.D., Cornell U., and T. McClanahan, doctoral student
Other current work • Optical coherence tomography (OCT) of the bladder (with J. Zara, Ph.D., ECE; M. Manyak, M.D., Urology; A. Lingley, doctoral student) • Task-based measures of image quality for image compression (with D. Li, doctoral student) • Diffusion-tensor imaging in MRI (with P. Basser, Ph.D., NIH; R. Freidlin, doctoral student)