Ehsan Samei

Professor

Member of Duke Cancer Institute

Office: 
2424 Erwin Road, Suite 302, Ravin Advanced Imaging Labs, Durham, NC 27705

Details

Effects of automatic tube potential selection on radiation dose index, image quality, and lesion detectability in pediatric abdominopelvic CT and CTA: a phantom study.
European radiology (2016)

Quantitative Features of Liver Lesions, Lung Nodules, and Renal Stones at Multi-Detector Row CT Examinations: Dependency on Radiation Dose and Reconstruction Algorithm.
Radiology (2015)

Evaluation of Low-Contrast Detectability of Iterative Reconstruction across Multiple Institutions, CT Scanner Manufacturers, and Radiation Exposure Levels.
Radiology (2015)

Monte Carlo reference data sets for imaging research: Executive summary of the report of AAPM Research Committee Task Group 195.
Medical physics (2015)

The development of a population of 4D pediatric XCAT phantoms for imaging research and optimization.
Medical physics (2015)

Characteristic image quality of a third generation dual-source MDCT scanner: Noise, resolution, and detectability.
Medical physics (2015)

Volumetric x-ray coherent scatter imaging of cancer in resected breast tissue: a Monte Carlo study using virtual anthropomorphic phantoms.
Physics in medicine and biology (2015)

Development of realistic physical breast phantoms matched to virtual breast phantoms based on human subject data.
Medical physics (2015)

Automated Technique to Measure Noise in Clinical CT Examinations.
AJR. American journal of roentgenology (2015)

A Case for Wide-Angle Breast Tomosynthesis.
Academic radiology (2015)

Dr. Ehsan Samei, PhD, DABR, FAAPM, FSPIE is a tenured Professor of Radiology, Medical Physics, Biomedical Engineering, Physics, and Electrical and Computer Engineering at Duke University, where he also serves as the Director of Carl E. Ravin Advanced Imaging Laboratories and the founding Chief of the Clinical Imaging Physics Group. He is certified by the American Board of Radiology, and is a Fellow of the American Association of Physicists in Medicine (AAPM), and the International Society of Optical Engineering (SPIE). He was the founding Director of the Graduate Studies of the Duke Medical Physics Graduate Program, and the co-founder of the Society of Directors of Academic Medical Physics Programs (SDAMPP). He has held senior leadership positions in the AAPM, the SPIE, and SDAMPP. He is a Councilor of the National Council of Radiation Protection and Measurements (NCRP), and a Distinguished Investigator of the Academy of Radiology Research.

Dr. Samei’s interests and expertise include x-ray imaging, theoretical imaging models, simulation methods, and experimental techniques in medical image formation, analysis, assessment, display, and perception. His current research includes methods to develop image quality and dose metrics that are clinically relevant and that can be used to design and utilize advanced imaging techniques towards precise interpretive and quantitative performance. He further has an active interest in bridging the gap between scientific scholarship and clinical practice, in the meaningful realization of translational research and in clinical processes that are informed by scientific evidence. While he works across most diagnostic imaging modalities, his main modalities of interest are CT and Tomosynthesis for breast, lung, and abdominal imaging applications. He has been the recipient of 29 extramural grants from the US government, private foundations, and medical industry, and has 700 scientific publications including 190 referred journal articles.

Education:
Ph.D. - University of Michigan at Ann Arbor
M.E. - University of Michigan at Ann Arbor

Geometry optimization considerations for digital mammography
In Proc. 7th International Workshop on Digital Mammography edited by . 2005 in press; : .

Simulation of the appearance of breast masses for digital mammography systems
In Proc. 7th International Workshop on Digital Mammography edited by . 2005 in press; : .

The DQE performance of a selenium-based full-field digital mammography system
In Proc. 7th International Workshop on Digital Mammography edited by . 2005 in press; : .

Effects of uncompressed breast composition and thickness on image quality using a quasi-monochromatic beam for computed mammotomography
In Proc. 7th International Workshop on Digital Mammography edited by . 2005 in press; : .

Design and development of a fully-3D dedicated x-ray computed mammotomography system
In Proc. SPIE edited by . in press; pp. 189-197. : .

Quasi-monochromatic beam measurements for dedicated cone-beam mammotomography of an uncompressed breast
In Proc. 7th International Workshop on Digital Mammography edited by . 2005 in press; : .

Physical Evaluation of a high frame rate, extended dynamic range flat panel imager for real-time cone beam computed tomography applications
In SPIE International Symposium on Medical Imaging, San Diego, CA, February 2005 edited by . in press; : .

Photographic measurement of the angular response performance of clinical liquid crystal displays
In Proc. SPIE edited by . in press; : .

Evaluation of a prototype amorphous selenium-based full filed digital mammography detector
In Proc. SPIE edited by . in press; : .

Effect of display resolution on the detection of mammographic lesions
In Proc. SPIE Medical Imaging edited by . 2005; pp. 243-250. : .

2013 Distinguished Investigator, Academy of Radiology Research
2012 Chapter Appreciation, Southeast Chapter of the American Association of Physicists in Medicine (SEAAPM), Atlanta, GA
2012 Farrington Daniels Award for the best paper published in Medical Physics
2011 Award for Exceptional Leadership, Duke University Graduate School and Medical Physics Graduate Program, Duke University
2010 Fellow, International Society for Optics and Photonics
2009 Distinguished Service as Associate Editor of Medical Physics, Medical Physics Editorial Board
2009 Fellows, American Association of Physicists in Medicine
2008 Excellence in Mentorship Award, Medical Physics Graduate Program, Duke University
2007 Distinguished Service to Medical Physics, American Association of Physicists in Medicine (AAPM)
2006 Director’s Award for Exemplary Service, Medical Physics Graduate Program, Duke University
2004 Appreciation Award for the establishment of the Medical Physics Graduate Program at Duke University, Duke University
2001 Award for Excellence, Best Diagnostic Imaging Paper, American College of Medical Physics