James T. Dobbins III
Li CM, Segars WP, Lo JY, Veress AI, Boone JM, Dobbins JT 3rd. Computerized 3D breast phantom with enhanced high-resolution detail. SPIE Medical Imaging Conference. 2009;7258:0S1-OS8.
Ranger NT, Mackenzie A, Honey ID, Dobbins JT 3rd, Ravin CE, Samei E. Extension of DQE to include scatter, grid, magnification, and focal spot blur: a new experimental technique and metric. SPIE Medical Imaging Conference. 2009;7258:1A1-1A12.
Yin FF, Godfrey DJ, Oldham M, Dobbins JT 3rd. Use of simulation tomosynthesis and verification tomosynthesis for treatment target localization. US Patent. Allowed 2009.
Detector or system? Extending the concept of detective quantum efficiency to characterize the performance of digital radiographic imaging systems.
Digital tomosynthesis of the chest for lung nodule detection: interim sensitivity results from an ongoing NIH-sponsored trial.
Medical physics (2008)
Digital tomosynthesis of the chest.
Journal of thoracic imaging (2008)
Chen Y, Lo JY, Dobbins JT 3rd. Impulse response and modulation transfer function analysis for shift-and-add and back projection image reconstruction algorithms in digital breast tomosynthesis (DBT). Int. J. of Functional Informatics and Personalised Medicine. 2008;1(2):189-204.
Li CM, Segars WP, Lo JY, Veress AI, Boone JM, Dobbins JT 3rd. Three-dimensional computer generated breast phantom based on empirical data. SPIE Medical Imaging Conference. 2008;6913:14.1-14.8.
Importance of point-by-point back projection correction for isocentric motion in digital breast tomosynthesis: relevance to morphology of structures such as microcalcifications.
Medical physics (2007)
Assessment of detective quantum efficiency: intercomparison of a recently introduced international standard with prior methods.