Impact of time-of-flight on PET tumor detection DJ Kadrmas, ME Casey, M Conti, BW Jakoby, C Lois, DW Townsend Journal of Nuclear Medicine 50 (8), 1315-1323, 2009 | 308 | 2009 |
An assessment of the impact of incorporating time-of-flight information into clinical PET/CT imaging C Lois, BW Jakoby, MJ Long, KF Hubner, DW Barker, ME Casey, M Conti, ... Journal of Nuclear Medicine 51 (2), 237-245, 2010 | 294 | 2010 |
Fast implementations of reconstruction-based scatter compensation in fully 3D SPECT image reconstruction DJ Kadrmas, EC Frey, SS Karimi, BMW Tsui Physics in Medicine & Biology 43 (4), 857, 1998 | 171 | 1998 |
LOR-OSEM: statistical PET reconstruction from raw line-of-response histograms DJ Kadrmas Physics in Medicine & Biology 49 (20), 4731, 2004 | 107 | 2004 |
Simultaneous technetium-99m/thallium-201 SPECT imaging with model-based compensation for cross-contaminating effects DJ Kadrmas, EC Frey, BMW Tsui Physics in Medicine & Biology 44 (7), 1843, 1999 | 77 | 1999 |
Experimental comparison of lesion detectability for four fully-3D PET reconstruction schemes DJ Kadrmas, ME Casey, NF Black, JJ Hamill, VY Panin, M Conti IEEE transactions on medical imaging 28 (4), 523-534, 2008 | 71 | 2008 |
Comparison of 18F-fluorodeoxyglucose and 18F-fluorothymidine PET in differentiating radiation necrosis from recurrent glioma MS Enslow, LV Zollinger, KA Morton, RI Butterfield, DJ Kadrmas, ... Clinical nuclear medicine 37 (9), 854-861, 2012 | 66 | 2012 |
Estimating myocardial perfusion from dynamic contrast-enhanced CMR with a model-independent deconvolution method NA Pack, EVR DiBella, TC Rust, DJ Kadrmas, CJ McGann, R Butterfield, ... Journal of Cardiovascular Magnetic Resonance 10 (1), 52, 2008 | 65 | 2008 |
Truncation artifact reduction in transmission CT for improved SPECT attenuation compensation DJ Kadrmas, RJ Jaszczak, JW McCormick, RE Coleman, CB Lim Physics in Medicine & Biology 40 (6), 1085, 1995 | 64 | 1995 |
Comparative evaluation of lesion detectability for 6 PET imaging platforms using a highly reproducible whole-body phantom with 22Na lesions and localization ROC analysis DJ Kadrmas, PE Christian Journal of Nuclear Medicine 43 (11), 1545-1554, 2002 | 61 | 2002 |
Rapid dual-tracer PTSM+ ATSM PET imaging of tumour blood flow and hypoxia: a simulation study TC Rust, DJ Kadrmas Physics in Medicine & Biology 51 (1), 61, 2005 | 57 | 2005 |
Methodology for quantitative rapid multi-tracer PET tumor characterizations DJ Kadrmas, JM Hoffman Theranostics 3 (10), 757, 2013 | 55 | 2013 |
Application of reconstruction-based scatter compensation to thallium-201 SPECT: implementations for reduced reconstructed image noise DJ Kadrmas, EC Frey, BMW Tsui IEEE transactions on medical imaging 17 (3), 325-333, 1998 | 55 | 1998 |
Rapid dual-injection single-scan 13N-ammonia PET for quantification of rest and stress myocardial blood flows TC Rust, EVR DiBella, CJ McGann, PE Christian, JM Hoffman, ... Physics in Medicine & Biology 51 (20), 5347, 2006 | 54 | 2006 |
Feasibility of rapid multitracer PET tumor imaging DJ Kadrmas, TC Rust IEEE transactions on nuclear science 52 (5), 1341-1347, 2005 | 54 | 2005 |
4D maximum a posteriori reconstruction in dynamic SPECT using a compartmental model-based prior DJ Kadrmas, GT Gullberg Physics in Medicine & Biology 46 (5), 1553, 2001 | 49 | 2001 |
Single-scan dual-tracer FLT+ FDG PET tumor characterization DJ Kadrmas, TC Rust, JM Hoffman Physics in Medicine & Biology 58 (3), 429, 2013 | 48 | 2013 |
Rapid Multi-Tracer PET Tumor Imaging With and Secondary Shorter-Lived Tracers NF Black, S McJames, DJ Kadrmas IEEE transactions on nuclear science 56 (5), 2750-2758, 2009 | 46 | 2009 |
Effect of varying number of OSEM subsets on PET lesion detectability AM Morey, DJ Kadrmas Journal of nuclear medicine technology 41 (4), 268-273, 2013 | 45 | 2013 |
Evaluation of rapid dual-tracer 62Cu-PTSM+ 62Cu-ATSM PET in dogs with spontaneously occurring tumors NF Black, S McJames, TC Rust, DJ Kadrmas Physics in Medicine & Biology 53 (1), 217, 2007 | 45 | 2007 |