Di Zhang, Ph.D.
Affiliations: | 2012 | Biomedical Physics 0119 | University of California, Los Angeles, Los Angeles, CA |
Area:
Radiology, General BiophysicsGoogle:
"Di Zhang"Parents
Sign in to add mentorMichael McNitt-Gray | grad student | 2012 | UCLA | |
(Reduction of radiation dose to radiosensitive organs and its tradeoff with image quality in Computed Tomography.) |
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Publications
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Scarboro SB, Cody D, Stingo FC, et al. (2018) Calibration strategies for use of the nanoDot OSLD in CT applications. Journal of Applied Clinical Medical Physics |
Zhou WZ, Gu JP, Yin XD, et al. (2016) Low-Voltage, High-Pitch Computerized Tomography Angiography of the Infrarenal Aorta and Lower Extremity Vessels: Assessment of Radiation Dose, Image Quality With Hybrid Iterative Reconstruction, and Efficacy of Test Injection Using a Monitoring Scan at Knee Level. Journal of Computer Assisted Tomography |
Scarboro SB, Cody D, Alvarez P, et al. (2015) Characterization of the nanoDot OSLD dosimeter in CT. Medical Physics. 42: 1797-807 |
Zhang D, Cagnon CH, Villablanca JP, et al. (2013) Estimating peak skin and eye lens dose from neuroperfusion examinations: use of Monte Carlo based simulations and comparisons to CTDIvol, AAPM Report No. 111, and ImPACT dosimetry tool values. Medical Physics. 40: 091901 |
Khatonabadi M, Zhang D, Mathieu K, et al. (2012) A comparison of methods to estimate organ doses in CT when utilizing approximations to the tube current modulation function. Medical Physics. 39: 5212-28 |
Zhang D, Cagnon CH, Villablanca JP, et al. (2012) Peak skin and eye lens radiation dose from brain perfusion CT based on Monte Carlo simulation. Ajr. American Journal of Roentgenology. 198: 412-7 |
Kim C, Kim J, McNitt-Gray M, et al. (2012) TH-E-217BCD-08: Simulating Reduced-Dose CT Imaging Using an Image-Based Virtual Sinogram Approach: Comparisons with Real Sinogram-Based Simulation Medical Physics. 39: 4016-4016 |
Zhang D, Khatonabadi M, Jude C, et al. (2012) WE-A-218-10: The Tradeoff between Diagnostic Performance and Radiation Dose for CT Imaging in the Diagnosis of Appendicitis Across Observers with Various Levels of Experience Medical Physics. 39: 3940-3940 |
Khatonabadi M, Zhang D, Cagnon C, et al. (2012) WE-A-218-04: Tube Current Modulation and Patient Size Adjustment for CT Dosimetry Software ImPACT in Thoracic CT Exams Medical Physics. 39: 3939-3939 |
Zhang D, Khatonabadi M, Cagnon C, et al. (2012) TU-G-217BCD-08: The Relationship of Image Noise and Organ Dose as a Function of Patient Size for Abdominal CT Exams at 5 Different Dose Levels When Tube Current Modulation Is Used Medical Physics. 39: 3925-3925 |