Affiliation:
1. Department of Environmental Health & Safety Stanford University Stanford California USA
2. Department of Radiology UT Southwestern Medical Center Dallas Texas USA
3. Department of Medical Physics Memorial Sloan Kettering Cancer Center New York USA
4. Department of Radiology University of California, Davis Medical Center Sacramento California USA
5. Department of Radiology Cincinnati Children's Hospital Medical Center University of Cincinnati Cincinnati Ohio USA
Abstract
AbstractBackgroundGlobal shortages of iodinated contrast media (ICM) during COVID‐19 pandemic forced the imaging community to use ICM more strategically in CT exams.PurposeThe purpose of this work is to provide a quantitative framework for preserving iodine CNR while reducing ICM dosage by either lowering kV in single‐energy CT (SECT) or using lower energy virtual monochromatic images (VMI) from dual‐energy CT (DECT) in a phantom study.Materials and MethodsIn SECT study, phantoms with effective diameters of 9.7, 15.9, 21.1, and 28.5 cm were scanned on SECT scanners of two different manufacturers at a range of tube voltages. Statistical based iterative reconstruction and deep learning reconstruction were used. In DECT study, phantoms with effective diameters of 20, 29.5, 34.6, and 39.7 cm were scanned on DECT scanners from three different manufacturers. VMIs were created from 40 to 140 keV. ICM reduction by lowering kV levels for SECT or switching from SECT to DECT was calculated based on the linear relationship between iodine CNR and its concentration under different scanning conditions.ResultsOn SECT scanner A, while matching CNR at 120 kV, ICM reductions of 21%, 58%, and 72% were achieved at 100, 80, and 70 kV, respectively. On SECT scanner B, 27% and 80% ICM reduction was obtained at 80 and 100 kV. On the Fast‐kV switch DECT, with CNR matched at 120 kV, ICM reductions were 35%, 30%, 23%, and 15% with VMIs at 40, 50, 60, and 68 keV, respectively. On the dual‐source DECT, ICM reductions were 52%, 48%, 42%, 33%, and 22% with VMIs at 40, 50, 60, 70, and 80 keV. On the dual‐layer DECT, ICM reductions were 74%, 62%, 45%, and 22% with VMIs at 40, 50, 60, and 70 keV.ConclusionsOur work provided a quantitative baseline for other institutions to further optimize their scanning protocols to reduce the use of ICM.
Reference23 articles.
1. Contrast-Induced Acute Kidney Injury: Specialty-Specific Protocols for Interventional Radiology, Diagnostic Computed Tomography Radiology, and Interventional Cardiology
2. Current and Resolved Drug Shortages and Discontinuations Reported to FDA. U.S. Food & Drug Administration;2022. Accessed June 16 2022.https://www.accessdata.fda.gov/scripts/drugshortages/dsp_ActiveIngredientDetails.cfm?AI=Iodixanol+%28Visipaque%29+Injection&st=c&tab=tabs‐4&panels=0#
3. ACR Works With Federal Government to Help Address Contrast Shortage Issues [press release]. May 19 2022.2022.https://www.acr.org/Advocacy‐and‐Economics/Advocacy‐News/Advocacy‐News‐Issues/In‐the‐May‐21‐2022‐Issue/ACR‐Works‐With‐Federal‐Government‐to‐Help‐Address‐Contrast‐Shortage‐Issues
4. The Recent Contrast Dye Shortage Hitting Radiology Departments
5. FieldsS Need a CT scan? You may have to wait weeks thanks to lockdowns in China and dye shortages. May 31 2022.2022.https://www.marketplace.org/2022/05/31/ct‐scan‐contrast‐dye‐shortage‐china‐lockdowns/