Abstract
We investigated the feasibility and extent to which iodine concentration can be reduced in computed tomography angiography imaging of the aorta and coronary arteries using low tube voltage and virtual monochromatic imaging of 3 major dual-energy CT (DECT) vendors. A circulation phantom was imaged with dual source CT (DSCT), gemstone spectral imaging (GSI) and dual-layer spectral detector CT (SDCT). For each scanner, a reference scan was acquired at 120 kVp using routine iodine concentration (300 mg I/ml). Subsequently, scans were acquired at lowest possible tube potential (70, 80, 80 kVp, respectively), and DECT-mode (80/150Sn, 80/140 and 120 kVp, respectively) in arterial phase after administration of iodine (300, 240, 180, 120, 60, 30 mg I/ml). Objective image quality was evaluated using attenuation, CNR and dose corrected CNR (DCCNR) measured in the aorta and left main coronary artery. Average DCCNR at reference was 227.0, 39.7 and 60.2 for DSCT, GSI and SDCT. Maximum iodine concentration reduction without loss of DCCNR was feasible down to 180 mg I/ml (40% reduced) for DSCT (DCCNR 467.1) and GSI (DCCNR 46.1) using conventional CT low kVp, and 120 mg I/ml (60% reduced) for SDCT (DCCNR 171.5) using DECT mode. Low kVp scanning and DECT allows for 40–60% iodine reduction without loss in image quality compared to reference. Optimal scan protocol and to which extent varies per vendor. Further patient studies are needed to extend and translate our findings to clinical practice.
Highlights
Computed tomography angiography (CTA) is an important diagnostic tool for the detection of cardiovascular diseases [1]
CNR contrast to noise ratio, CTDIvol volumetric CT dose index, dose corrected CNR (DCCNR) dose corrected contrast to noise ratio, dualenergy CT (DECT) dual-energy computed tomography GSI gemstone spectral imaging, HU Hounsfield units, kVp kilovoltage peak, keV kilo electron voltage, mAs milliampere second, mGy milligray was higher compared to the reference
We showed that for CTA images of the aorta and coronary arteries iodine reductions without loss in objective image quality compared to reference are feasible with both conventional CT low kVp and DECT
Summary
Computed tomography angiography (CTA) is an important diagnostic tool for the detection of cardiovascular diseases [1]. Reducing iodine concentration decreases the risk of contrast-induced nephropathy [3, 4] and can be beneficial in terms of safety and costs [5]. One of the methods to reduce the amount of iodine is scanning with low tube voltage. Several studies have described iodine dose reductions of up to 56% using. The International Journal of Cardiovascular Imaging (2018) 34:1265–1275. 70–80 kVp acquisition while maintaining image quality compared to routine CTA [6,7,8,9]. Thereby allowing for iodine concentration reduction without decrease in CT-values [10]
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