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Potential of photon-counting detector CT technology for contrast medium reduction in portal venous phase thoracoabdominal CT

Daniel Popp, Martin Siedlecki, Lena Friedrich, Mark Haerting, Christian Scheurig‐Muenkler, Florian Schwarz, Thomas Kröncke, Stefanie Bette, Josua A. Decker

2025European Radiology9 citationsDOIOpen Access PDF

Abstract

Abstract Objectives To compare image quality and iodine attenuation intra-individually in portal venous phase photon-counting detector CT (PCD-CT) scans using protocols with different contrast medium (CM) volume. Materials and methods A prospectively acquired patient cohort between 04/2021 and 11/2023 was retrospectively screened if patients had the following combination of portal venous phase thoracoabdominal CT scans: (a) PCD-CT with 120 mL CM volume (PCD-CT 120 mL ), (b) PCD-CT with 100 mL CM volume (PCD-CT 100 mL ), and (c) prior energy-integrating detector CT (EID-CT) with 120 mL CM volume. On PCD-CT, virtual monoenergetic image (VMI) reconstructions at 70 keV were applied for both groups as well as additional VMI at 60 keV for PCD‑CT 100 mL . Quantitative analyses including signal-to-noise (SNR) and contrast-to-noise ratios (CNR) and qualitative analyses were performed using a mixed linear effects model. Results The final study cohort comprised 49 patients (mean age 67 [31–86] years, 12 female). Comparison to EID-CT was available in 33 patients. In standard 70 keV VMI reconstructions, PCD-CT 100 mL was non-inferior to PCD-CT 120 mL as well as to EID-CT 120 mL for CNR in abdominal organs (all p > 0.050). The mixed linear effects model revealed significant differences between contrast volume groups for both contrast enhancement and image quality ratings. PCD-CT 100 mL/70 keV demonstrated the smallest deviation from optimal contrast enhancement (−0.306, p < 0.001). Conclusion In portal venous phase thoracoabdominal PCD-CT, a nearly 17% reduction in CM was achievable while maintaining subjective and objective image quality compared to prior higher CM volume PCD-CT scans within the same patients and still surpassing image quality of previous exams on an EID-CT system. Key Points Question How do image quality and iodine attenuation intra-individually compare in portal venous phase photon-counting detector CT (PCD-CT) scans using protocols with different contrast medium volume. Findings PCD-CT scans exhibit superior quantitative and qualitative image quality compared to energy-integrating detector-CT acquisitions and are not negatively affected by contrast volume reductions up to 17%. Clinical relevance This study provides further evidence that PCD-CT enables a considerable reduction in iodine dose for portal venous phase acquisition, benefiting both patients and healthcare system costs.

Topics & Concepts

MedicineNuclear medicineNeuroradiologyImage qualityRadiologyInterventional radiologyContrast mediumIohexolNeurologyImage (mathematics)PsychiatryComputer scienceEndocrinologyArtificial intelligenceRenal functionAdvanced X-ray and CT ImagingRadiation Dose and ImagingMedical Imaging Techniques and Applications