What question did this study set out to answer?

To assess the effects of ultra-high resolution and monoenergetic reconstructions on detecting small endoleaks in CT imaging after aortic aneurysm repair.

January 23, 2026

Effect of Monoenergetic Reconstructions and Ultra-High-Resolution on the Detection of Small Endoleaks With Photon-Counting Detector CT

Key Points

To assess the effects of ultra-high resolution and monoenergetic reconstructions on detecting small endoleaks in CT imaging after aortic aneurysm repair.
Utilized an aneurysm phantom model for scanning with photon-counting detector CT.
Reconstructed monoenergetic images with varying keV and standard resolutions.
Three independent radiologists evaluated 80 CT series containing 2880 simulated endoleaks.
Performance was analyzed using jackknife alternative free-response operational characteristics (JAFROC1) method.
Best detection performance noted with 50 keV UHR and 55 keV reconstructions, with A1 values of 0.66 to 0.72.
UHR at 50 keV significantly outperformed standard reconstruction for 4-6 mm endoleaks (P = 0.015 and P = 0.002).
Negative correlation between reader performance and image noise (Spearman R = −0.83 to −0.98).
No significant correlation with the contrast-to-noise ratio of endoleaks.

Abstract

Background and Objectives: Following endovascular repair of an aortic aneurysm, patients need regular surveillance using CT to exclude endoleaks. The optimal technical parameters for photon-counting detector CT (PCD-CT) have not yet been established in this clinical context. This study examines the impact of the ultra-high resolution (UHR) mode and monoenergetic reconstructions at various keV on the detection of small endoleaks in experimental settings. Materials and Methods: An aneurysm phantom model mimicking medium- and large-sized patients was scanned using PCD-CT. Monoenergetic images (MEIs) were reconstructed with standard resolution at 40, 45, 50, 55, and 60 keV and with UHR at 45, 50, and 55 keV. Three independent blinded radiologists assessed 80 CT series containing 2880 simulated endoleaks with diameters of 2, 4, and 6 mm. The observers’ ratings were analyzed and compared with the jackknife alternative free-response operational characteristics (JAFROC1) method by calculating a figure-of-merit for the performance ( A 1 ). The Spearman R was calculated for the correlation between A 1 and objective image quality. Results: The best readers’ performance was achieved with the 50 keV UHR, 55 keV standard, 55 keV UHR, and 60 keV standard series ( A 1 =0.66 to 0.72) in the medium and with the 55 keV standard, 55 keV UHR, and 60 keV standard reconstructions ( A 1 = 0.40 to 0.49) in the large phantom. UHR provided higher A 1 than the standard reconstruction at 50 keV for 4 to 6 mm endoleaks ( A 1 , 0.82 vs. 0.72; P =0.015 in medium and 0.42 vs. 0.30; P =0.028 in large phantom) and for 6 mm endoleaks ( A 1 , 0.93 vs. 0.83; P =0.002 in medium and 0.53 vs. 0.36; P =0.013 in large phantom). In both phantoms, readers’ performance correlated negatively with image noise (Spearman R =−0.83; P =0.01 in the medium and Spearman R =−0.98; P <0.001 in the large phantom) and showed no correlation with the contrast-to-noise ratio of endoleaks ( P =0.91 and 0.73). Conclusions: The 55 keV standard or UHR and 60 keV standard reconstructions yielded the best performance for detecting small endoleaks with PCD-CT. The UHR mode improved performance at 50 keV for 4 to 6 mm and 6 mm endoleaks.

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Cite This Study

Szucs‐Farkas et al. (Wed,) studied this question.

synapsesocial.com/papers/69730fc4c8125b09b0d1f7fc https://doi.org/https://doi.org/10.1097/rli.0000000000001266

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