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Multiphase aortic valve calcium scoring on true-non-contrast and calcium-preserving spectral reconstructions using dual-source photon-counting detector CT.


ABSTRACT:

Objectives

This study investigated differences between aortic valve calcium (AVC) scores derived from true non-contrast (TNC) and virtual-non-contrast reconstructions acquired with photon-counting detector CT (PCD-CT) and the impact of ECG-phase variability on AVC scores.

Materials and methods

A hundred patients undergoing PCD-CT for transcatheter aortic valve implantation (TAVI) planning were retrospectively analyzed. Scores were computed using the Agatston methodology for TNC and virtual-non-iodine (VNI) reconstruction at scanner-selected optimal phase (best) and a fixed ECG-phase (300 ms). For VNI reconstructions, additional phases from 150 ms to 450 ms with 50 ms increments were reconstructed. AVC scores of TNCbest vs TNC300, VNIbest vs TNCbest, VNI300 vs TNC300, and all VNI phases vs VNIbest were compared using Wilcoxon signed-rank tests. The agreement was assessed using scatter plots, Bland-Altman plots, and intra-class coefficients. AVC scores were also categorized based on the likelihood of severe aortic stenosis. Differences between reconstructions were evaluated as percentages (reclassification) and analyzed using Cohen's kappa coefficients.

Results

TNCbest and TNC300 differed significantly (mean bias: 226; LoA: [-820, 1300]; p < 0.001, reclassification 17%). VNIbest vs TNCbest resulted in a mean bias of -512 (LoA: [-1900, 860]; p < 0.001) and reclassification of 17%. TNC300 vs VNI300 demonstrated a bias of -200 and reclassification of 14% (κ = 0.72). VNI reconstructions showed less variability across phases than the difference between TNCbest and TNC300 (range, mean bias: 22-146).

Conclusion

VNI is a feasible alternative for AVC scoring but tends to overestimate compared to TNC. While phase-dependent variability in TNC underscores the need for standardization, further optimization of VNI is necessary for routine clinical use.

Key points

Question What is the performance of AVC score calculation from virtual non-contrast images with PCD-CT and the impact of the reconstructed ECG-phase? Findings VNI reconstructions tend to overestimate the scores compared to non-enhanced acquisitions. ECG phase significantly impacts AVC scores for non-enhanced acquisitions and VNI reconstructions. Clinical relevance Utilizing VNI reconstructions to calculate AVC scores might reduce radiation dose, and understanding the influence of ECG-phase on these scores might improve reliability.

SUBMITTER: van der Bie J 

PROVIDER: S-EPMC12711920 | biostudies-literature | 2026 Jan

REPOSITORIES: biostudies-literature

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Publications

Multiphase aortic valve calcium scoring on true-non-contrast and calcium-preserving spectral reconstructions using dual-source photon-counting detector CT.

van der Bie Judith J   van den Dorpel Mark M P MMP   van Straten Marcel M   Bos Daniel D   Hirsch Alexander A   van Mieghem Nicolas M NM   Budde Ricardo P J RPJ  

European radiology 20250722 1


<h4>Objectives</h4>This study investigated differences between aortic valve calcium (AVC) scores derived from true non-contrast (TNC) and virtual-non-contrast reconstructions acquired with photon-counting detector CT (PCD-CT) and the impact of ECG-phase variability on AVC scores.<h4>Materials and methods</h4>A hundred patients undergoing PCD-CT for transcatheter aortic valve implantation (TAVI) planning were retrospectively analyzed. Scores were computed using the Agatston methodology for TNC an  ...[more]

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