Evaluation of Photon-Counting CT for Spectral Imaging in Cardiovascular Applications: Impact of Lumen Size, Dose, and Patient Habitus.

medRxiv : the preprint server for health sciences Pub Date : 2025-01-08 DOI:10.1101/2025.01.07.25320150

Martin V Rybertt, Leening P Liu, Manoj Mathew, Pooyan Sahbaee, Harold I Litt, Peter B Noël

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Abstract

Objectives: This study evaluates the performance of a clinical dual-source photon-counting computed tomography (PCCT) system in quantifying iodine within calcified vessels, using 3D- printed phantoms with vascular-like structures lined with calcium.

Methods: Parameters assessed include lumen diameters (4, 6, 8, 10, and 12 mm), phantom sizes (S: 20×20 cm, M: 25×25 cm, L: 30×40 cm, XL: 40×50 cm, representing the 99th percentile of US patient sizes), and iodine concentrations (2, 5, and 10 mg/mL). Scans were performed at radiation dose levels of 5, 10, 15, and 20 mGy to systematically evaluate iodine quantification accuracy and spectral imaging performance.

Results: The results indicate that for lumen diameters ≥6 mm, iodine quantification remains stable across all dose levels and phantom sizes, with deviations consistently below 0.6 mg/mL. Whereas, for 4 mm lumens, stability is observed primarily in smaller to medium phantoms, highlighting the influence of patient size and radiation dose on quantification accuracy. Virtual Monoenergetic Imaging (VMI) at 70 keV showed stable performance for larger lumens (≥6 mm) with variations of 13 ± 2 HU across all conditions, while smaller lumens remained stable in medium to small phantoms.

Conclusions: These findings highlight the influence of lumen diameter, patient size, and radiation dose in optimizing PCCT protocols for spectral imaging. Importantly, the study demonstrates that PCCT delivers stable and highly accurate imaging across nearly the entire range of patient sizes in the U.S..

Advances in knowledge: This study demonstrates PCCT's potential to enhance spectral imaging in vascular applications, surpassing conventional or Dual Energy CT.

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评价光子计数CT在心血管光谱成像中的应用：管腔大小、剂量和患者习惯的影响。

目的：本研究评估临床双源光子计数计算机断层扫描（PCCT）系统在钙化血管内定量碘的性能，使用3D打印的血管样结构与钙衬里。方法：评估的参数包括管腔直径（4,6,8,10和12mm），幻影尺寸（S: 20×20 cm, M: 25×25 cm, L: 30×40 cm, XL: 40×50 cm，代表美国患者尺寸的第99百分位）和碘浓度（2,5和10mg /mL）。在5、10、15和20 mGy的辐射剂量水平下进行扫描，以系统地评估碘定量准确性和光谱成像性能。结果：结果表明，对于管腔直径≥6 mm，碘定量在所有剂量水平和幻相大小下都保持稳定，偏差始终低于0.6 mg/mL。然而，对于4mm流明，稳定性主要在较小至中等的幻影中观察到，突出了患者尺寸和辐射剂量对定量准确性的影响。虚拟单能成像（VMI）在70 keV下对较大流明（≥6 mm）表现出稳定的性能，在所有条件下变化为13±2 HU，而较小流明在中小型幻影中保持稳定。结论：这些发现强调了管腔直径、患者大小和辐射剂量对优化光谱成像PCCT方案的影响。重要的是，该研究证明了PCCT在美国几乎所有患者大小范围内提供稳定和高度准确的成像。知识进展：该研究证明了PCCT在血管应用中增强光谱成像的潜力，超越了传统或双能CT。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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