小儿光子计数 CT 的最佳光谱性能:研究光谱人体成像中基于模型大小的 kV 选择。

IF 7 1区 医学 Q1 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING Investigative Radiology Pub Date : 2024-08-20 DOI:10.1097/RLI.0000000000001119
Wei Zhou, Afrouz Ataei, Donglai Huo, Liqiang Ren, Lorna P Browne, Xin Zhou, Jason P Weinman
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引用次数: 0

摘要

目的:目前尚未对光子计数计算机断层扫描(PCCT)的 kV 选择进行全面评估。本研究旨在评估和确定 PCCT 设备上不同儿童体型的最佳 kV 选择:在这项研究中,使用了 4 个不同大小的模型,分别代表新生儿、5 岁、10 岁和成年儿科病人的腹部。将已知浓度(2、5、10 和 15 毫克碘/毫升)的 1 个固体水和 4 个固体碘插入模型中。每个模型均在 PCCT 系统(西门子 Alpha)上扫描,该系统有 4 个千伏选择(量子模式下为 70 和 90 千伏,量子增强模式下为 120 和 140 千伏)和临床双源(3.0 间距)协议。对于每种模型设置,辐射剂量(CTDIvol)都是根据临床剂量设置确定的,并与所有 kV 采集相匹配。还采集了 60% 的临床剂量图像。所有采集的重建均使用 Qr40 内核和 QIR 3 级进行匹配。扫描仪上生成的虚拟单能量图像(VMI)介于 40 和 80 keV 之间,间隔为 10 keV。从每次扫描中重建低能和高能图像,然后使用基于图像的双材料分解法生成碘图(IM)。计算每次千伏采集的 VMI 图像噪声,并在不同千伏选项之间进行比较。计算并比较了 VMI 中碘 CT 编号准确性的绝对百分比误差 (APE)。比较了不同 kV 选项中 IM 的均方根误差 (RMSE) 和碘定量偏差:在新生儿大小和 50 keV VMI 条件下,低 kV 采集(70 kV:10.5 HU,90 kV:10.4 HU)与高 kV 采集(120 kV:13.8 HU,140 kV:13.9 HU)相比,噪声更低。在新生儿大小和 70 千伏 VMI 的情况下,不同千伏选项的图像噪声相当(70 千伏:9.4 HU;90 千伏:8.9 HU;120 千伏:9.7 HU;140 千伏:10.2 HU)。就 VMI 的 APE 而言,高千伏(120 或 140 千伏)的总体表现优于低千伏(70 或 90 千伏)。在 5 岁儿童中,90 千伏的 APE(中位数:3.6%)明显高于 140 千伏(中位数:1.6%)(P < 0.001,Kruskal-Wallis 秩和检验,Bonferroni 校正)。成年体型时,70 千伏(中位数:18.0%)的 APE 明显高于 120 千伏(中位数:1.4%)或 140 千伏(中位数:0.8%)(P < 0.0001,Kruskal-Wallis 秩和检验,Bonferroni 校正)。在所有控制条件下,高千伏值的均方根误差和偏差也低于低千伏值。在 10 岁时,120 千伏的有效值和偏差分别为 1.4 和 0.2 毫克 I/毫升,而 70 千伏的有效值和偏差分别为 1.9 和 0.8 毫克 I/毫升:结论:就 VMI 和 IM 的图像质量而言,PCCT 设备上的高千伏选项(120 或 140 千伏)比低千伏选项(70 或 90 千伏)表现出更好的整体性能。我们的结果建议在 PCCT 上使用高千伏进行全身成像。
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Optimal Spectral Performance on Pediatric Photon-Counting CT: Investigating Phantom-Based Size-Dependent kV Selection for Spectral Body Imaging.

Purpose: The comprehensive evaluation of kV selection on photon-counting computed tomography (PCCT) has yet to be performed. The aim of the study is to evaluate and determine the optimal kV options for variable pediatric body sizes on the PCCT unit.

Materials and methods: In this study, 4 phantoms of variable sizes were utilized to represent abdomens of newborn, 5-year-old, 10-year-old, and adult-sized pediatric patients. One solid water and 4 solid iodine inserts with known concentrations (2, 5, 10, and 15 mg I/mL) were inserted into phantoms. Each phantom setting was scanned on a PCCT system (Siemens Alpha) with 4 kV options (70 and 90 kV under Quantum Mode, 120 and 140 kV under QuantumPlus Mode) and clinical dual-source (3.0 pitch) protocol. For each phantom setting, radiation dose (CTDIvol) was determined by clinical dose settings and matched for all kV acquisitions. Sixty percent clinical dose images were also acquired. Reconstruction was matched across all acquisitions using Qr40 kernel and QIR level 3. Virtual monoenergetic images (VMIs) between 40 and 80 keV with 10 keV interval were generated on the scanner. Low-energy and high-energy images were reconstructed from each scan and subsequently used to generate an iodine map (IM) using an image-based 2-material decomposition method. Image noise of VMIs from each kV acquisition was calculated and compared between kV options. Absolute percent error (APE) of iodine CT number accuracy in VMIs was calculated and compared. Root mean square error (RMSE) and bias of iodine quantification from IMs were compared across kV options.

Results: At the newborn size and 50 keV VMI, noise is lower at low kV acquisitions (70 kV: 10.5 HU, 90 kV: 10.4 HU), compared with high kV acquisitions (120 kV: 13.8 HU, 140 kV: 13.9 HU). At the newborn size and 70 keV VMI, the image noise from different kV options is comparable (9.4 HU for 70 kV, 8.9 HU for 90 kV, 9.7 HU for 120 kV, 10.2 HU for 140 kV). For APE of VMI, high kV (120 or 140 kV) performed overall better than low kV (70 or 90 kV). At the 5-year-old size, APE of 90 kV (median: 3.6%) is significantly higher (P < 0.001, Kruskal-Wallis rank sum test with Bonferroni correction) than 140 kV (median: 1.6%). At adult size, APE of 70 kV (median: 18.0%) is significantly higher (P < 0.0001, Kruskal-Wallis rank sum test with Bonferroni correction) than 120 kV (median: 1.4%) or 140 kV (median: 0.8%). The high kV also demonstrated lower RMSE and bias than the low kV across all controlled conditions. At 10-year-old size, RMSE and bias of 120 kV are 1.4 and 0.2 mg I/mL, whereas those from 70 kV are 1.9 and 0.8 mg I/mL.

Conclusions: The high kV options (120 or 140 kV) on the PCCT unit demonstrated overall better performance than the low kV options (70 or 90 kV), in terms of image quality of VMIs and IMs. Our results recommend the use of high kV for general body imaging on the PCCT.

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来源期刊
Investigative Radiology
Investigative Radiology 医学-核医学
CiteScore
15.10
自引率
16.40%
发文量
188
审稿时长
4-8 weeks
期刊介绍: Investigative Radiology publishes original, peer-reviewed reports on clinical and laboratory investigations in diagnostic imaging, the diagnostic use of radioactive isotopes, computed tomography, positron emission tomography, magnetic resonance imaging, ultrasound, digital subtraction angiography, and related modalities. Emphasis is on early and timely publication. Primarily research-oriented, the journal also includes a wide variety of features of interest to clinical radiologists.
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