Ultra-High-Resolution and K-Edge Imaging of Prosthetic Heart Valves With Spectral Photon-Counting CT: A Phantom Study.

IF 7 1区 医学 Q1 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING Investigative Radiology Pub Date : 2024-08-01 Epub Date: 2024-01-27 DOI:10.1097/RLI.0000000000001068
Sara Boccalini, Charles Mayard, Hugo Lacombe, Marjorie Villien, Salim Si-Mohamed, François Delahaye, Loic Boussel, Ricardo P J Budde, Matteo Pozzi, Philippe Douek
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Abstract

Background and purpose: The contribution of cardiac computed tomography (CT) for the detection and characterization of prosthetic heart valve (PHV) complications is still limited due mainly to artifacts. Computed tomography systems equipped with photon-counting detectors (PCDs) have the potential to overcome these limitations. Therefore, the aim of the study was to compare image quality of PHV with PCD-CT and dual-energy dual-layer CT (DEDL-CT).

Materials and methods: Two metallic and 3 biological PHVs were placed in a tube containing diluted iodinated contrast inside a thoracic phantom and scanned repeatedly at different angles on a DEDL-CT and PCD-CT. Two small lesions (~2 mm thickness; containing muscle and fat, respectively) were attached to the structure of 4 valves, placed inside the thoracic phantom, with and without an extension ring, and scanned again. Acquisition parameters were matched for the 2 CT systems and used for all scans. Metallic valves were scanned again with parameters adapted for tungsten K-edge imaging. For all valves, different metallic parts were measured on conventional images to assess their thickness and blooming artifacts. In addition, 6 parallelepipeds per metallic valve were drawn, and all voxels with density <3 times the standard deviation of the contrast media were recorded as an estimate of streak artifacts. For subjective analysis, 3 expert readers assessed conventional images of the valves, with and without lesions, and tungsten K-edge images. Conspicuity and sharpness of the different parts of the valve, the lesions, metallic, and blooming artifacts were scored on a 4-point scale. Measurements and scores were compared with the paired t test or Wilcoxon test.

Results: The objective analysis showed that, with PCD-CT, valvular metallic structures were thinner and presented less blooming artifacts. Metallic artifacts were also reduced with PCD-CT (11 [interquartile (IQ) = 6] vs 40 [IQ = 13] % of voxels). Subjective analysis allowed noticing that some structures were visible or clearly visible only with PCD-CT. In addition, PCD-CT yielded better scores for the conspicuity and for the sharpness of all structures (all P s < 0.006), except for the conspicuity of the leaflets of the mechanical valves, which were well visible with either technique (4 [IQ = 3] for both). Both blooming and streak artifacts were reduced with PCD-CT ( P ≤ 0.01). Overall, the use of PCD-CT resulted in better conspicuity and sharpness of the lesions compared with DEDL-CT (both P s < 0.02). In addition, only with PCD-CT some differences between the 2 lesions were detectable. Adding the extension ring resulted in reduced conspicuity and sharpness with DEDL-CT ( P = 0.04 and P = 0.02, respectively) and only in reduced sharpness with PCD-CT ( P = 0.04). Tungsten K-edge imaging allowed for the visualization of the only dense structure containing it, the leaflets, and it resulted in images judged having less blooming and metallic artifacts as compared with conventional PCD-CT images ( P < 0.01).

Conclusions: With PCD-CT, objective and subjective image quality of metallic and biological PHVs is improved compared with DEDL-CT. Notwithstanding the improvements in image quality, millimetric lesions attached to the structure of the valves remain a challenge for PCD-CT. Tungsten K-edge imaging allows for even further reduction of artifacts.

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利用光谱光子计数 CT 对人工心脏瓣膜进行超高分辨率和 K 边缘成像:一项模型研究。
背景和目的:心脏计算机断层扫描(CT)对人工心脏瓣膜(PHV)并发症的检测和定性所起的作用仍然有限,这主要是由于伪影造成的。配备光子计数探测器(PCD)的计算机断层扫描系统有可能克服这些局限性。因此,本研究旨在比较 PCD-CT 和双能双层 CT(DEDL-CT)对 PHV 的成像质量:将 2 个金属 PHV 和 3 个生物 PHV 放入一个装有稀释碘造影剂的管道中,置于胸腔模型内,在 DEDL-CT 和 PCD-CT 上以不同角度反复扫描。在 4 个瓣膜的结构上附着两个小病灶(厚度约为 2 毫米;分别含有肌肉和脂肪),将其放置在胸腔模型内,分别使用和不使用扩展环,并再次扫描。两个 CT 系统的采集参数相匹配,并用于所有扫描。再次对金属瓣膜进行扫描时,使用了钨 K 边成像的参数。对所有瓣膜的不同金属部分都在常规图像上进行了测量,以评估其厚度和发花伪影。此外,还为每个金属瓣膜绘制了 6 个平行管,并对所有具有密度的体素进行了结果分析:客观分析表明,使用 PCD-CT 时,瓣膜金属结构更薄,模糊伪影更少。PCD-CT 还减少了金属伪影(11 [四分位间(IQ)= 6] 对 40 [IQ = 13] % 的体素)。通过主观分析可以发现,一些结构只有在 PCD-CT 中才能看到或清晰可见。此外,PCD-CT 在所有结构的清晰度和锐利度方面的得分都更高(Ps 均<0.006),但机械瓣膜瓣叶的清晰度除外,两种技术都能很好地显示机械瓣膜瓣叶(均为 4 [IQ = 3])。PCD-CT 可减少花纹和条纹伪影(P ≤ 0.01)。总体而言,与 DEDL-CT 相比,使用 PCD-CT 能使病灶更清晰、更锐利(Ps 均小于 0.02)。此外,只有 PCD-CT 才能检测出两种病变之间的一些差异。与 DEDL-CT 相比,添加扩展环会降低病变的清晰度和锐利度(分别为 P = 0.04 和 P = 0.02),而与 PCD-CT 相比,仅会降低锐利度(P = 0.04)。与传统的 PCD-CT 图像相比,钨 K-edge 成像可观察到唯一包含钨 K-edge 的致密结构--瓣叶,且图像的花纹和金属伪影较少(P < 0.01):与 DEDL-CT 相比,PCD-CT 提高了金属和生物 PHV 的客观和主观图像质量。尽管图像质量有所改善,但附着在瓣膜结构上的毫米级病变仍然是 PCD-CT 面临的挑战。钨K边成像可进一步减少伪影。
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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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