Ultra-high resolution CT angiography for the assessment of intracranial stents and flow diverters using photon counting detector CT.

IF 4.5 1区 医学 Q1 NEUROIMAGING
Riccardo Ludovichetti, Dunja Gorup, Mikos Krepuska, Sebastian Winklhofer, Patrick Thurner, Jawid Madjidyar, Thomas Flohr, Marco Piccirelli, Lars Michels, Hatem Alkadhi, Victor Mergen, Zsolt Kulcsar, Tilman Schubert
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Abstract

Background: The patency of intracranial stents may not be reliably assessed with either CT angiography or MR angiography due to imaging artifacts. We investigated the potential of ultra-high resolution CT angiography using a photon counting detector (PCD) CT to address this limitation by optimizing scanning and reconstruction parameters.

Methods: A phantom with different flow diverters was used to optimize PCD-CT reconstruction parameters, followed by imaging of 14 patients with intracranial stents using PCD-CT. Images were reconstructed using three kernels based on the phantom results (Hv56, Hv64, and Hv72; Hv=head vascular) and one kernel to virtually match the resolution of standard CT angiography (Hv40). Signal-to-noise ratio (SNR) and contrast-to-noise ratio (CNR) measurements were calculated. Subjective image quality and diagnostic confidence (DC) were assessed using a five point visual grading scale (5=best, 1=worst) and a three point grading scale (1=best, 3=worst), respectively, by two independent neuroradiologists.

Results: Phantom images demonstrated the highest image quality across dose levels for 0.2 mm reconstructions with Hv56 (4.5), Hv64 (5), and Hv72 (5). In patient images, SNR and CNR decreased significantly with increasing kernel sharpness compared with control parameters. All reconstructions showed significantly higher image quality and DC compared with the control reconstruction with Hv40 kernel (P<0.001), with both image quality and DC being highest with Hv64 (0.2 mm) and Hv72 (0.2 mm) reconstructions.

Conclusion: Ultra-high resolution PDC-CT angiography provides excellent visualization of intracranial stents, with optimal reconstructions using the Hv64 and the Hv72 kernels at 0.2 mm.

Registration: BASEC 2021-00343.

使用光子计数探测器 CT 评估颅内支架和血流分流器的超高分辨率 CT 血管造影。
背景:由于成像伪影,颅内支架的通畅性可能无法通过 CT 血管造影或 MR 血管造影进行可靠评估。我们研究了使用光子计数探测器(PCD)CT 进行超高分辨率 CT 血管造影的潜力,通过优化扫描和重建参数来解决这一局限性:方法:使用带有不同分流装置的模型来优化 PCD-CT 重建参数,然后使用 PCD-CT 对 14 名颅内支架患者进行成像。根据模型结果,使用三个内核(Hv56、Hv64 和 Hv72;Hv=头部血管)和一个与标准 CT 血管造影分辨率基本匹配的内核(Hv40)重建图像。信噪比(SNR)和对比度-噪声比(CNR)的测量值均已计算。两位独立的神经放射学专家分别采用五点视觉分级法(5=最佳,1=最差)和三点分级法(1=最佳,3=最差)对主观图像质量和诊断信心(DC)进行了评估:Hv56(4.5)、Hv64(5)和Hv72(5)重建的0.2毫米模型图像在不同剂量水平下显示出最高的图像质量。在患者图像中,与对照参数相比,信噪比和CNR随着核仁锐利度的增加而显著下降。与使用 Hv40 内核的对照重建相比,所有重建的图像质量和直流电都明显更高(PC 结论:超高分辨率 PDC-C-high Definition PDC-C High Definition PDC-C High Definition超高分辨率 PDC-CT 血管造影为颅内支架提供了极佳的可视化效果,在 0.2 mm 时使用 Hv64 和 Hv72 内核可获得最佳重建效果:BASEC 2021-00343。
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来源期刊
CiteScore
9.50
自引率
14.60%
发文量
291
审稿时长
4-8 weeks
期刊介绍: The Journal of NeuroInterventional Surgery (JNIS) is a leading peer review journal for scientific research and literature pertaining to the field of neurointerventional surgery. The journal launch follows growing professional interest in neurointerventional techniques for the treatment of a range of neurological and vascular problems including stroke, aneurysms, brain tumors, and spinal compression.The journal is owned by SNIS and is also the official journal of the Interventional Chapter of the Australian and New Zealand Society of Neuroradiology (ANZSNR), the Canadian Interventional Neuro Group, the Hong Kong Neurological Society (HKNS) and the Neuroradiological Society of Taiwan.
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