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血管内栓塞或手术夹闭治疗脑动脉瘤的FD-CT血管造影中一种创新的金属伪影减少算法的临床评估

Clinical Evaluation of an Innovative Metal-Artifact-Reduction Algorithm in FD-CT Angiography in Cerebral Aneurysms Treated by Endovascular Coiling or Surgical Clipping.

作者信息

Eisenhut Felix, Schmidt Manuel Alexander, Kalik Alexander, Struffert Tobias, Feulner Julian, Schlaffer Sven-Martin, Manhart Michael, Doerfler Arnd, Lang Stefan

机构信息

Department of Neuroradiology, University Hospital Erlangen, Friedrich-Alexander University Erlangen-Nuremberg, Schwabachanlage 6, 91054 Erlangen, Germany.

Department of Radiology, Unfallkrankenhaus Berlin, Warener Straße 7, 12683 Berlin, Germany.

出版信息

Diagnostics (Basel). 2022 May 4;12(5):1140. doi: 10.3390/diagnostics12051140.

DOI:10.3390/diagnostics12051140
PMID:35626296
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9140112/
Abstract

Treated cerebral aneurysms (IA) require follow-up imaging to ensure occlusion. Metal artifacts complicate radiologic assessment. Our aim was to evaluate an innovative metal-artifact-reduction (iMAR) algorithm for flat-detector computed tomography angiography (FD-CTA) regarding image quality (IQ) and detection of aneurysm residua/reperfusion in comparison to 2D digital subtraction angiography (DSA). Patients with IAs treated by endovascular coiling or clipping underwent both FD-CTA and DSA. FD-CTA datasets were postprocessed with/without iMAR algorithm (MAR+/MAR−). Evaluation of all FD-CTA and DSA datasets regarding qualitative (IQ, MAR) and quantitative (coil package diameter/CPD) parameters was performed. Aneurysm occlusion was assessed for each dataset and compared to DSA findings. In total, 40 IAs were analyzed (ncoiling = 24; nclipping = 16). All iMAR+ datasets demonstrated significantly better IQ (pIQ coiling < 0.0001; pIQ clipping < 0.0001). iMAR significantly reduced the metal-artifact burden but did not affect the CPD. iMAR significantly improved the detection of aneurysm residua/reperfusion with excellent agreement with DSA (naneurysm detection MAR+/MAR−/DSA = 22/1/26). The iMAR algorithm significantly improves IQ by effective reduction of metal artifacts in FD-CTA datasets. The proposed algorithm enables reliable detection of aneurysm residua/reperfusion with good agreement to DSA. Thus, iMAR can help to reduce the need for invasive follow-up in treated IAs.

摘要

已治疗的颅内动脉瘤(IA)需要进行随访成像以确保闭塞。金属伪影使放射学评估变得复杂。我们的目的是评估一种用于平板探测器计算机断层血管造影(FD-CTA)的创新金属伪影减少(iMAR)算法在图像质量(IQ)以及与二维数字减影血管造影(DSA)相比检测动脉瘤残留/再灌注方面的效果。接受血管内栓塞或夹闭治疗的IA患者同时接受了FD-CTA和DSA检查。FD-CTA数据集使用/不使用iMAR算法进行后处理(MAR+/MAR−)。对所有FD-CTA和DSA数据集进行定性(IQ、MAR)和定量(线圈包直径/CPD)参数评估。评估每个数据集的动脉瘤闭塞情况并与DSA结果进行比较。总共分析了40个IA(栓塞24个;夹闭16个)。所有iMAR+数据集的IQ均显著更好(栓塞时pIQ<0.0001;夹闭时pIQ<0.0001)。iMAR显著减轻了金属伪影负担,但不影响CPD。iMAR显著改善了动脉瘤残留/再灌注的检测,与DSA具有极好的一致性(动脉瘤检测MAR+/MAR−/DSA分别为22/1/26)。iMAR算法通过有效减少FD-CTA数据集中的金属伪影显著提高了IQ。所提出的算法能够可靠地检测动脉瘤残留/再灌注,与DSA具有良好的一致性。因此,iMAR有助于减少已治疗IA患者的侵入性随访需求。

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