7 T 下颅内血管的飞行时间 MRA。

IF 3.7 Q1 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING
Mirco Cosottini, Tommaso Calzoni, Guido Andrea Lazzarotti, Alessandro Grigolini, Paolo Bosco, Paolo Cecchi, Michela Tosetti, Laura Biagi, Graziella Donatelli
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引用次数: 0

摘要

背景:三维飞行时间磁共振血管成像(TOF-MRA)是评估脑血管疾病的一种广泛采用的无创技术。我们的目的是优化 7-T TOF-MRA 采集方案,证实它优于传统的 3-T TOF-MRA,并比较 7-T TOF-MRA 与数字减影血管造影术(DSA)在不同血管病变患者中的应用:方法:将四名健康受试者获得的不同空间分辨率的七特斯拉 TOF-MRA 序列与 3-T TOF-MRA 的信噪比和对比度与信噪比进行比较,并使用血管可见度定性标度和 Canny 定量算法进行比较。四名脑血管疾病患者(中枢神经系统原发性动脉炎、囊状动脉瘤、动静脉畸形和硬脑膜动静脉瘘)接受了优化的 7-T TOF-MRA 和 DSA 作为参考。通过视觉和复小波结构相似性指数对图像进行比较:结果:7 T(4.5 ± 0.8(平均值 ± 标准偏差))对比噪比高于 3 T(2.7 ± 0.9)。所有颅内血管的平均质量评分在 7 T(2.89)时高于 3 T(2.28)。血管造影质量显示,7 T 比 3 T(44,166 像素比 28,720 像素)更能检测到血管边界。在 DSA 上用于诊断脑血管疾病的 32 个参数中,有 27 个(84%)在 7 T TOF-MRA 上被检测到;相似指数从 0.52(硬脑膜动静脉瘘)到 0.90(囊状动脉瘤)不等:结论:在评估颅内血管方面,七特斯拉TOF-MRA优于传统的3-T TOF-MRA,与DSA相比,七特斯拉TOF-MRA显示出卓越的图像质量。七特斯拉 TOF-MRA 可能会改善多种脑血管疾病的无创诊断方法:优化的 7 T TOF-MRA 序列优于 3 T TOF-MRA,为临床应用于颅内血管典型病变的无创诊断开辟了前景:- 要点:为评估颅内血管,选择了优化的 7-T TOF-MRA 方案与临床 3-T TOF-MRA 进行比较。- 七特斯拉 TOF-MRA 在定量和定性评估方面均优于 3-T TOF-MRA。- 在诊断和描述颅内血管病变方面,七特斯拉 TOF-MRA 可与 DSA 相媲美。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Time-of-flight MRA of intracranial vessels at 7 T.

Time-of-flight MRA of intracranial vessels at 7 T.

Background: Three-dimensional time-of-flight magnetic resonance angiography (TOF-MRA) is a largely adopted non-invasive technique for assessing cerebrovascular diseases. We aimed to optimize the 7-T TOF-MRA acquisition protocol, confirm that it outperforms conventional 3-T TOF-MRA, and compare 7-T TOF-MRA with digital subtraction angiography (DSA) in patients with different vascular pathologies.

Methods: Seven-tesla TOF-MRA sequences with different spatial resolutions acquired in four healthy subjects were compared with 3-T TOF-MRA for signal-to-noise and contrast-to-noise ratios as well as using a qualitative scale for vessel visibility and the quantitative Canny algorithm. Four patients with cerebrovascular disease (primary arteritis of the central nervous system, saccular aneurism, arteriovenous malformation, and dural arteriovenous fistula) underwent optimized 7-T TOF-MRA and DSA as reference. Images were compared visually and using the complex-wavelet structural similarity index.

Results: Contrast-to-noise ratio was higher at 7 T (4.5 ± 0.8 (mean ± standard deviation)) than at 3 T (2.7 ± 0.9). The mean quality score for all intracranial vessels was higher at 7 T (2.89) than at 3 T (2.28). Angiogram quality demonstrated a better vessel border detection at 7 T than at 3 T (44,166 versus 28,720 pixels). Of 32 parameters used for diagnosing cerebrovascular diseases on DSA, 27 (84%) were detected on 7-T TOF-MRA; the similarity index ranged from 0.52 (dural arteriovenous fistula) to 0.90 (saccular aneurysm).

Conclusions: Seven-tesla TOF-MRA outperformed conventional 3-T TOF-MRA in evaluating intracranial vessels and exhibited an excellent image quality when compared to DSA. Seven-tesla TOF-MRA might improve the non-invasive diagnostic approach to several cerebrovascular diseases.

Relevance statement: An optimized TOF-MRA sequence at 7 T outperforms 3-T TOF-MRA, opening perspectives to its clinical use for noninvasive diagnosis of paradigmatic pathologies of intracranial vessels.

Key points: • An optimized 7-T TOF-MRA protocol was selected for comparison with clinical 3-T TOF-MRA for assessing intracranial vessels. • Seven-tesla TOF-MRA outperformed 3-T TOF-MRA in both quantitative and qualitative evaluation. • Seven-tesla TOF-MRA is comparable to DSA for the diagnosis and characterization of intracranial vascular pathologies.

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来源期刊
European Radiology Experimental
European Radiology Experimental Medicine-Radiology, Nuclear Medicine and Imaging
CiteScore
6.70
自引率
2.60%
发文量
56
审稿时长
18 weeks
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