Axial Magnetic Resonance Angiography in Evaluating Revascularization after Indirect Bypass Surgery for Moyamoya Axial Magnetic Resonance Angiography after Indirect Bypass.

IF 0.9 4区 医学 Q4 CLINICAL NEUROLOGY
Pediatric Neurosurgery Pub Date : 2024-01-01 Epub Date: 2024-04-29 DOI:10.1159/000539098
Rasha G Elbadry, Ilana Neuberger, Megan V Ryan, John A Maloney, Avra Laarakker, Sarah Graber, Timothy Bernard, Emily Cooper, Caitlin Ritz, C Corbett Wilkinson
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引用次数: 0

Abstract

Introduction: At our institution, revascularization after indirect moyamoya surgery is routinely evaluated using magnetic resonance angiography (MRA) rather than catheter angiography. In this paper, we review how revascularization can be visualized on axial MRA and compare its visualization on MRA to that on catheter angiography. We also compare clinical outcomes of patients followed with routine postoperative MRA with outcomes of patients followed with routine catheter angiography.

Methods: We retrospectively reviewed the records of all patients treated at our institution who underwent unilateral encephaloduroarteriosynangiosis (EDAS) and/or pial synangiosis between the ages of 1 and 21 years and between December 31, 2003, and May 1, 2021. We included patients who underwent EDAS/pial synangiosis at other hospitals as long as they met all inclusion criteria. Inclusion criteria included having a preoperative MRA within 18 months of surgery and a postoperative MRA 3-30 months after surgery. Clinical outcomes included development of postoperative stroke and transient ischemic attacks (TIAs) and changes in symptoms (improved, unchanged, or worsened), including seizures, balance issues, and headaches. Clinical outcomes were compared between patients who had routine postoperative MRA only versus those who had routine postoperative angiograms, with or without routine MRA. For each surgery, we determined the ratios of the diameters and areas of the donor vessel and the contralateral corresponding vessel, as well as the relative signal intensities of these two vessels, on preoperative and 3- to 30-month postoperative MRA. We did the same for the middle meningeal artery (MMA) ipsilateral to the donor artery and the contralateral MMA. We assessed changes from pre- to post-operation in diameter ratios, area ratios, relative signal intensity, ivy sign, and in brain perfusion on arterial spin labeled (ASL) imaging. MRI and MRA measures of revascularization and flow were compared to Matsushima grades in patients who had postoperative catheter angiograms.

Results: Fifty-one operations for 42 unique patients were included. There were no significant differences in the rates of postoperative strokes, postoperative TIAs, changes in symptoms, or new symptoms after surgeries evaluated by routine postoperative MRA versus catheter angiogram (p = 0.282, 1, 0.664, and 0.727, respectively). There were significant associations between greater collateralization on postoperative MRA and greater median increases in preoperative-to-postoperative ratios of donor-vessel-over-contralateral-vessel diameter (p = 0.0461), ipsilateral-MMA-over-contralateral-MMA diameter (p = 0.0135), and the summed donor and ipsilateral MMA diameters over the summed contralateral vessel diameters (p < 0.001). The median increase in the ratio of the donor vessel and contralateral corresponding vessel diameters was significantly higher for Matsushima grade A versus B (p = 0.036). The median increase in the ratio of the sum of donor and ipsilateral MMA diameters over the sum of the contralateral vessel diameters was significantly higher for improved-versus-unchanged perfusion on ASL imaging (p = 0.0074). There was a nonsignificant association between greater postoperative collateralization on MRA and Matsushima grade (p = 0.1160).

Conclusion: Cerebral revascularization after EDAS and pial synangiosis can be evaluated on axial MRA by comparing the diameter and/or signal intensity of the donor vessel and corresponding contralateral vessel, as well as the ipsilateral and contralateral MMA, on postoperative-versus-preoperative MRA. The use of routine postoperative MRA rather than catheter angiography does not appear to negatively affect outcomes.

轴向 MR 血管造影术在评估 Moyamoya 间接搭桥手术后的血管再通情况中的应用。
导言:在我院,间接莫亚莫亚手术后的血管再通情况常规采用磁共振血管造影术(MRA)而非导管血管造影术进行评估。本研究回顾了轴向 MRA 与导管血管造影对血管再通的可视化方式,并比较了术后常规 MRA 与常规导管血管造影评估的手术临床结果:我们回顾了本院 2004-2021 年收治的所有 1-21 岁单侧脑室动静脉畸形 (EDAS) / 椎间隙动静脉畸形患者的病历。纳入标准包括术前 18 个月内接受 MRA,术后 3 至 30 个月接受 MRA。临床结局指标包括术后中风和短暂性脑缺血发作(TIAs)、症状变化(改善、不变、恶化)和术后新症状。我们对术后常规 MRA 与术后常规血管造影评估的手术进行了比较。对于每例手术,我们都确定了供体和对侧相应血管的直径和面积之比,以及术前和术后 3-30 个月 MRA 上这两条血管的相对信号强度。我们还对供体动脉同侧的脑膜中动脉 (MMA) 和对侧 MMA 进行了同样的检查。我们评估了动脉自旋标记 (ASL) 成像中直径比、面积比、相对信号强度、常春藤征和脑灌注从术前到术后的变化。将 MRI 和 MRA 测量的血管再通和血流情况与术后导管血管造影患者的松岛分级进行比较:结果:共纳入 51 例手术。术后常规 MRA 与导管血管造影评估的术后中风、TIA、病情变化或新症状发生率无明显差异。术后 MRA 显示的侧支增加与供体血管与对侧血管直径之比(p=0.0461)和同侧-MMA 与对侧-MMA 直径之比(p=0.0135)的术前与术后中位数增加之间存在显著关联。松岛 A 级与 B 级相比,供体血管与对应对侧血管直径之比增加的中位数明显更高(p=0.036)。在 ASL 成像中,供体和同侧-MMA 血管直径之和与对侧血管直径之和之比的中位数增加值在灌注改善与灌注未改变之间明显更高(p=0.0074)。MRA 上术后侧支增加与松岛分级之间的关系不显著(p=0.1160):通过比较供体血管和同侧 MMA 的直径和/或信号强度,以及术后与术前 MRA 上相应对侧血管的直径和/或信号强度,可以在轴向 MRA 上评估 EDAS/桡动脉合血管术后的脑血管再通情况。术后常规使用 MRA 而非导管血管造影似乎不会对预后产生负面影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Pediatric Neurosurgery
Pediatric Neurosurgery 医学-临床神经学
CiteScore
1.30
自引率
0.00%
发文量
45
审稿时长
>12 weeks
期刊介绍: Articles in ''Pediatric Neurosurgery'' strives to publish new information and observations in pediatric neurosurgery and the allied fields of neurology, neuroradiology and neuropathology as they relate to the etiology of neurologic diseases and the operative care of affected patients. In addition to experimental and clinical studies, the journal presents critical reviews which provide the reader with an update on selected topics as well as case histories and reports on advances in methodology and technique. This thought-provoking focus encourages dissemination of information from neurosurgeons and neuroscientists around the world that will be of interest to clinicians and researchers concerned with pediatric, congenital, and developmental diseases of the nervous system.
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