Cerebroventricular deformation and vector mapping, a topographic visualizer for surgical interventions in pediatric hydrocephalus.

IF 2.1 3区 医学 Q3 CLINICAL NEUROLOGY
Journal of neurosurgery. Pediatrics Pub Date : 2024-08-23 Print Date: 2024-11-01 DOI:10.3171/2024.6.PEDS24117
Kristen W Yeom, Michael Zhang, Edward H Lee, Allison K Duh, Shannon J Beres, Laura M Prolo, Robert M Lober, Heather E Moss, Michael E Moseley, Nils D Forkert, Matthias Wilms, Gerald A Grant
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引用次数: 0

Abstract

Objective: Hydrocephalus is a challenging neurosurgical condition due to nonspecific symptoms and complex brain-fluid pressure dynamics. Typically, the assessment of hydrocephalus in children requires radiographic or invasive pressure monitoring. There is usually a qualitative focus on the ventricular spaces even though stress and shear forces extend across the brain. Here, the authors present an MRI-based vector approach for voxelwise brain and ventricular deformation visualization and analysis.

Methods: Twenty pediatric patients (mean age 7.7 years, range 6 months-18 years; 14 males) with acute, newly diagnosed hydrocephalus requiring surgical intervention for symptomatic relief were randomly identified after retrospective chart review. Selection criteria included acquisition of both pre- and posttherapy paired 3D T1-weighted volumetric MRI (3D T1-MRI) performed on 3T MRI systems. Both pre- and posttherapy 3D T1-MRI pairs were aligned using image registration, and subsequently, voxelwise nonlinear transformations were performed to derive two exemplary visualizations of compliance: 1) a whole-brain vector map projecting the resulting deformation field on baseline axial imaging; and 2) a 3D heat map projecting the volumetric changes along ventricular boundaries and the brain periphery.

Results: The patients underwent the following interventions for treatment of hydrocephalus: endoscopic third ventriculostomy (n = 6); external ventricular drain placement and/or tumor resection (n = 10); or ventriculoperitoneal shunt placement (n = 4). The mean time between pre- and postoperative imaging was 36.5 days. Following intervention, the ventricular volumes decreased significantly (mean pre- and posttherapy volumes of 151.9 cm3 and 82.0 cm3, respectively; p < 0.001, paired t-test). The largest degree of deformation vector changes occurred along the lateral ventricular spaces, relative to the genu and splenium. There was a significant correlation between change in deformation vector magnitudes within the cortical layer and age (p = 0.011, Pearson), as well as between the ventricle size and age (p = 0.014, Pearson), suggesting higher compliance among infants and younger children.

Conclusions: This study highlights an approach for deformation analysis and vector mapping that may serve as a topographic visualizer for therapeutic interventions in patients with hydrocephalus. A future study that correlates the degree of cerebroventricular deformation or compliance with intracranial pressures could clarify the potential role of this technique in noninvasive pressure monitoring or in cases of noncompliant ventricles.

脑室变形和矢量绘图,小儿脑积水手术干预的地形可视化工具。
目的:脑积水是一种具有挑战性的神经外科疾病,因为它具有非特异性症状和复杂的脑液压力动态变化。通常情况下,评估儿童脑积水需要进行放射成像或有创压力监测。尽管应力和剪切力遍及整个大脑,但其定性重点通常是脑室空间。在此,作者介绍了一种基于核磁共振成像的矢量方法,用于体素脑和脑室变形的可视化和分析:经过回顾性病历审查,随机确定了 20 名新诊断为急性脑积水的儿科患者(平均年龄 7.7 岁,6 个月至 18 岁;14 名男性),这些患者需要通过手术治疗来缓解症状。选择标准包括在 3T 磁共振成像系统上采集治疗前和治疗后的成对三维 T1 加权容积磁共振成像(3D T1-MRI)。治疗前和治疗后的三维 T1-MRI 成对图像通过图像配准进行对齐,然后进行体素非线性变换,以获得两种可视化的顺应性示例:1)全脑矢量图,将由此产生的形变场投射到基线轴向成像上;2)三维热图,投射沿脑室边界和大脑外围的容积变化:患者接受了以下脑积水干预治疗:内镜下第三脑室造口术(6例);脑室外引流管置入术和/或肿瘤切除术(10例);或脑室腹腔分流术(4例)。术前和术后成像的平均间隔时间为 36.5 天。介入治疗后,脑室容积明显缩小(治疗前和治疗后的平均容积分别为 151.9 立方厘米和 82.0 立方厘米;P < 0.001,配对 t 检验)。相对于茎突和脾脏,侧脑室间隙的变形矢量变化程度最大。皮质层内的变形矢量大小变化与年龄(P = 0.011,Pearson)以及脑室大小与年龄(P = 0.014,Pearson)之间存在明显的相关性,这表明婴幼儿的顺应性更高:本研究强调了一种变形分析和矢量绘图方法,可作为地形图可视化工具对脑积水患者进行治疗干预。未来的研究如果能将脑室变形或顺应性程度与颅内压联系起来,就能明确该技术在无创压力监测或不顺应性脑室病例中的潜在作用。
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来源期刊
Journal of neurosurgery. Pediatrics
Journal of neurosurgery. Pediatrics 医学-临床神经学
CiteScore
3.40
自引率
10.50%
发文量
307
审稿时长
2 months
期刊介绍: Information not localiced
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