Spatial Distribution of Meningiomas: A Magnetic Resonance Image Atlas.

IF 3.9 2区医学 Q1 CLINICAL NEUROLOGY

Neurosurgery Pub Date : 2025-04-01 Epub Date: 2024-08-28 DOI:10.1227/neu.0000000000003149

Ruchit V Patel, Shun Yao, Efrain Aguilar Murillo, Raymond Y Huang, Wenya Linda Bi

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Abstract

Background and objectives: The size and anatomic location of meningiomas have been shown to correlate with distinct clinical manifestations, histopathological subtypes, and surgical risk. However, meningioma anatomic origin sites can be obscured in large tumors and those crossing compartments. We therefore sought to apply unbiased lesion mapping to localize intracranial meningioma distributions and their association with biology and grade.

Methods: MRI scans, World Health Organization (WHO) grade, and a molecularly Integrated Grade (IG) derived from cytogenetics were analyzed from adult patients with intracranial meningiomas. Semi-automated tumor segmentation was performed on T1-weighted contrast-enhanced MRI. We used the voxel-based lesion mapping technique to generate a meningioma atlas, mapping spatial frequency and correlating with tumor grades.

Results: Of 881 patients with meningioma (median age: 57 years, 68.8% female), 589 were WHO grade 1 (66.8%), 265 WHO grade 2 (30.1%), and 27 WHO grade 3 (3.1%) with a median tumor volume of 14.6 cm 3 . After molecular reclassification, 585 were IG-1 (66.4%), 160 IG-2 (18.2%), and 136 IG-3 (15.4%). Benign tumors were concentrated in and around the midline anterior skull base while malignant meningiomas were enriched in the falcine/parasagittal region and the sphenoid wing, similar to the distribution when stratified by chromosome 1p loss. Meningiomas exhibited sharper spatial clustering when stratified by the molecular IG than by WHO grade. WHO grade 2 meningiomas divided equally across IG 1-3, with corresponding partition of spatial distribution in the midline anterior skull base (in WHO grade 2, IG-1) and falcine/parasagittal and sphenoid regions (WHO grade 2, IG-3). Meningioma volumes significantly varied across age, sex, and WHO/IG grades.

Conclusion: We demonstrate the utility of voxel-based lesion mapping for intracranial tumors, characterizing distinct meningioma distribution patterns across histopathological and molecularly defined grades. Molecular grading associated with sharper tumor spatial clusters, supporting a phenotype-genotype association in meningiomas.

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脑膜瘤的空间分布：磁共振图像图谱》。

背景和目的：脑膜瘤的大小和解剖位置已被证明与不同的临床表现、组织病理学亚型和手术风险相关。然而，脑膜瘤的解剖起源部位在大肿瘤和跨区肿瘤中可能不明显。因此，我们试图应用无偏见的病灶图来定位颅内脑膜瘤的分布及其与生物学和分级的关系：方法：我们对颅内脑膜瘤成年患者的核磁共振扫描、世界卫生组织（WHO）分级以及细胞遗传学得出的分子综合分级（IG）进行了分析。在 T1 加权对比增强 MRI 上进行了半自动肿瘤分割。我们使用基于体素的病灶映射技术生成脑膜瘤图谱，映射空间频率并与肿瘤分级相关联：在 881 例脑膜瘤患者（中位年龄：57 岁，68.8% 为女性）中，589 例为 WHO 1 级（66.8%），265 例为 WHO 2 级（30.1%），27 例为 WHO 3 级（3.1%），中位肿瘤体积为 14.6 立方厘米。经过分子重新分类，585 例为 IG-1（66.4%），160 例为 IG-2（18.2%），136 例为 IG-3（15.4%）。良性肿瘤主要集中在前颅底中线及其周围，而恶性脑膜瘤主要集中在镰状/副矢状体区域和蝶骨翼，这与根据染色体 1p 缺失进行分层时的分布情况相似。按分子 IG 分层时，脑膜瘤的空间聚类比按 WHO 分级时更明显。WHO2级脑膜瘤在IG1-3中平均分布，在中线前颅底（WHO2级，IG-1）和镰刀形/副矢状面和蝶骨区（WHO2级，IG-3）有相应的空间分布分区。不同年龄、性别和 WHO/IG 分级的脑膜瘤体积差异很大：我们展示了基于体素的颅内肿瘤病灶图谱的实用性，描述了不同组织病理学和分子定义分级的脑膜瘤分布模式。分子分级与更清晰的肿瘤空间集群相关，支持脑膜瘤的表型-基因型关联。

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

Neurosurgery 医学-临床神经学

CiteScore

8.20

自引率

6.20%

发文量

898

审稿时长

2-4 weeks

期刊介绍： Neurosurgery, the official journal of the Congress of Neurological Surgeons, publishes research on clinical and experimental neurosurgery covering the very latest developments in science, technology, and medicine. For professionals aware of the rapid pace of developments in the field, this journal is nothing short of indispensable as the most complete window on the contemporary field of neurosurgery. Neurosurgery is the fastest-growing journal in the field, with a worldwide reputation for reliable coverage delivered with a fresh and dynamic outlook.