Imaging Findings and MRI Patterns in a Cohort of 18q Chromosomal Abnormalities.

AJNR. American journal of neuroradiology Pub Date : 2024-10-03 DOI:10.3174/ajnr.A8361

Prateek Malik, Helen Branson, Grace Yoon, Manohar Shroff, Susan Blaser, Pradeep Krishnan

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Abstract

Background and purpose: The abnormalities of the long arm of chromosome 18 (18q) constitute a complex spectrum. We aimed to systematically analyze their MR imaging features. We hypothesized that there would be variable but recognizable white matter and structural patterns in this cohort.

Materials and methods: In this retrospective cohort study, we included pediatric patients with a proved abnormality of 18q between 2000-2022. An age- and sex-matched control cohort was also constructed.

Results: Thirty-six cases, median MR imaging age 19.6 months (4.3-59.3), satisfied our inclusion criteria. Most were female (25, 69%, F:M ratio 2.2:1). Fifty MR imaging studies were analyzed, and 35 (70%) had delayed myelination. Two independent readers scored brain myelination with excellent interrater reliability. Three recognizable evolving MR imaging patterns with distinct age distributions and improving myelination scores were identified: Pelizaeus-Merzbacher disease-like (9.9 months, 37), intermediate (22 months, 48), and washed-out pattern (113.6 months, 53). Etiologically, MRIs were analyzed across 3 subgroups: 18q deletion (34, 69%), trisomy 18 (10, 21%), and ring chromosome 18 (5, 10%). Ring chromosome 18 had the highest myelination lag (27, P = .005) and multifocal white matter changes (P = .001). Trisomy 18 had smaller pons and cerebellar dimensions (anteposterior diameter pons, P = .002; corpus callosum vermis, P < .001; and transverse cerebellar diameter, P = .04).

Conclusions: In this cohort of 18q chromosomal abnormalities, MR imaging revealed recognizable patterns correlating with improving brain myelination. Imaging findings appear to be on a continuum with more severe white matter abnormalities in ring chromosome 18 and greater prevalence of structural abnormalities of the pons and cerebellum in trisomy 18.

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一组 18q 染色体异常患者的成像结果和磁共振成像模式。

背景和目的：18 号染色体长臂（18q）异常构成了一个复杂的谱系。我们旨在系统分析他们的磁共振成像特征。我们推测，在这一群体中，白质和结构模式将是多变但可识别的：在这项回顾性队列研究中，我们纳入了 2000-2022 年间已证实 18q 异常的儿科患者。我们还建立了一个年龄和性别匹配的对照组：符合纳入标准的病例有 36 例，磁共振成像中位年龄为 19.6 个月（4.3 - 59.3）。大多数病例为女性（25 例，占 69%，男女比例为 2.2:1）。我们对 50 项磁共振成像研究进行了分析，其中 35 项（70%）存在髓鞘化延迟现象。两名独立阅读者对大脑髓鞘化进行了评分，评分间的可靠性极高。三种可识别的磁共振成像演变模式具有明显的年龄分布和不断改善的髓鞘化评分--PMD样（9.9个月，37人）、中间型（22个月，48人）和冲淡型（113.6个月，53人）。从病因学角度分析了三个亚组的磁共振成像--18q-（34，69%）、18 三体（10，21%）和环状染色体 18（5，10%）。环状染色体 18 的髓鞘化滞后（27，P 值 = 0.005）和多灶性白质改变（P 值 = 0.001）最高。18 三体的脑桥和小脑尺寸较小（APD 脑桥 P 值 = 0.002，CC 小脑 P 值）：在这组 18q 染色体异常患者中，核磁共振成像显示了与大脑髓鞘化改善相关的可识别模式。成像结果似乎是一个连续的过程，18 号环状染色体的白质异常更为严重，而 18 三体的脑桥和小脑结构异常更为普遍：18q-:缩写：18q-：18q 缺失；CC：胼胝体；CC-APD：CC 前胸直径；FOD：枕前直径；TCD：小脑横径；APD：前胸直径；CCD：颅尾直径；MBP：髓鞘碱性蛋白；PMD：Pelizaeus-Merzbacher 病；GWMD：灰白质分化。

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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AJNR. American journal of neuroradiology

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