Pediatric diffuse intrinsic pontine glioma radiotherapy response prediction: MRI morphology and T2 intensity-based quantitative analyses.

IF 4.7 2区 医学 Q1 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING European Radiology Pub Date : 2024-12-01 Epub Date: 2024-06-21 DOI:10.1007/s00330-024-10855-9
Xiaojun Yu, Shaoqun Li, Wenfeng Mai, Xiaoyu Hua, Mengnan Sun, Mingyao Lai, Dong Zhang, Zeyu Xiao, Lichao Wang, Changzheng Shi, Liangping Luo, Linbo Cai
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Abstract

Objectives: An easy-to-implement MRI model for predicting partial response (PR) postradiotherapy for diffuse intrinsic pontine glioma (DIPG) is lacking. Utilizing quantitative T2 signal intensity and introducing a visual evaluation method based on T2 signal intensity heterogeneity, and compared MRI radiomic models for predicting radiotherapy response in pediatric patients with DIPG.

Methods: We retrospectively included patients with brainstem gliomas aged ≤ 18 years admitted between July 2011 and March 2023. Applying Response Assessment in Pediatric Neuro-Oncology criteria, we categorized patients into PR and non-PR groups. For qualitative analysis, tumor heterogeneity vision was classified into four grades based on T2-weighted images. Quantitative analysis included the relative T2 signal intensity ratio (rT2SR), extra pons volume ratio, and tumor ring-enhancement volume. Radiomic features were extracted from T2-weighted and T1-enhanced images of volumes of interest. Univariate analysis was used to identify independent variables related to PR. Multivariate logistic regression was performed using significant variables (p < 0.05) from univariate analysis.

Results: Of 140 patients (training n = 109, and test n = 31), 64 (45.7%) achieved PR. The AUC of the predictive model with extrapontine volume ratio, rT2SRmax-min (rT2SRdif), and grade was 0.89. The AUCs of the T2-weighted and T1WI-enhanced models with radiomic signatures were 0.84 and 0.81, respectively. For the 31 DIPG test sets, the AUCs were 0.91, 0.83, and 0.81, for the models incorporating the quantitative features, radiomic model (T2-weighted images, and T1W1-enhanced images), respectively.

Conclusion: Combining T2-weighted quantification with qualitative and extrapontine volume ratios reliably predicted pediatric DIPG radiotherapy response.

Clinical relevance statement: Combining T2-weighted quantification with qualitative and extrapontine volume ratios can accurately predict diffuse intrinsic pontine glioma (DIPG) radiotherapy response, which may facilitate personalized treatment and prognostic assessment for patients with DIPG.

Key points: Early identification is crucial for radiotherapy response and risk stratification in diffuse intrinsic pontine glioma. The model using tumor heterogeneity and quantitative T2 signal metrics achieved an AUC of 0.91. Using a combination of parameters can effectively predict radiotherapy response in this population.

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小儿弥漫性桥脑胶质瘤放疗反应预测:基于 MRI 形态学和 T2 强度的定量分析。
目的:弥漫性内生性桥脑胶质瘤(DIPG)放疗后部分反应(PR)的预测缺乏易于实施的MRI模型。我们利用定量 T2 信号强度并引入基于 T2 信号强度异质性的视觉评估方法,比较了用于预测儿科 DIPG 患者放疗反应的 MRI 放射模型:我们回顾性地纳入了2011年7月至2023年3月期间收治的年龄≤18岁的脑干胶质瘤患者。根据儿科神经肿瘤学反应评估标准,我们将患者分为PR组和非PR组。在定性分析中,根据T2加权图像将肿瘤异质性视野分为四个等级。定量分析包括相对T2信号强度比(rT2SR)、额外脑桥体积比和肿瘤环形增强体积。从感兴趣体积的T2加权和T1增强图像中提取放射学特征。单变量分析用于确定与 PR 相关的独立变量。使用重要变量(P 结果)进行多变量逻辑回归:在 140 名患者中(训练 n = 109,测试 n = 31),64 人(45.7%)达到 PR。包含脊髓外体积比、rT2SRmax-min (rT2SRdif) 和分级的预测模型的 AUC 为 0.89。带有放射学特征的 T2 加权模型和 T1WI 增强模型的 AUC 分别为 0.84 和 0.81。对于 31 个 DIPG 测试集,结合定量特征的模型、放射学模型(T2 加权图像和 T1W1 增强图像)的 AUC 分别为 0.91、0.83 和 0.81:结论:将T2加权定量与定性和脊髓外体积比结合起来,能可靠地预测小儿DIPG的放疗反应:将T2加权定量与定性及ontine外体积比结合起来,可以准确预测弥漫性内生性桥脑胶质瘤(DIPG)的放疗反应,有助于DIPG患者的个性化治疗和预后评估:要点:早期识别对弥漫性固有脑桥胶质瘤的放疗反应和风险分层至关重要。使用肿瘤异质性和定量T2信号指标的模型的AUC达到0.91。使用参数组合可以有效预测该人群的放疗反应。
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来源期刊
European Radiology
European Radiology 医学-核医学
CiteScore
11.60
自引率
8.50%
发文量
874
审稿时长
2-4 weeks
期刊介绍: European Radiology (ER) continuously updates scientific knowledge in radiology by publication of strong original articles and state-of-the-art reviews written by leading radiologists. A well balanced combination of review articles, original papers, short communications from European radiological congresses and information on society matters makes ER an indispensable source for current information in this field. This is the Journal of the European Society of Radiology, and the official journal of a number of societies. From 2004-2008 supplements to European Radiology were published under its companion, European Radiology Supplements, ISSN 1613-3749.
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