基于 MRI 的放射组学方法鉴别青少年肌阵挛癫痫与单纯全身性强直-阵挛发作癫痫。
MRI-Based Radiomics Approach for Differentiating Juvenile Myoclonic Epilepsy from Epilepsy with Generalized Tonic-Clonic Seizures Alone.
机构信息
Department of Radiology and Research, Institute of Radiological Science and Center for Clinical Imaging Data Science, Yonsei University College of Medicine, Seoul, Korea.
Department of Neurology, Epilepsy Research Institute, Yonsei University College of Medicine, Seoul, Korea.
出版信息
J Magn Reson Imaging. 2024 Jul;60(1):281-288. doi: 10.1002/jmri.29024. Epub 2023 Oct 10.
BACKGROUND
The clinical presentation of juvenile myoclonic epilepsy (JME) and epilepsy with generalized tonic-clonic seizures alone (GTCA) is similar, and MRI scans are often perceptually normal in both conditions making them challenging to differentiate.
PURPOSE
To develop and validate an MRI-based radiomics model to accurately diagnose JME and GTCA, as well as to classify prognostic groups.
STUDY TYPE
Retrospective.
POPULATION
164 patients (127 with JME and 37 with GTCA) patients (age 24.0 ± 9.6; 50% male), divided into training (n = 114) and test (n = 50) sets in a 7:3 ratio with the same proportion of JME and GTCA patients kept in both sets.
FIELD STRENGTH/SEQUENCE: 3T; 3D T1-weighted spoiled gradient-echo.
ASSESSMENT
A total of 17 region-of-interest in the brain were identified as having clinical evidence of association with JME and GTCA, from where 1581 radiomics features were extracted for each subject. Forty-eight machine-learning combinations of oversampling, feature selection, and classification algorithms were explored to develop an optimal radiomics model. The performance of the best radiomics models for diagnosis and for classification of the favorable outcome group were evaluated in the test set.
STATISTICAL TESTS
Model performance measured using area under the curve (AUC) of receiver operating characteristic (ROC) curve. Shapley additive explanations (SHAP) analysis to estimate the contribution of each radiomics feature.
RESULTS
The AUC (95% confidence interval) of the best radiomics models for diagnosis and for classification of favorable outcome group were 0.767 (0.591-0.943) and 0.717 (0.563-0.871), respectively. SHAP analysis revealed that the first-order and textural features of the caudate, cerebral white matter, thalamus proper, and putamen had the highest importance in the best radiomics model.
CONCLUSION
The proposed MRI-based radiomics model demonstrated the potential to diagnose JME and GTCA, as well as to classify prognostic groups. MRI regions associated with JME, such as the basal ganglia, thalamus, and cerebral white matter, appeared to be important for constructing radiomics models.
LEVEL OF EVIDENCE
3 TECHNICAL EFFICACY: Stage 3.
背景
青少年肌阵挛癫痫(JME)和仅全身性强直-阵挛发作的癫痫(GTCA)的临床表现相似,且这两种情况下的磁共振成像(MRI)扫描通常在感知上是正常的,这使得它们难以区分。
目的
开发和验证一种基于 MRI 的放射组学模型,以准确诊断 JME 和 GTCA,并对预后组进行分类。
研究类型
回顾性研究。
人群
164 名患者(127 名 JME 患者和 37 名 GTCA 患者)(年龄 24.0±9.6;50%为男性),按 7:3 的比例分为训练集(n=114)和测试集(n=50),两组中 JME 和 GTCA 患者的比例相同。
磁场强度/序列:3T;3D T1 加权扰相梯度回波。
评估
从大脑中总共确定了 17 个具有与 JME 和 GTCA 相关的临床证据的感兴趣区域,从每个受试者中提取了 1581 个放射组学特征。探索了 48 种过采样、特征选择和分类算法的机器学习组合,以开发最佳的放射组学模型。在测试集中评估了用于诊断和分类有利预后组的最佳放射组学模型的性能。
统计检验
使用受试者工作特征(ROC)曲线的曲线下面积(AUC)来衡量模型性能。Shapley 加性解释(SHAP)分析来估计每个放射组学特征的贡献。
结果
用于诊断和分类有利预后组的最佳放射组学模型的 AUC(95%置信区间)分别为 0.767(0.591-0.943)和 0.717(0.563-0.871)。SHAP 分析表明,尾状核、大脑白质、丘脑和壳核的一阶和纹理特征在最佳放射组学模型中具有最高的重要性。
结论
所提出的基于 MRI 的放射组学模型具有诊断 JME 和 GTCA 以及分类预后组的潜力。与 JME 相关的 MRI 区域,如基底节、丘脑和大脑白质,似乎对构建放射组学模型很重要。
证据水平
3 级技术功效:3 级。
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