Li Hongjian, Li Bing, Zhang Chuan, Xiao Ruhui, He Libing, Li Shaojie, Yang Yu-Xin, He Shipei, Sun Baijintao, Qiu Zhiqiang, Yang Maojiang, Wei Yan, Xu Xiaoxue, Yang Hanfeng
Department of Radiology, Affiliated Hospital of North Sichuan Medical College, Nanchong, China.
North Sichuan Medical College Medical Imaging College, Nanchong, China.
Front Neurosci. 2024 Oct 24;18:1500584. doi: 10.3389/fnins.2024.1500584. eCollection 2024.
The diagnosis of primary trigeminal neuralgia (PTN) in radiology lacks the gold standard and largely depends on the identification of neurovascular compression (NVC) using magnetic resonance imaging (MRI) water imaging sequences. However, relying on this imaging sign alone often fails to accurately distinguish the symptomatic side of the nerve from asymptomatic nerves, and may even lead to incorrect diagnoses. Therefore, it is essential to develop a more effective diagnostic tool to aid radiologists in the diagnosis of TN.
This study aims to establish a radiomics-based machine learning model integrating multi-region of interest (multiple-ROI) MRI and anatomical data, to improve the accuracy in differentiating symptomatic from asymptomatic nerves in PTN.
A retrospective analysis of MRI data and clinical anatomical data was conducted on 140 patients with clinically confirmed PTN. Symptomatic nerves of TN patients were defined as the positive group, while asymptomatic nerves served as the negative group. The ipsilateral Meckel's cavity (MC) was included in both groups. Through dimensionality reduction analysis, four radiomics features were selected from the MC and 24 radiomics features were selected from the trigeminal cisternal segment. Thirteen anatomical features relevant to TN were identified from the literature, and analyzed using univariate logistic regression and multivariate logistic regression. Four features were confirmed as independent risk factors for TN. Logistic regression (LR) models were constructed for radiomics model and clinical anatomy, and a combined model was developed by integrating the radiomics score (Rad-Score) with the clinical anatomy model. The models' performance was evaluated using receiver operating characteristic curve (ROC) curves, calibration curves, and decision curve analysis (DCA).
The four independent clinical anatomical factors identified were: degree of neurovascular compression, site of neurovascular compression site, thickness of the trigeminal nerve root, and trigeminal pons angle (TPA). The final combined model, incorporating radiomics and clinical anatomy, achieved an area under the curve (AUC) of 0.91/0.90 (95% CI: 0.87-0.95/0.81-0.96) and an accuracy of approximately 82% in recognizing symptomatic and normal nerves.
The combined radiomics and anatomical model provides superior recognition efficiency for the symptomatic nerves in PTN, offering valuable support for radiologists in diagnosing TN.
放射学中原发性三叉神经痛(PTN)的诊断缺乏金标准,很大程度上依赖于使用磁共振成像(MRI)水成像序列来识别神经血管压迫(NVC)。然而,仅依靠这种影像学征象往往无法准确区分有症状神经与无症状神经,甚至可能导致误诊。因此,开发一种更有效的诊断工具以协助放射科医生诊断TN至关重要。
本研究旨在建立一种基于影像组学的机器学习模型,整合多感兴趣区域(multiple-ROI)MRI和解剖学数据,以提高区分PTN中有症状神经与无症状神经的准确性。
对140例临床确诊的PTN患者的MRI数据和临床解剖学数据进行回顾性分析。将TN患者的有症状神经定义为阳性组,无症状神经作为阴性组。两组均纳入同侧的Meckel腔(MC)。通过降维分析,从MC中选择了4个影像组学特征,从三叉神经脑池段选择了24个影像组学特征。从文献中确定了13个与TN相关的解剖学特征,并使用单因素逻辑回归和多因素逻辑回归进行分析。4个特征被确认为TN的独立危险因素。构建了影像组学模型和临床解剖学的逻辑回归(LR)模型,并通过将影像组学评分(Rad-Score)与临床解剖学模型相结合开发了一个联合模型。使用受试者操作特征曲线(ROC)、校准曲线和决策曲线分析(DCA)对模型性能进行评估。
确定的4个独立临床解剖学因素为:神经血管压迫程度、神经血管压迫部位、三叉神经根厚度和三叉神经脑桥角(TPA)。最终的联合模型,结合了影像组学和临床解剖学,在识别有症状神经和正常神经方面,曲线下面积(AUC)为0.91/0.90(95%CI:0.87-0.95/0.81-0.96),准确率约为82%。
影像组学与解剖学联合模型对PTN中有症状神经具有更高的识别效率,为放射科医生诊断TN提供了有价值的支持。
