Wang Ting-Wei, Chao Heng-Sheng, Chiu Hwa-Yen, Lu Chia-Feng, Liao Chien-Yi, Lee Yen, Chen Jyun-Ru, Shiao Tsu-Hui, Chen Yuh-Min, Wu Yu-Te
Institute of Biophotonics, National Yang Ming Chiao Tung University, Taipei, Taiwan; School of Medicine, National Yang Ming Chiao Tung University, Taipei, Taiwan.
Department of Chest Medicine, Taipei Veteran General Hospital, Taipei, Taiwan.
Transl Oncol. 2024 Jan;39:101826. doi: 10.1016/j.tranon.2023.101826. Epub 2023 Nov 18.
Epidermal growth factor receptor (EGFR)-targeted tyrosine kinase inhibitors (TKIs) are the first-line therapy for EGFR-mutant non-small-cell lung cancer (NSCLC). Early prediction of treatment failure in patients with brain metastases treated with EGFR-TKIs may help in making decisions for systemic drug therapy or local brain tumor control. This study examined the predictive power of the radiomics of both brain metastasis tumors and primary lung tumors. We propose a deep learning based CoxCC model based on quantitative brain magnetic resonance imaging (MRI), a prognostic index and clinical data; the model can be used to predict progression-free survival (PFS) after EGFR-TKI therapy in advanced EGFR-mutant NSCLC.
This retrospective single-center study included 271 patients receiving first-line EGFR-TKI targeted therapy in 2018-2019. Among them, 72 patients who had brain metastases before receiving first-line EGFR-TKI treatment. Three radiomic features were extracted from pretreatment brain MRI images. A CoxCC model for the progression risk stratification of EGFR-TKI treatment was proposed on the basis of MRI radiomics, clinical features, and a prognostic index. We performed time-dependent PFS predictions to evaluate the performance of the CoxCC model.
The CoxCC model based on a prognostic index, clinical features, and radiomic features of brain metastasis exhibited higher performance than clinical features combined with indexes previously proposed for determining the prognosis of brain metastasis, including recursive partitioning analysis, diagnostic-specific graded prognostic assessment, graded prognostic assessment for lung cancer using molecular markers (lung-molGPA), and modified lung-molGPA, with c-index values of 0.75, 0.67, 0.66, 0.65, and 0.65, respectively. The model achieved areas under the curve of 0.88, 0.73, 0.92, and 0.90 for predicting PFS at 3, 6, 9 and 12 months, respectively. PFS significantly differed between the high- and low-risk groups (p < 0.001).
For patients with advanced-stage NSCLC with brain metastasis, MRI radiomics of brain metastases may predict PFS. The CoxCC model integrating brain metastasis radiomics, clinical features, and a prognostic index provided reliable multi-time-point PFS predictions for patients with advanced NSCLC and brain metastases receiving EGFR-TKI treatment.
表皮生长因子受体(EGFR)靶向酪氨酸激酶抑制剂(TKIs)是EGFR突变型非小细胞肺癌(NSCLC)的一线治疗方法。对接受EGFR-TKIs治疗的脑转移患者的治疗失败进行早期预测,可能有助于做出全身药物治疗或局部脑肿瘤控制的决策。本研究考察了脑转移瘤和原发性肺肿瘤的放射组学的预测能力。我们基于定量脑磁共振成像(MRI)、一个预后指标和临床数据,提出了一种基于深度学习的CoxCC模型;该模型可用于预测晚期EGFR突变型NSCLC患者接受EGFR-TKI治疗后的无进展生存期(PFS)。
这项回顾性单中心研究纳入了2018年至2019年接受一线EGFR-TKI靶向治疗的271例患者。其中,72例在接受一线EGFR-TKI治疗前已有脑转移。从治疗前的脑MRI图像中提取了三个放射组学特征。基于MRI放射组学、临床特征和一个预后指标,提出了一个用于EGFR-TKI治疗进展风险分层的CoxCC模型。我们进行了时间依赖性PFS预测,以评估CoxCC模型的性能。
基于脑转移的预后指标、临床特征和放射组学特征的CoxCC模型,其性能高于临床特征与先前提出的用于确定脑转移预后的指标(包括递归划分分析、诊断特异性分级预后评估、使用分子标记的肺癌分级预后评估(lung-molGPA)和改良的lung-molGPA)的组合,其c指数值分别为0.75、0.67、0.66、0.65和0.65。该模型在预测3、6、9和12个月的PFS时,曲线下面积分别为0.88、0.73、0.92和0.90。高风险组和低风险组的PFS有显著差异(p < 0.001)。
对于伴有脑转移的晚期NSCLC患者,脑转移瘤的MRI放射组学可能预测PFS。整合脑转移瘤放射组学、临床特征和一个预后指标的CoxCC模型,为接受EGFR-TKI治疗的晚期NSCLC和脑转移患者提供了可靠的多时间点PFS预测。
