Fan Ming, Chen Hang, You Chao, Liu Li, Gu Yajia, Peng Weijun, Gao Xin, Li Lihua
Institute of Biomedical Engineering and Instrumentation, Hangzhou Dianzi University, Hangzhou, China.
Department of Radiology, Fudan University Shanghai Cancer Center, Shanghai, China.
Front Mol Biosci. 2021 Mar 22;8:622219. doi: 10.3389/fmolb.2021.622219. eCollection 2021.
Breast tumor morphological and vascular characteristics can be changed during neoadjuvant chemotherapy (NACT). The early changes in tumor heterogeneity can be quantitatively modeled by longitudinal dynamic contrast-enhanced magnetic resonance imaging (DCE-MRI), which is useful in predicting responses to NACT in breast cancer. In this retrospective analysis, 114 female patients with unilateral unifocal primary breast cancer who received NACT were included in a development ( = 61) dataset and a testing dataset ( = 53). DCE-MRI was performed for each patient before and after treatment (two cycles of NACT) to generate baseline and early follow-up images, respectively. Feature-level changes (delta) of the entire tumor were evaluated by calculating the relative net feature change (deltaRAD) between baseline and follow-up images. The voxel-level change inside the tumor was evaluated, which yielded a Jacobian map by registering the follow-up image to the baseline image. Clinical information and the radiomic features were fused to enhance the predictive performance. The area under the curve (AUC) values were assessed to evaluate the prediction performance. Predictive models using radiomics based on pre- and post-treatment images, Jacobian maps and deltaRAD showed AUC values of 0.568, 0.767, 0.630 and 0.726, respectively. When features from these images were fused, the predictive model generated an AUC value of 0.771. After adding the molecular subtype information in the fused model, the performance was increased to an AUC of 0.809 (sensitivity of 0.826 and specificity of 0.800), which is significantly higher than that of the baseline imaging- and Jacobian map-based predictive models ( = 0.028 and 0.019, respectively). The level of tumor heterogeneity reduction (evaluated by texture feature) is higher in the NACT responders than in the nonresponders. The results suggested that changes in DCE-MRI features that reflect a reduction in tumor heterogeneity following NACT could provide early prediction of breast tumor response. The prediction was improved when the molecular subtype information was combined into the model.
在新辅助化疗(NACT)期间,乳腺肿瘤的形态和血管特征可能会发生变化。肿瘤异质性的早期变化可以通过纵向动态对比增强磁共振成像(DCE-MRI)进行定量建模,这有助于预测乳腺癌对NACT的反应。在这项回顾性分析中,114例接受NACT的单侧单灶原发性乳腺癌女性患者被纳入一个开发数据集(n = 61)和一个测试数据集(n = 53)。在治疗前(NACT两个周期)和治疗后分别对每位患者进行DCE-MRI检查,以生成基线图像和早期随访图像。通过计算基线图像和随访图像之间的相对净特征变化(deltaRAD)来评估整个肿瘤的特征水平变化(delta)。评估肿瘤内部的体素水平变化,通过将随访图像与基线图像配准生成雅可比图。融合临床信息和影像组学特征以提高预测性能。评估曲线下面积(AUC)值以评估预测性能。基于治疗前和治疗后图像、雅可比图和deltaRAD的影像组学预测模型的AUC值分别为0.568、0.767、0.630和0.726。当融合这些图像的特征时,预测模型的AUC值为0.771。在融合模型中加入分子亚型信息后,性能提高到AUC为0.809(敏感性为0.826,特异性为0.800),显著高于基于基线成像和雅可比图的预测模型(分别为P = 0.028和0.019)。NACT反应者的肿瘤异质性降低水平(通过纹理特征评估)高于无反应者。结果表明,DCE-MRI特征的变化反映了NACT后肿瘤异质性的降低,可以为乳腺肿瘤反应提供早期预测。当将分子亚型信息纳入模型时,预测得到改善。
