Enhancing pathological complete response prediction in breast cancer: the role of dynamic characterization of DCE-MRI and its association with tumor heterogeneity.

IF 7.4 1区 医学 Q1 Medicine Breast Cancer Research Pub Date : 2024-05-14 DOI:10.1186/s13058-024-01836-3
Xinyu Zhang, Xinzhi Teng, Jiang Zhang, Qingpei Lai, Jing Cai
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引用次数: 0

Abstract

Background: Early prediction of pathological complete response (pCR) is important for deciding appropriate treatment strategies for patients. In this study, we aimed to quantify the dynamic characteristics of dynamic contrast-enhanced magnetic resonance images (DCE-MRI) and investigate its value to improve pCR prediction as well as its association with tumor heterogeneity in breast cancer patients.

Methods: The DCE-MRI, clinicopathologic record, and full transcriptomic data of 785 breast cancer patients receiving neoadjuvant chemotherapy were retrospectively included from a public dataset. Dynamic features of DCE-MRI were computed from extracted phase-varying radiomic feature series using 22 CAnonical Time-sereis CHaracteristics. Dynamic model and radiomic model were developed by logistic regression using dynamic features and traditional radiomic features respectively. Various combined models with clinical factors were also developed to find the optimal combination and the significance of each components was evaluated. All the models were evaluated in independent test set in terms of area under receiver operating characteristic curve (AUC). To explore the potential underlying biological mechanisms, radiogenomic analysis was implemented on patient subgroups stratified by dynamic model to identify differentially expressed genes (DEGs) and enriched pathways.

Results: A 10-feature dynamic model and a 4-feature radiomic model were developed (AUC = 0.688, 95%CI: 0.635-0.741 and AUC = 0.650, 95%CI: 0.595-0.705) and tested (AUC = 0.686, 95%CI: 0.594-0.778 and AUC = 0.626, 95%CI: 0.529-0.722), with the dynamic model showing slightly higher AUC (train p = 0.181, test p = 0.222). The combined model of clinical, radiomic, and dynamic achieved the highest AUC in pCR prediction (train: 0.769, 95%CI: 0.722-0.816 and test: 0.762, 95%CI: 0.679-0.845). Compared with clinical-radiomic combined model (train AUC = 0.716, 95%CI: 0.665-0.767 and test AUC = 0.695, 95%CI: 0.656-0.714), adding the dynamic component brought significant improvement in model performance (train p < 0.001 and test p = 0.005). Radiogenomic analysis identified 297 DEGs, including CXCL9, CCL18, and HLA-DPB1 which are known to be associated with breast cancer prognosis or angiogenesis. Gene set enrichment analysis further revealed enrichment of gene ontology terms and pathways related to immune system.

Conclusion: Dynamic characteristics of DCE-MRI were quantified and used to develop dynamic model for improving pCR prediction in breast cancer patients. The dynamic model was associated with tumor heterogeniety in prognostic-related gene expression and immune-related pathways.

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加强乳腺癌病理完全反应预测:DCE-MRI 动态特征的作用及其与肿瘤异质性的关联。
背景:早期预测病理完全反应(pCR)对于为患者决定适当的治疗策略非常重要。在这项研究中,我们旨在量化动态对比增强磁共振成像(DCE-MRI)的动态特征,并研究其对改善乳腺癌患者病理完全反应预测的价值及其与肿瘤异质性的关联:方法:从公共数据集中回顾性地纳入了785名接受新辅助化疗的乳腺癌患者的DCE-MRI、临床病理记录和全转录组数据。利用 22 个非线性时间序列特征,从提取的相变放射线组特征序列中计算出 DCE-MRI 的动态特征。利用动态特征和传统放射学特征,通过逻辑回归分别建立了动态模型和放射学模型。此外,还建立了各种与临床因素相结合的模型,以找到最佳组合,并对各组成部分的意义进行了评估。所有模型都在独立测试集中根据接收者操作特征曲线下面积(AUC)进行了评估。为了探索潜在的生物学机制,研究人员对按动态模型分层的患者亚组进行了放射基因组学分析,以确定差异表达基因(DEG)和富集通路:建立了一个 10 特征动态模型和一个 4 特征放射基因组模型(AUC = 0.688,95%CI:0.635-0.741 和 AUC = 0.650,95%CI:0.595-0.705)并进行了测试(AUC = 0.686,95%CI:0.594-0.778 和 AUC = 0.626,95%CI:0.529-0.722),动态模型的 AUC 略高(训练 p = 0.181,测试 p = 0.222)。临床、放射学和动态联合模型的 pCR 预测 AUC 最高(训练:0.769,95%CI:0.722-0.816;测试:0.762,95%CI:0.679-0.845)。与临床-放射组联合模型(训练 AUC = 0.716,95%CI:0.665-0.767;测试 AUC = 0.695,95%CI:0.656-0.714)相比,加入动态成分能显著提高模型的性能(训练 p 结论:DCE-MR 的动态特征能显著提高模型的性能:量化了 DCE-MRI 的动态特征,并将其用于建立动态模型,以改善乳腺癌患者的 pCR 预测。该动态模型与预后相关基因表达和免疫相关通路的肿瘤异质性有关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
12.00
自引率
0.00%
发文量
76
审稿时长
12 weeks
期刊介绍: Breast Cancer Research, an international, peer-reviewed online journal, publishes original research, reviews, editorials, and reports. It features open-access research articles of exceptional interest across all areas of biology and medicine relevant to breast cancer. This includes normal mammary gland biology, with a special emphasis on the genetic, biochemical, and cellular basis of breast cancer. In addition to basic research, the journal covers preclinical, translational, and clinical studies with a biological basis, including Phase I and Phase II trials.
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