基于定量异质性的术前放射基因组学模型,用于预测接受新辅助化疗的三阴性乳腺癌患者的预后。

IF 3.5 2区 医学 Q2 ONCOLOGY Cancer Imaging Pub Date : 2024-07-30 DOI:10.1186/s40644-024-00746-z
Jiayin Zhou, Yansong Bai, Ying Zhang, Zezhou Wang, Shiyun Sun, Luyi Lin, Yajia Gu, Chao You
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引用次数: 0

摘要

背景:三阴性乳腺癌(TNBC)具有高度异质性,导致患者对新辅助化疗(NAC)的反应和预后不同。本研究旨在描述 TNBC 在 MRI 上的异质性,并建立一个放射基因组学模型来预测病理完全反应(pCR)和预后:在这项回顾性研究中,复旦大学上海肿瘤防治中心纳入了接受新辅助化疗的TNBC患者作为放射基因组学开发队列(n = 315);在这些患者中,纳入了可获得基因数据的患者作为放射基因组学开发队列(n = 98)。两个队列的研究人群按 7:3 的比例随机分为训练集和验证集。外部验证队列(n = 77)包括来自 DUKE 和 I-SPY 1 数据库的患者。利用瘤内亚区域和瘤周区域的特征来描述空间异质性。血流动力学异质性通过肿瘤体的动力学特征来表征。选择特征后,通过逻辑回归建立了三个放射组学模型。模型 1 包括亚区域和瘤周特征,模型 2 包括动力学特征,模型 3 综合了模型 1 和模型 2 的特征。通过进一步整合病理学和基因组学特征,建立了两个融合模型(PRM:病理学-放射组学模型;GPRM:基因组学-病理学-放射组学模型)。模型性能通过 AUC 和决策曲线分析进行评估。用Kaplan-Meier曲线和多变量Cox回归评估预后意义:结果:在放射学模型中,代表多尺度异质性的多区域模型(模型3)表现出更好的pCR预测能力,其训练集、内部验证集和外部验证集的AUC分别为0.87、0.79和0.78。在训练集(AUC = 0.97,P = 0.015)和验证集(AUC = 0.93,P = 0.019)中,GPRM 在预测 pCR 方面表现最佳。模型 3、PRM 和 GPRM 可以根据无病生存期对患者进行分层,预测的非 pCR 与不良预后相关(P = 0.034、0.001 和 0.019,分别为 0.034、0.001 和 0.019):结论:以DCE-MRI为特征的多尺度异质性可有效预测TNBC患者的pCR和预后。结论:以DCE-MRI为特征的多尺度异质性可有效预测TNBC患者的pCR和预后,放射基因组学模型可作为有价值的生物标志物提高预测效果。
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A preoperative radiogenomic model based on quantitative heterogeneity for predicting outcomes in triple-negative breast cancer patients who underwent neoadjuvant chemotherapy.

Background: Triple-negative breast cancer (TNBC) is highly heterogeneous, resulting in different responses to neoadjuvant chemotherapy (NAC) and prognoses among patients. This study sought to characterize the heterogeneity of TNBC on MRI and develop a radiogenomic model for predicting both pathological complete response (pCR) and prognosis.

Materials and methods: In this retrospective study, TNBC patients who underwent neoadjuvant chemotherapy at Fudan University Shanghai Cancer Center were enrolled as the radiomic development cohort (n = 315); among these patients, those whose genetic data were available were enrolled as the radiogenomic development cohort (n = 98). The study population of the two cohorts was randomly divided into a training set and a validation set at a ratio of 7:3. The external validation cohort (n = 77) included patients from the DUKE and I-SPY 1 databases. Spatial heterogeneity was characterized using features from the intratumoral subregions and peritumoral region. Hemodynamic heterogeneity was characterized by kinetic features from the tumor body. Three radiomics models were developed by logistic regression after selecting features. Model 1 included subregional and peritumoral features, Model 2 included kinetic features, and Model 3 integrated the features of Model 1 and Model 2. Two fusion models were developed by further integrating pathological and genomic features (PRM: pathology-radiomics model; GPRM: genomics-pathology-radiomics model). Model performance was assessed with the AUC and decision curve analysis. Prognostic implications were assessed with Kaplan‒Meier curves and multivariate Cox regression.

Results: Among the radiomic models, the multiregional model representing multiscale heterogeneity (Model 3) exhibited better pCR prediction, with AUCs of 0.87, 0.79, and 0.78 in the training, internal validation, and external validation sets, respectively. The GPRM showed the best performance for predicting pCR in the training (AUC = 0.97, P = 0.015) and validation sets (AUC = 0.93, P = 0.019). Model 3, PRM and GPRM could stratify patients by disease-free survival, and a predicted nonpCR was associated with poor prognosis (P = 0.034, 0.001 and 0.019, respectively).

Conclusion: Multiscale heterogeneity characterized by DCE-MRI could effectively predict the pCR and prognosis of TNBC patients. The radiogenomic model could serve as a valuable biomarker to improve the prediction performance.

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来源期刊
Cancer Imaging
Cancer Imaging ONCOLOGY-RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING
CiteScore
7.00
自引率
0.00%
发文量
66
审稿时长
>12 weeks
期刊介绍: Cancer Imaging is an open access, peer-reviewed journal publishing original articles, reviews and editorials written by expert international radiologists working in oncology. The journal encompasses CT, MR, PET, ultrasound, radionuclide and multimodal imaging in all kinds of malignant tumours, plus new developments, techniques and innovations. Topics of interest include: Breast Imaging Chest Complications of treatment Ear, Nose & Throat Gastrointestinal Hepatobiliary & Pancreatic Imaging biomarkers Interventional Lymphoma Measurement of tumour response Molecular functional imaging Musculoskeletal Neuro oncology Nuclear Medicine Paediatric.
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