Prediction of lymphovascular invasion in invasive breast cancer based on clinical-MRI radiomics features.

IF 2.9 3区医学 Q2 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING BMC Medical Imaging Pub Date : 2024-10-16 DOI:10.1186/s12880-024-01456-5

Chunling Zhang, Peng Zhou, Ruobing Li, Zhongyuan Li, Aimei Ouyang

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Abstract

Objective: We aim to develop a predictive model for lymphovascular invasion (LVI) in patients with invasive breast cancer (IBC), using magnetic resonance imaging (MRI)-based radiomics features.

Methods: A total of 204 patients with IBC admitted to our hospital were included in this retrospective study. The data was split into training and validation sets at a 7:3 ratio. Feature normalization was conducted, followed by feature selection using ANOVA, correlation analysis, and LASSO in the training set. The final step involved building a logistic regression model. The LVI prediction models were established by single sequence image and combined different sequence images as follows: A: prediction model based on the optimal sequence in the 7-phase enhanced MRI scans; B: prediction model based on the optimal sequences in the sequences T1WI, T2WI, and DWI; and C: the combined model based on the optimal sequences selected from A and B. Subjects' work characteristic curves (ROC) and decision curves (DCA) were plotted to determine the extent to which they predicted LVI performance in the training and validation sets. Simultaneously, nomogram models were constructed by integrating radiomics features and independent risk factors. In addition, an additional 16 patients from the center between January and August 2024 were collected as the Nomogram external validation set. The ROC and DCA were used to evaluate the performance of the model.

Results: In the enhanced images, Model A built based on the enhanced 2-phase achieved the best average AUC, with a validation set of 0.764. Model B built based on the T2WI had better results, with a validation set of 0.693. Model C built by combining enhanced 2-phase and T2WI sequences had a mean AUC of 0.705 in the validation set. In addition, the tumor size, whether the tumor boundary was clear or not, and whether there was a coelom in the tumor tissue had a statistically significant effect on the LVI of IBC, and a clinical-radiomics nomogram was established. DCAs as well as Nomogram also indicate that Model A has good clinical utility. The AUC of the nomogram in the training set, internal validation set, and external validation set were 0.703, 0.615, and 0.609, respectively. The DCA also showed that the radiomics nomogram combined with clinical factors had good predictive ability for LVI.

Conclusion: In IBC, MRI radiomics can serve as a noninvasive predictor of LVI. The clinical-MRI radiomics model, as an efficient visual prognostic tool, shows promise in forecasting LVI. This highlights the significant potential of pre-radiomics prediction in enhancing treatment strategies.

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基于临床-磁共振成像放射组学特征预测浸润性乳腺癌的淋巴管侵犯

目的：我们旨在利用基于磁共振成像（MRI）的放射组学特征，建立浸润性乳腺癌（IBC）患者淋巴管侵犯（LVI）的预测模型：这项回顾性研究共纳入了 204 名在本院住院的 IBC 患者。数据按 7:3 的比例分成训练集和验证集。对特征进行归一化处理，然后在训练集中使用方差分析、相关分析和 LASSO 进行特征选择。最后一步是建立逻辑回归模型。LVI 预测模型通过单序列图像和组合不同序列图像建立，具体如下：A：基于 7 相增强 MRI 扫描中最佳序列的预测模型；B：基于 T1WI、T2WI 和 DWI 序列中最佳序列的预测模型；C：基于从 A 和 B 中选择的最佳序列的组合模型。绘制受试者工作特征曲线 (ROC) 和决策曲线 (DCA)，以确定它们在训练集和验证集中预测 LVI 表现的程度。同时，通过整合放射组学特征和独立风险因素，构建了提名图模型。此外，还从该中心收集了 2024 年 1 月至 8 月期间的另外 16 名患者作为 Nomogram 外部验证集。采用ROC和DCA评估模型的性能：在增强图像中，基于增强 2 相建立的模型 A 获得了最佳平均 AUC，验证集为 0.764。基于 T2WI 建立的模型 B 效果更好，验证集为 0.693。结合增强型 2 相和 T2WI 序列建立的模型 C 在验证集中的平均 AUC 为 0.705。此外，肿瘤大小、肿瘤边界是否清晰以及肿瘤组织中是否有包膜对 IBC 的 LVI 有显著的统计学影响，并建立了临床放射组学提名图。DCA和提名图也表明模型A具有良好的临床实用性。在训练集、内部验证集和外部验证集中，提名图的AUC分别为0.703、0.615和0.609。DCA还显示，放射组学提名图与临床因素相结合对LVI具有良好的预测能力：结论：在 IBC 中，MRI 放射组学可作为 LVI 的无创预测指标。临床-MRI 放射组学模型作为一种高效的可视化预后工具，在预测 LVI 方面大有可为。这凸显了放射组学前期预测在加强治疗策略方面的巨大潜力。

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

BMC Medical Imaging RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING-

CiteScore

4.60

自引率

3.70%

发文量

198

审稿时长

27 weeks

期刊介绍： BMC Medical Imaging is an open access journal publishing original peer-reviewed research articles in the development, evaluation, and use of imaging techniques and image processing tools to diagnose and manage disease.