为有癌症治疗相关心肌病风险的儿童建立机器学习辅助超声心动图预测工具。

IF 3.2 Q2 CARDIAC & CARDIOVASCULAR SYSTEMS

Cardio-oncology Pub Date : 2024-10-09 DOI:10.1186/s40959-024-00268-4

Lindsay A Edwards, Christina Yang, Surbhi Sharma, Zih-Hua Chen, Lahari Gorantla, Sanika A Joshi, Nicolas J Longhi, Nahom Worku, Jamie S Yang, Brandy Martinez Di Pietro, Saro Armenian, Aarti Bhat, William Border, Sujatha Buddhe, Nancy Blythe, Kayla Stratton, Kasey J Leger, Wendy M Leisenring, Lillian R Meacham, Paul C Nathan, Shanti Narasimhan, Ritu Sachdeva, Karim Sadak, Eric J Chow, Patrick M Boyle

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引用次数: 0

摘要

背景：尽管对儿童癌症幸存者进行了常规超声心动图监测，但预测个别患者心肌病风险的能力仍然有限。我们利用五个中心的连续超声心动图，探索了机器学习增强型心肌病预测的可行性和最佳流程：我们设计了一系列深度卷积神经网络（DCNN），用于预测首次癌症治疗后≥1年的高危幸存者的心肌病（两次缩短率≤28%或射血分数≤50%）。我们使用四个超声心动图数据子集构建了 DCNN，这些数据子集的时间相对于病例（发生心肌病的幸存者）指数诊断和两种输入格式（蒙太奇）具有不同的图像选择。我们在 10 倍交叉验证框架中使用了保留子集和标准指标来评估模型性能（如 F1 分数、精度-召回曲线下面积 [AUPRC]）。使用 5 × 2 交叉验证 F 测试对输入格式的性能进行了比较：数据集包括 542 对蒙太奇：数据集包括 542 对蒙太奇：171 对蒙太奇来自 45 个心肌病诊断时或诊断前的病例，371 对蒙太奇来自 70 个在随访期间未患心肌病的高危幸存者（非病例）。为区分非病例与心肌病诊断或诊断前病例蒙太奇而训练的 DCNN 的 AUROC 为 0.89 ± 0.02，AUPRC 为 0.83 ± 0.03，F1-score 为 0.76 ± 0.04。当局限于较小的病例数据子集时（如诊断前≥ 1 年或 2 年），性能有所下降。模型输入格式对不同模型的性能准确性没有影响：该方法是开发 DCNN 的有希望的第一步，DCNN 能够准确区分诊断前与非病例超声心动图，从而预测更有可能患心肌病的幸存者。

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Building a machine learning-assisted echocardiography prediction tool for children at risk for cancer therapy-related cardiomyopathy.

Background: Despite routine echocardiographic surveillance for childhood cancer survivors, the ability to predict cardiomyopathy risk in individual patients is limited. We explored the feasibility and optimal processes for machine learning-enhanced cardiomyopathy prediction in survivors using serial echocardiograms from five centers.

Methods: We designed a series of deep convolutional neural networks (DCNNs) for prediction of cardiomyopathy (shortening fraction ≤ 28% or ejection fraction ≤ 50% on two occasions) for at-risk survivors ≥ 1-year post initial cancer therapy. We built DCNNs with four subsets of echocardiographic data differing in timing relative to case (survivor who developed cardiomyopathy) index diagnosis and two input formats (montages) with differing image selections. We used holdout subsets in a 10-fold cross-validation framework and standard metrics to assess model performance (e.g., F1-score, area under the precision-recall curve [AUPRC]). Performance of the input formats was compared using a combined 5 × 2 cross-validation F-test.

Results: The dataset included 542 pairs of montages: 171 montage pairs from 45 cases at time of cardiomyopathy diagnosis or pre-diagnosis and 371 pairs from 70 at-risk survivors who didn't develop cardiomyopathy during follow-up (non-case). The DCNN trained to distinguish between non-case and time of cardiomyopathy diagnosis or pre-diagnosis case montages achieved an AUROC of 0.89 ± 0.02, AUPRC 0.83 ± 0.03, and F1-score: 0.76 ± 0.04. When limited to smaller subsets of case data (e.g., ≥ 1 or 2 years pre-diagnosis), performance worsened. Model input format did not impact performance accuracy across models.

Conclusions: This methodology is a promising first step toward development of a DCNN capable of accurately differentiating pre-diagnosis versus non-case echocardiograms to predict survivors more likely to develop cardiomyopathy.

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来源期刊

Cardio-oncology Medicine-Cardiology and Cardiovascular Medicine

CiteScore

5.00

自引率

3.00%

发文量

审稿时长

7 weeks