利用真实世界的患者数据预测免疫检查点抑制剂的有效性和毒性。

IF 3.3 Q2 ONCOLOGY

JCO Clinical Cancer Informatics Pub Date : 2024-02-01 DOI:10.1200/CCI.23.00207

Levente Lippenszky, Kathleen F Mittendorf, Zoltán Kiss, Michele L LeNoue-Newton, Pablo Napan-Molina, Protiva Rahman, Cheng Ye, Balázs Laczi, Eszter Csernai, Neha M Jain, Marilyn E Holt, Christina N Maxwell, Madeleine Ball, Yufang Ma, Margaret B Mitchell, Douglas B Johnson, David S Smith, Ben H Park, Christine M Micheel, Daniel Fabbri, Jan Wolber, Travis J Osterman

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引用次数: 0

摘要

目的：尽管免疫检查点抑制剂（ICIs）改善了某些癌症患者的治疗效果，但它们也可能导致危及生命的免疫毒性。预测免疫毒性风险和反应可提供个性化的风险-效益概况，为治疗决策提供信息，并改善临床试验队列的选择。我们旨在利用常规电子健康记录（EHR）数据建立一个机器学习（ML）框架，以预测肝炎、结肠炎、肺炎和1年总生存期：截至 2018 年 12 月 31 日，使用 ICI 治疗的 2200 多名患者的真实 EHR 数据被用于开发预测模型。使用 ICI 启动的预测时间点，应用 1 年的预测时间窗为每位患者的四种结果创建二进制标签。特征工程包括在适当的时间窗（60-365 天）内汇总实验室测量结果。患者被随机分为训练集（80%）和测试集（20%）。使用严格的模型开发框架开发随机森林分类器：患者群的中位年龄为 63 岁，61.8% 为男性。患者主要患有黑色素瘤（37.8%）、肺癌（27.3%）或泌尿生殖系统癌症（16.4%）。他们接受了 PD-1（60.4%）、PD-L1（9.0%）和 CTLA-4 （19.7%） ICIs 治疗。我们的模型表现出相当强的性能，肺炎、肝炎、结肠炎和 1 年总生存期模型的 AUC 分别为 0.739、0.729、0.755 和 0.752。每个模型都依赖于特定结果的特征集，尽管模型之间共享某些特征：据我们所知，这是首个主要基于常规结构化电子病历数据评估个体 ICI 风险-效益概况的 ML 解决方案。因此，使用我们的 ML 解决方案无需在临床中进行额外的数据收集或记录。

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Prediction of Effectiveness and Toxicities of Immune Checkpoint Inhibitors Using Real-World Patient Data.

Purpose: Although immune checkpoint inhibitors (ICIs) have improved outcomes in certain patients with cancer, they can also cause life-threatening immunotoxicities. Predicting immunotoxicity risks alongside response could provide a personalized risk-benefit profile, inform therapeutic decision making, and improve clinical trial cohort selection. We aimed to build a machine learning (ML) framework using routine electronic health record (EHR) data to predict hepatitis, colitis, pneumonitis, and 1-year overall survival.

Methods: Real-world EHR data of more than 2,200 patients treated with ICI through December 31, 2018, were used to develop predictive models. Using a prediction time point of ICI initiation, a 1-year prediction time window was applied to create binary labels for the four outcomes for each patient. Feature engineering involved aggregating laboratory measurements over appropriate time windows (60-365 days). Patients were randomly partitioned into training (80%) and test (20%) sets. Random forest classifiers were developed using a rigorous model development framework.

Results: The patient cohort had a median age of 63 years and was 61.8% male. Patients predominantly had melanoma (37.8%), lung cancer (27.3%), or genitourinary cancer (16.4%). They were treated with PD-1 (60.4%), PD-L1 (9.0%), and CTLA-4 (19.7%) ICIs. Our models demonstrate reasonably strong performance, with AUCs of 0.739, 0.729, 0.755, and 0.752 for the pneumonitis, hepatitis, colitis, and 1-year overall survival models, respectively. Each model relies on an outcome-specific feature set, though some features are shared among models.

Conclusion: To our knowledge, this is the first ML solution that assesses individual ICI risk-benefit profiles based predominantly on routine structured EHR data. As such, use of our ML solution will not require additional data collection or documentation in the clinic.

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来源期刊

JCO Clinical Cancer Informatics ONCOLOGY-

CiteScore

6.20

自引率

4.80%

发文量

190