Factors associated with the local control of brain metastases: a systematic search and machine learning application.

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Hemalatha Kanakarajan, Wouter De Baene, Karin Gehring, Daniëlle B P Eekers, Patrick Hanssens, Margriet Sitskoorn
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引用次数: 0

Abstract

Background: Enhancing Local Control (LC) of brain metastases is pivotal for improving overall survival, which makes the prediction of local treatment failure a crucial aspect of treatment planning. Understanding the factors that influence LC of brain metastases is imperative for optimizing treatment strategies and subsequently extending overall survival. Machine learning algorithms may help to identify factors that predict outcomes.

Methods: This paper systematically reviews these factors associated with LC to select candidate predictor features for a practical application of predictive modeling. A systematic literature search was conducted to identify studies in which the LC of brain metastases is assessed for adult patients. EMBASE, PubMed, Web-of-Science, and the Cochrane Database were searched up to December 24, 2020. All studies investigating the LC of brain metastases as one of the endpoints were included, regardless of primary tumor type or treatment type. We first grouped studies based on primary tumor types resulting in lung, breast, and melanoma groups. Studies that did not focus on a specific primary cancer type were grouped based on treatment types resulting in surgery, SRT, and whole-brain radiotherapy groups. For each group, significant factors associated with LC were identified and discussed. As a second project, we assessed the practical importance of selected features in predicting LC after Stereotactic Radiotherapy (SRT) with a Random Forest machine learning model. Accuracy and Area Under the Curve (AUC) of the Random Forest model, trained with the list of factors that were found to be associated with LC for the SRT treatment group, were reported.

Results: The systematic literature search identified 6270 unique records. After screening titles and abstracts, 410 full texts were considered, and ultimately 159 studies were included for review. Most of the studies focused on the LC of the brain metastases for a specific primary tumor type or after a specific treatment type. Higher SRT radiation dose was found to be associated with better LC in lung cancer, breast cancer, and melanoma groups. Also, a higher dose was associated with better LC in the SRT group, while higher tumor volume was associated with worse LC in this group. The Random Forest model predicted the LC of brain metastases with an accuracy of 80% and an AUC of 0.84.

Conclusion: This paper thoroughly examines factors associated with LC in brain metastases and highlights the translational value of our findings for selecting variables to predict LC in a sample of patients who underwent SRT. The prediction model holds great promise for clinicians, offering a valuable tool to predict personalized treatment outcomes and foresee the impact of changes in treatment characteristics such as radiation dose.

与脑转移瘤局部控制相关的因素:系统搜索和机器学习应用。
背景:加强脑转移瘤的局部控制(LC)是提高总生存率的关键,因此预测局部治疗失败是治疗计划的一个重要方面。了解影响脑转移瘤局部控制的因素对于优化治疗策略和延长总生存期至关重要。机器学习算法可能有助于确定预测结果的因素:本文系统回顾了这些与低密度脑转移相关的因素,为预测建模的实际应用选择候选预测特征。本文通过系统的文献检索,确定了对成年患者脑转移瘤 LC 进行评估的研究。截至 2020 年 12 月 24 日,对 EMBASE、PubMed、Web-of-Science 和 Cochrane 数据库进行了检索。所有将脑转移灶低密度作为终点之一进行调查的研究均被纳入,无论原发肿瘤类型或治疗类型如何。我们首先根据原发肿瘤类型对研究进行分组,得出肺癌组、乳腺癌组和黑色素瘤组。对于没有关注特定原发肿瘤类型的研究,我们根据治疗类型将其分为手术组、SRT 组和全脑放疗组。对于每一组,我们都确定并讨论了与 LC 相关的重要因素。作为第二个项目,我们利用随机森林机器学习模型评估了所选特征在预测立体定向放射治疗(SRT)后LC方面的实际重要性。我们报告了随机森林模型的准确性和曲线下面积(AUC),该模型是用SRT治疗组中发现与LC相关的因素列表训练而成的:系统性文献检索发现了 6270 条独特记录。在筛选了标题和摘要后,考虑了 410 篇全文,最终纳入了 159 项研究进行审查。大多数研究侧重于特定原发肿瘤类型或特定治疗类型后脑转移灶的 LC。研究发现,在肺癌、乳腺癌和黑色素瘤组中,较高的 SRT 放射剂量与较好的 LC 相关。此外,在 SRT 组中,剂量越大,LC 越好,而肿瘤体积越大,LC 越差。随机森林模型预测脑转移瘤LC的准确率为80%,AUC为0.84:本文深入研究了与脑转移瘤LC相关的因素,并强调了我们的研究结果在选择变量预测SRT患者样本LC方面的转化价值。该预测模型为临床医生带来了巨大的希望,为预测个性化治疗结果和预见放射剂量等治疗特征变化的影响提供了有价值的工具。
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
7.20
自引率
4.30%
发文量
567
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