在儿科心脏重症监护室用人工智能驱动的模型预测急性肾损伤。

Tiziana Fragasso, Valeria Raggi, Davide Passaro, Luca Tardella, Giovanna Jona Lasinio, Zaccaria Ricci
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引用次数: 0

摘要

背景:急性肾损伤(AKI)是成人和儿童心脏手术后最常见的并发症之一,严重影响发病率和死亡率。人工智能(AI)与机器学习(ML)可用于预测结果。AKI诊断预期可能是这些方法的理想目标。该研究的范围是基于电子健康记录(EHR)数据,使用随机森林(RF)算法建立一个机器学习(ML)训练模型,能够连续预测心脏手术后儿童48小时后的AKI,并测试其性能。在1115名住院患者中,有419名患者被纳入一项单中心回顾性研究。患者年龄小于18岁,于2018年8月至2020年2月入住儿科心脏重症监护室(PCICU),接受心脏手术、有创手术(血液动力学研究)和医疗条件,并有完整的EHR记录,48小时或更长时间后出院。结果:根据常见的心脏手术相关AKI临床预测因素,选择36个变量来构建算法。我们评估了不同结果的不同模型:二元AKI(无AKI与AKI)、严重AKI(没有轻度与重度AKI)和多类别分类(最大AKI和最频繁的AKI水平,模式AKI)。对于二进制分类,使用曲线下面积接收器操作特性(AUC ROC)评估算法性能,对于多类分类,使用准确度和K评估算法性能。二元型AKI的AUC ROC为0.93(95%CI 0.92-0.94),严重型AKI为0.99(95%CI 0.98-1)。模式AKI准确度为0.95,K为0.80(95%CI0.94-0.96);AKI的最大准确度为0.92,K为0.71(95%CI 0.91-0.93)。重要性矩阵图显示,二元AKI的肌酸酐、基础肌酸酐、血小板计数、肾上腺素支持和乳酸脱氢酶,加上严重AKI的体外循环时间是模型的最相关变量。结论:在一项回顾性观察性研究中,我们验证了ML模型来检测48小时后发生的AKI,该模型可以帮助临床医生对有AKI风险的患者进行个体化,其中预防策略可以是改善肾功能障碍发生的决定性因素。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Predicting acute kidney injury with an artificial intelligence-driven model in a pediatric cardiac intensive care unit.

Predicting acute kidney injury with an artificial intelligence-driven model in a pediatric cardiac intensive care unit.

Predicting acute kidney injury with an artificial intelligence-driven model in a pediatric cardiac intensive care unit.

Background: Acute kidney injury (AKI) is among the most common complications following cardiac surgery in adult and pediatric patients, significantly affecting morbidity and mortality. Artificial Intelligence (AI) with Machine Learning (ML) can be used to predict outcomes. AKI diagnosis anticipation may be an ideal target of these methods. The scope of the study is building a Machine Learning (ML) train model with Random Forest (RF) algorithm, based on electronic health record (EHR) data, able to forecast AKI continuously after 48 h in post-cardiac surgery children, and to test its performance. Four hundred nineteen consecutive patients out of 1115 hospital admissions were enrolled in a single-center retrospective study. Patients were younger than 18 years and admitted from August 2018 to February 2020 in a pediatric cardiac intensive care unit (PCICU) undergoing cardiac surgery, invasive procedure (hemodynamic studies), and medical conditions with complete EHR records and discharged after 48 h or more.

Results: Thirty-six variables were selected to build the algorithm according to commonly described cardiac surgery-associated AKI clinical predictors. We evaluated different models for different outcomes: binary AKI (no AKI vs. AKI), severe AKI (no-mild vs severe AKI), and multiclass classification (maximum AKI and the most frequent level of AKI, mode AKI). The algorithm performance was assessed with the area under the curve receiver operating characteristics (AUC ROC) for binary classification, with accuracy and K for multiclass classification. AUC ROC for binary AKI was 0.93 (95% CI 0.92-0.94), and for severe AKI was 0.99 (95% CI 0.98-1). Mode AKI accuracy was 0.95, and K was 0.80 (95% CI 0.94-0.96); maximum AKI accuracy was 0.92, and K was 0.71 (95% CI 0.91-0.93). The importance matrix plot demonstrated creatinine, basal creatinine, platelets count, adrenaline support, and lactate dehydrogenase for binary AKI with the addition of cardiopulmonary bypass duration for severe AKI as the most relevant variables of the model.

Conclusions: We validated a ML model to detect AKI occurring after 48 h in a retrospective observational study that could help clinicians in individuating patients at risk of AKI, in which a preventive strategy can be determinant to improve the occurrence of renal dysfunction.

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