通过机器学习提高经皮胆红素测定法的准确性。

Neonatology Pub Date : 2024-04-29 DOI:10.1159/000535970
Daisaku Morimoto, Yosuke Washio, Kana Fukuda, Takeshi Sato, Tomoka Okamura, Hirokazu Watanabe, Junko Yoshimoto, Maki Tanioka, Hirokazu Tsukahara
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引用次数: 0

摘要

简介本研究旨在根据可能影响组织胆红素分光光度测量的新生儿生物标志物,利用机器学习纠正经皮胆红素的误差,从而建立预测血清总胆红素的模型:这项回顾性研究包括 2020 年 1 月至 2022 年 12 月期间在我院出生的婴儿(≥36 周大,≥2,000 克)。其中包括无光疗史的婴儿。机器学习模型采用了稳健线性回归、梯度提升树和神经网络。受人脑结构启发设计的神经网络由三层组成:输入层、中间层和输出层:共纳入 683 名婴儿。平均(最小-最大)胎龄、出生体重、参与年龄、血清总胆红素和经皮胆红素分别为 39.0(36.0-42.0)周、3,004(2,004-4,484)克、2.8(1-6)天、8.50(2.67-18.12)毫克/分升和 7.8(1.1-18.1)毫克/分升。在交叉验证数据中,神经网络模型的均方根误差为 1.03 mg/dL,平均绝对误差为 0.80 mg/dL。与经皮胆红素相比,这两个数值分别小了 0.37 毫克/分升和 0.28 毫克/分升。神经网络估计值与血清总胆红素之间 95% 的一致性范围为-2.01 至 2.01 毫克/分升。不必要的抽血次数最多可减少 78%:结论:将机器学习与经皮胆红素结合使用,可将血清总胆红素估计误差降低 25%。这种整合可以提高准确性,减轻婴儿的不适感,简化操作程序,通过准确估算光疗阈值为抽血提供了一种智能替代方案。
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Machine Learning to Improve Accuracy of Transcutaneous Bilirubinometry.

Introduction: This study aimed to develop models for predicting total serum bilirubin by correcting errors of transcutaneous bilirubin using machine learning based on neonatal biomarkers that could affect spectrophotometric measurements of tissue bilirubin.

Methods: This retrospective study included infants born at our hospital (≥36 weeks old, ≥2,000 g) between January 2020 and December 2022. Infants without a phototherapy history were included. Robust linear regression, gradient boosting tree, and neural networks were used for machine learning models. A neural network, inspired by the structure of the human brain, was designed comprising three layers: input, intermediate, and output.

Results: Totally, 683 infants were included. The mean (minimum-maximum) gestational age, birth weight, participant age, total serum bilirubin, and transcutaneous bilirubin were 39.0 (36.0-42.0) weeks, 3,004 (2,004-4,484) g, 2.8 (1-6) days of age, 8.50 (2.67-18.12) mg/dL, and 7.8 (1.1-18.1) mg/dL, respectively. The neural network model had a root mean square error of 1.03 mg/dL and a mean absolute error of 0.80 mg/dL in cross-validation data. These values were 0.37 mg/dL and 0.28 mg/dL, smaller compared to transcutaneous bilirubin, respectively. The 95% limit of agreement between the neural network estimation and total serum bilirubin was -2.01 to 2.01 mg/dL. Unnecessary blood draws could be reduced by up to 78%.

Conclusion: Using machine learning with transcutaneous bilirubin, total serum bilirubin estimation error was reduced by 25%. This integration could increase accuracy, lessen infant discomfort, and simplify procedures, offering a smart alternative to blood draws by accurately estimating phototherapy thresholds.

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