Ethan Flowerday, Ali Daneshkhah, Yuanzhe Su, Vadim Backman, Seth D Goldstein
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引用次数: 0
摘要
坏死性小肠结肠炎(NEC)是一种影响早产儿的毁灭性疾病。宽带光学光谱(BOS)是一种从早产儿腹腔内器官收集无创光学数据的方法,为疾病检测提供了潜力。本文开发了一种新颖的机器学习方法--迭代主成分分析法(iPCA),从新生儿重症监护室(NICU)患者体内采集的 BOS 数据中选择最佳波长进行 NEC 分类。对神经网络模型进行了分类训练,简化特征模型区分 NEC 的准确率为 88%,灵敏度为 89%,特异性为 88%。虽然全谱模型在准确性和特异性方面表现最佳,但缩减特征模型在灵敏度方面表现突出,而且对其他指标的影响最小。这项研究支持了通过 BOS 分析人体组织可以进行非侵入性疾病检测的假设。此外,利用这些模型优化的医疗设备可能只需 7 个波长就能筛查 NEC。
Necrotizing Enterocolitis Detection in Premature Infants Using Broadband Optical Spectroscopy.
Necrotizing enterocolitis (NEC) is a devastating disease affecting premature infants. Broadband optical spectroscopy (BOS) is a method of noninvasive optical data collection from intra-abdominal organs in premature infants, offering potential for disease detection. Herein, a novel machine learning approach, iterative principal component analysis (iPCA), is developed to select optimal wavelengths from BOS data collected in vivo from neonatal intensive care unit (NICU) patients for NEC classification. Neural network models were trained for classification, with a reduced-feature model distinguishing NEC with an accuracy of 88%, a sensitivity of 89%, and a specificity of 88%. While whole-spectrum models performed the best for accuracy and specificity, a reduced feature model excelled in sensitivity, with minimal cost to other metrics. This research supports the hypothesis that the analysis of human tissue via BOS may permit noninvasive disease detection. Furthermore, a medical device optimized with these models may potentially screen for NEC with as few as seven wavelengths.
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