Evaluation of automated pediatric sleep stage classification using U-Sleep: a convolutional neural network.

IF 3.5 3区 医学 Q1 CLINICAL NEUROLOGY Journal of Clinical Sleep Medicine Pub Date : 2024-09-26 DOI:10.5664/jcsm.11362
Ajay Kevat, Rylan Steinkey, Sadasivam Suresh, Warren R Ruehland, Jasneek Chawla, Philip I Terrill, Andrew Collaro, Kartik Iyer
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Abstract

Study objectives: U-Sleep is a publicly available automated sleep stager, but has not been independently validated using pediatric data. We aimed to a) test the hypothesis that U-Sleep performance is equivalent to trained humans, using a concordance dataset of 50 pediatric polysomnogram excerpts scored by multiple trained scorers, and b) identify clinical and demographic characteristics that impact U-Sleep accuracy, using a clinical dataset of 3114 polysomnograms from a tertiary center.

Methods: Agreement between U-Sleep and 'gold' 30-second epoch sleep staging was determined across both datasets. Utilizing the concordance dataset, the hypothesis of equivalence between human scorers and U-Sleep was tested using a Wilcoxon two one-sided test (TOST). Multivariable regression and generalized additive modelling were used on the clinical dataset to estimate the effects of age, comorbidities and polysomnographic findings on U-Sleep performance.

Results: The median (interquartile range) Cohen's kappa agreement of U-Sleep and individual trained humans relative to "gold" scoring for 5-stage sleep staging in the concordance dataset were similar, kappa=0.79 (0.19) vs 0.78 (0.13) respectively, and satisfied statistical equivalence (TOST p < 0.01). Median (interquartile range) kappa agreement between U-Sleep 2.0 and clinical sleep-staging was kappa=0.69 (0.22). Modelling indicated lower performance for children < 2 years, those with medical comorbidities possibly altering sleep electroencephalography (kappa reduction=0.07-0.15) and those with decreased sleep efficiency or sleep-disordered breathing (kappa reduction=0.1).

Conclusions: While U-Sleep algorithms showed statistically equivalent performance to trained scorers, accuracy was lower in children < 2 years and those with sleep-disordered breathing or comorbidities affecting electroencephalography. U-Sleep is suitable for pediatric clinical utilization provided automated staging is followed by expert clinician review.

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使用 U-Sleep:卷积神经网络对儿科睡眠阶段自动分类进行评估。
研究目的:U-Sleep 是一款可公开获取的自动睡眠分级器,但尚未使用儿科数据进行独立验证。我们的目的是:a)使用由多名训练有素的评分员评分的 50 个儿科多导睡眠图节选的一致性数据集,验证 U-Sleep 的性能等同于训练有素的人类的假设;b)使用来自一个三级中心的 3114 个多导睡眠图的临床数据集,确定影响 U-Sleep 准确性的临床和人口特征:方法: 在两个数据集中确定 U-Sleep 与 "黄金 "30 秒历时睡眠分期之间的一致性。利用一致性数据集,使用Wilcoxon双侧检验(TOST)对人类评分员和U-Sleep之间的等效性假设进行了检验。在临床数据集上使用多变量回归和广义相加模型来估计年龄、合并症和多导睡眠图检查结果对 U-Sleep 性能的影响:在一致性数据集中,U-Sleep 和训练有素的个体相对于 "黄金 "评分的 5 阶段睡眠分期的 Cohen's kappa 一致度中位数(四分位数间距)相似,分别为 kappa=0.79 (0.19) vs 0.78 (0.13),符合统计学等效性(TOST p < 0.01)。U-Sleep 2.0 与临床睡眠分期的 kappa 一致度中位数(四分位数间距)为 kappa=0.69 (0.22)。建模结果显示,小于2岁的儿童、有可能改变睡眠脑电图的并发症的儿童(kappa值减小=0.07-0.15)以及睡眠效率下降或睡眠呼吸紊乱的儿童(kappa值减小=0.1),两者的一致性较低:虽然U-Sleep算法在统计学上与训练有素的评分员表现相当,但在小于2岁的儿童和有睡眠呼吸障碍或合并症影响脑电图的儿童中,准确率较低。U-Sleep适合儿科临床使用,但自动分期需经临床专家审核。
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来源期刊
CiteScore
6.20
自引率
7.00%
发文量
321
审稿时长
1 months
期刊介绍: Journal of Clinical Sleep Medicine focuses on clinical sleep medicine. Its emphasis is publication of papers with direct applicability and/or relevance to the clinical practice of sleep medicine. This includes clinical trials, clinical reviews, clinical commentary and debate, medical economic/practice perspectives, case series and novel/interesting case reports. In addition, the journal will publish proceedings from conferences, workshops and symposia sponsored by the American Academy of Sleep Medicine or other organizations related to improving the practice of sleep medicine.
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