U. Jansri, N. Chirakalwasan, Busarakum Chaitusaney, Supasuta Busayakanon, Thamonwan Khongjui, S. Tretriluxana
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引用次数: 2
摘要
睡眠呼吸暂停是一种睡眠呼吸障碍(SDB),被定义为睡眠中反复间歇性呼吸停止。它会导致各种危及生命的疾病。美国睡眠医学学会(AASM)发布了睡眠数据评分手册。患有SDB的患者需要在睡眠诊所接受监测,并记录多项生理数据,称为多导睡眠图(PSG)。大量的PSG数据必须由训练有素的专家评分,然后才能由医生诊断。我们的研究是在睡眠数据评分中使用人工智能(AI),特别是在呼吸事件检测中。三个现成的卷积神经网络(CNN);应用AlexNet、ResNet-50和VGG-16结合迁移学习对来自朱拉隆功医院的5个夜间PSG数据进行分类。我们的初步结果表明,所有网络在欧洲数据格式(EDF)下提供的分类结果比在文本(ASCII)格式下提供的分类结果更高(71% vs 54%)。ResNet-50模型结构在两种数据格式上的表现都优于其他两种网络。正如预期的那样,可视化(EDF)数据优于无条件(ASCII)数据。我们未来的发展是修改学习模型,从更多招募的PSG数据中提高评分性能。
Automatic Sleep Data Scoring by Artificial Intelligence: A Pilot Study in Thai Population
Sleep apnea, a sleep-disordered breathing (SDB), is defined as repeatedly intermittent cessation of breathing during sleep. It causes various life-threatening diseases. The American Academy of Sleep Medicine (AASM) releases the manual for sleep data scoring. Patients with SDB are prescribed to be monitored at the sleep clinic where several physiological data are recorded, called polysomnogram (PSG). The massive PSG data must be scored by the well-trained expert before being diagnosed by the physician. Our research is to use the Artificial Intelligence (AI) in sleep data scoring, particularly in respiratory events detection. Three ready-made Convolution Neural Networks (CNN); AlexNet, ResNet-50, and VGG-16, with transfer learning were applied to classify 5 overnight PSG data from Chulalongkorn hospital. Our preliminary results showed that all networks provide higher classification result in European Data Format (EDF) than in the text (ASCII) formats (71% vs 54%). The ResNet-50 model structure performed better than the other two networks on both data formats. As expected, the visualized (EDF) data is better than the unconditioned (ASCII) data. Our future development is modifying learning model to increase the scoring performance from more recruited PSG data.
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