Measures of overnight oxygen saturation to characterize sleep apnea severity and predict postoperative respiratory depression.

IF 2.9 4区医学 Q3 ENGINEERING, BIOMEDICAL BioMedical Engineering OnLine Pub Date : 2024-07-08 DOI:10.1186/s12938-024-01254-8

Atousa Assadi, Frances Chung, Azadeh Yadollahi

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Abstract

Background: Sleep apnea syndrome, characterized by recurrent cessation (apnea) or reduction (hypopnea) of breathing during sleep, is a major risk factor for postoperative respiratory depression. Challenges in sleep apnea assessment have led to the proposal of alternative metrics derived from oxyhemoglobin saturation (SpO₂), such as oxygen desaturation index (ODI) and percentage of cumulative sleep time spent with SpO₂ below 90% (CT90), as predictors of postoperative respiratory depression. However, their performance has been limited with area under the curve of 0.60 for ODI and 0.59 for CT90. Our objective was to propose novel features from preoperative overnight SpO₂ which are correlated with sleep apnea severity and predictive of postoperative respiratory depression.

Methods: Preoperative SpO₂ signals from 235 surgical patients were retrospectively analyzed to derive seven features to characterize the sleep apnea severity. The features included entropy and standard deviation of SpO₂ signal; below average burden characterizing the area under the average SpO₂; average, standard deviation, and entropy of desaturation burdens; and overall nocturnal desaturation burden. The association between the extracted features and sleep apnea severity was assessed using Pearson correlation analysis. Logistic regression was employed to evaluate the predictive performance of the features in identifying postoperative respiratory depression.

Results: Our findings indicated a similar performance of the proposed features to the conventional apnea-hypopnea index (AHI) for assessing sleep apnea severity, with average area under the curve ranging from 0.77 to 0.81. Notably, entropy and standard deviation of overnight SpO₂ signal and below average burden showed comparable predictive capability to AHI but with minimal computational requirements and individuals' burden, making them promising for screening purposes. Our sex-based analysis revealed that compared to entropy and standard deviation, below average burden exhibited higher sensitivity in detecting respiratory depression in women than men.

Conclusion: This study underscores the potential of preoperative SpO₂ features as alternative metrics to AHI in predicting postoperative respiratory.

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通过测量夜间血氧饱和度来确定睡眠呼吸暂停的严重程度并预测术后呼吸抑制。

背景：睡眠呼吸暂停综合征的特点是睡眠时呼吸反复停止（呼吸暂停）或减弱（呼吸减弱），是术后呼吸抑制的主要风险因素。由于睡眠呼吸暂停评估方面的挑战，人们提出了从氧合血红蛋白饱和度（SpO2）中得出的替代指标，如氧饱和度减低指数（ODI）和 SpO2 低于 90% 的累积睡眠时间百分比（CT90），作为术后呼吸抑制的预测指标。然而，它们的性能有限，ODI 和 CT90 的曲线下面积分别为 0.60 和 0.59。我们的目标是从术前夜间 SpO2 中提出与睡眠呼吸暂停严重程度相关并能预测术后呼吸抑制的新特征：方法：我们对 235 名手术患者的术前 SpO2 信号进行了回顾性分析，得出了七个特征来描述睡眠呼吸暂停的严重程度。这些特征包括 SpO2 信号的熵和标准偏差；平均 SpO2 下面积的平均以下负担；饱和度降低负担的平均值、标准偏差和熵；以及总体夜间饱和度降低负担。提取的特征与睡眠呼吸暂停严重程度之间的关联采用皮尔逊相关分析法进行评估。采用逻辑回归评估了这些特征在识别术后呼吸抑制方面的预测性能：结果：我们的研究结果表明，在评估睡眠呼吸暂停严重程度方面，所提出的特征与传统的呼吸暂停-低通气指数（AHI）性能相似，平均曲线下面积在 0.77 至 0.81 之间。值得注意的是，夜间 SpO2 信号的熵和标准偏差以及低于平均负担的数据显示出与 AHI 相当的预测能力，但计算要求和个人负担最小，因此有望用于筛查。我们基于性别的分析表明，与熵和标准偏差相比，低于平均负荷在检测女性呼吸抑制方面的灵敏度高于男性：本研究强调了术前 SpO2 特征作为 AHI 替代指标在预测术后呼吸功能方面的潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

BioMedical Engineering OnLine 工程技术-工程：生物医学

CiteScore

6.70

自引率

2.60%

发文量

审稿时长

1 months

期刊介绍： BioMedical Engineering OnLine is an open access, peer-reviewed journal that is dedicated to publishing research in all areas of biomedical engineering. BioMedical Engineering OnLine is aimed at readers and authors throughout the world, with an interest in using tools of the physical and data sciences and techniques in engineering to understand and solve problems in the biological and medical sciences. Topical areas include, but are not limited to: Bioinformatics- Bioinstrumentation- Biomechanics- Biomedical Devices & Instrumentation- Biomedical Signal Processing- Healthcare Information Systems- Human Dynamics- Neural Engineering- Rehabilitation Engineering- Biomaterials- Biomedical Imaging & Image Processing- BioMEMS and On-Chip Devices- Bio-Micro/Nano Technologies- Biomolecular Engineering- Biosensors- Cardiovascular Systems Engineering- Cellular Engineering- Clinical Engineering- Computational Biology- Drug Delivery Technologies- Modeling Methodologies- Nanomaterials and Nanotechnology in Biomedicine- Respiratory Systems Engineering- Robotics in Medicine- Systems and Synthetic Biology- Systems Biology- Telemedicine/Smartphone Applications in Medicine- Therapeutic Systems, Devices and Technologies- Tissue Engineering