多导睡眠图中用于识别呼吸事件的传感器的比较分析

N Eriksson, A Carballo, C Roberts
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引用次数: 0

摘要

AASM推荐使用鼻压(NP)、口鼻热流(TF)和呼吸感应容积描记(RIP)来检测和表征多导睡眠图中的呼吸事件。据报道,使用NP和TF传感器在呼吸事件识别中比单独使用更准确。然而,这些传感器可能不可靠,如果移位和引起不适。noturnal校准RIP流量(cRIPflow)源于RIP,可能为识别呼吸事件的流量测量提供一种非侵入性的替代方法。方法采用AASM标准,由一位经验丰富的评分员对10项诊断性睡眠研究进行呼吸评分。每个研究使用三种不同的测量方法重复评分:仅cRIPflow,仅热敏电阻(Th)和Th+NP (AASM推荐)。计算呼吸暂停低通气指数(AHI)、中枢性呼吸暂停指数(CAI)、阻塞性呼吸暂停指数(OAI)、混合性呼吸暂停指数(MAI)和低通气指数(HI),并采用配对t检验分析比较测量值之间的差异。结果cRIPflow与Th或Th+NP在呼吸事件识别方面比较,CAI (cRIPflow 3.2/hr±7.1,Th 3.9/hr±8.9,Th+NP 3.1/hr±7.5)、OAI (cRIPflow 6.1/hr±6.8,Th 5.3/hr±8.2,Th+NP 6.7/hr±8.9)、MAI (cRIPflow 5.2/hr±9.7,Th 4.3/hr±8.7,Th+NP 4.7/hr±9.2)或HI (cRIPflow 12.5/hr±13.9,Th 11.1/hr±10.5,Th+NP 10.4/hr±10.7)均无统计学差异。两组AHI差异有统计学意义(cRIPflow 26.9/hr±26.6,Th 24.5/hr±26.4,Th+NP 25.0/hr±26.5)。本研究表明,cRIPflow可能为呼吸事件的检测和表征提供了一种替代测量方法,然而,更大样本量的进一步分析将更深入地了解该方法的敏感性和特异性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
P045 Noxturnal cRIP: A Comparative Analysis of Sensors for the Identification of Respiratory Events in Polysomnography
Abstract Introduction AASM recommends the use of nasal pressure (NP), oronasal thermal flow (TF), and respiratory inductance plethysmography (RIP) for detecting and characterising respiratory events in polysomnography. The use of both NP and TF sensors is reported to be more accurate in respiratory event identification than either alone. However, these sensors can be unreliable if dislodged and cause discomfort. Noxturnal calibrated RIP flow (cRIPflow), derived from RIP, may provide a non-invasive alternative method for flow measurement in identification of respiratory events. Method Respiratory scoring was performed manually by a single experienced scorer on 10 diagnostic sleep studies under AASM standards. Scoring was repeated using three different measurements for each study: cRIPflow only, Thermistor (Th) only and both Th+NP (AASM recommendation). Apnoea hypopnoea index (AHI), central apnoea index (CAI), obstructive apnoea index (OAI), mixed apnoea index (MAI) and hypopnoea index (HI) were calculated and paired t-test analysis utilised for comparison between measurements. Results No statistical differences were identified in comparison of cRIPflow with Th or Th+NP in respiratory event identification: CAI (cRIPflow 3.2/hr±7.1, Th 3.9/hr±8.9, Th+NP 3.1/hr±7.5), OAI (cRIPflow 6.1/hr±6.8, Th 5.3/hr±8.2, Th+NP 6.7/hr±8.9), MAI (cRIPflow 5.2/hr±9.7, Th 4.3/hr±8.7, Th+NP 4.7/hr±9.2), or HI (cRIPflow 12.5/hr±13.9, Th 11.1/hr±10.5, Th+NP 10.4/hr±10.7). There was a statistical difference for AHI (cRIPflow 26.9/hr±26.6, Th 24.5/hr±26.4, Th+NP 25.0/hr±26.5). Discussion This study suggests cRIPflow may provide an alternative measurement in the detection and characterisation of respiratory events, however further analysis with larger sample size would provide more insight into sensitivity and specificity of this method.
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