Vivien S. Piccin, Erick D. L. B. de Camargo, Rafaela G. S. Andrade, Vinícius Torsani, Fabíola Schorr, Priscilla S. Sardinha, Fernanda Madeiro, Pedro R. Genta, Marcelo G. Gregório, Carlos R. R. de Carvalho, Marcelo B. P. Amato, Geraldo Lorenzi-Filho
{"title":"颈部电阻抗断层扫描监测睡眠时上呼吸道动态的可行性","authors":"Vivien S. Piccin, Erick D. L. B. de Camargo, Rafaela G. S. Andrade, Vinícius Torsani, Fabíola Schorr, Priscilla S. Sardinha, Fernanda Madeiro, Pedro R. Genta, Marcelo G. Gregório, Carlos R. R. de Carvalho, Marcelo B. P. Amato, Geraldo Lorenzi-Filho","doi":"10.3389/frsle.2023.1238508","DOIUrl":null,"url":null,"abstract":"Background There is a lack of non-invasive methods for monitoring the upper airway patency during sleep. Electrical impedance tomography (EIT) is a non-invasive, radiation-free tool that has been validated to monitor lung ventilation. We hypothesized that electrical impedance tomography (EIT) can be used for monitoring upper airway patency during sleep. Methods Sleep was induced in 21 subjects (14 males, age 43 ± 13 years, body mass index 32.0 ± 5.3 kg/m 2 ) with suspected obstructive sleep apnea (apnea-hypopnea index: 44 ± 37 events/h, range: 1–122 events/h) using low doses of midazolam. Patients wore a nasal mask attached to a modified CPAP device, allowing variable and controlled degrees of upper airway obstruction. Confirmation of upper airway patency was obtained with direct visualization of the upper airway using nasofibroscopy ( n = 6). The changes in total neck impedance and in impedance in four cranio-caudal regions of interest (ROIs) were analyzed. Results Total neck impedance varied in concert with breathing cycles and peaked during expiration in all patients. Group data showed a high cross-correlation between flow and impedance curves ( r = −0.817, p < 0.001). Inspiratory peak flow correlated with simultaneous neck impedance ( r = 0.866, p < 0.001). There was a high correlation between total neck impedance and velopharynx area ( r = 0.884, p < 0.001), and total neck impedance and oropharynx area ( r = 0.891, p < 0.001). Conclusions Neck EIT is sensitive and captures pharyngeal obstruction under various conditions. Neck EIT is a promising method for real-time monitoring of the pharynx during sleep.","PeriodicalId":73106,"journal":{"name":"Frontiers in sleep","volume":null,"pages":null},"PeriodicalIF":0.0000,"publicationDate":"2023-09-21","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Feasibility of neck electrical impedance tomography to monitor upper airway dynamics during sleep\",\"authors\":\"Vivien S. Piccin, Erick D. L. B. de Camargo, Rafaela G. S. Andrade, Vinícius Torsani, Fabíola Schorr, Priscilla S. Sardinha, Fernanda Madeiro, Pedro R. Genta, Marcelo G. Gregório, Carlos R. R. de Carvalho, Marcelo B. P. Amato, Geraldo Lorenzi-Filho\",\"doi\":\"10.3389/frsle.2023.1238508\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Background There is a lack of non-invasive methods for monitoring the upper airway patency during sleep. Electrical impedance tomography (EIT) is a non-invasive, radiation-free tool that has been validated to monitor lung ventilation. We hypothesized that electrical impedance tomography (EIT) can be used for monitoring upper airway patency during sleep. Methods Sleep was induced in 21 subjects (14 males, age 43 ± 13 years, body mass index 32.0 ± 5.3 kg/m 2 ) with suspected obstructive sleep apnea (apnea-hypopnea index: 44 ± 37 events/h, range: 1–122 events/h) using low doses of midazolam. Patients wore a nasal mask attached to a modified CPAP device, allowing variable and controlled degrees of upper airway obstruction. Confirmation of upper airway patency was obtained with direct visualization of the upper airway using nasofibroscopy ( n = 6). The changes in total neck impedance and in impedance in four cranio-caudal regions of interest (ROIs) were analyzed. Results Total neck impedance varied in concert with breathing cycles and peaked during expiration in all patients. Group data showed a high cross-correlation between flow and impedance curves ( r = −0.817, p < 0.001). Inspiratory peak flow correlated with simultaneous neck impedance ( r = 0.866, p < 0.001). There was a high correlation between total neck impedance and velopharynx area ( r = 0.884, p < 0.001), and total neck impedance and oropharynx area ( r = 0.891, p < 0.001). Conclusions Neck EIT is sensitive and captures pharyngeal obstruction under various conditions. 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引用次数: 0
摘要
研究背景:缺乏非侵入性方法监测睡眠期间上呼吸道通畅。电阻抗断层扫描(EIT)是一种无创、无辐射的工具,已被证实可用于监测肺通气。我们假设电阻抗断层扫描(EIT)可用于监测睡眠期间的上呼吸道通畅。方法对21例疑似阻塞性睡眠呼吸暂停(呼吸暂停-低通气指数:44±37事件/h,范围:1 ~ 122事件/h)的患者(男性14例,年龄43±13岁,体重指数32.0±5.3 kg/ m2)采用低剂量咪达唑仑诱导睡眠。患者佩戴的鼻罩连接改良的CPAP设备,允许可变和可控程度的上气道阻塞。通过鼻纤维镜直接观察上呼吸道,确认上呼吸道通畅(n = 6)。分析颈部总阻抗和四个颅尾感兴趣区阻抗的变化。结果所有患者的颈部总阻抗随呼吸周期变化,在呼气时达到峰值。组内数据显示,流量和阻抗曲线之间具有高度的相互关系(r = - 0.817, p <0.001)。吸气峰值流量与同时颈部阻抗相关(r = 0.866, p <0.001)。颈部总阻抗与腭咽面积高度相关(r = 0.884, p <0.001),颈部总阻抗和口咽部面积(r = 0.891, p <0.001)。结论颈部EIT反应灵敏,能捕捉到各种情况下的咽部梗阻。颈部EIT是一种很有前途的实时监测睡眠中咽部的方法。
Feasibility of neck electrical impedance tomography to monitor upper airway dynamics during sleep
Background There is a lack of non-invasive methods for monitoring the upper airway patency during sleep. Electrical impedance tomography (EIT) is a non-invasive, radiation-free tool that has been validated to monitor lung ventilation. We hypothesized that electrical impedance tomography (EIT) can be used for monitoring upper airway patency during sleep. Methods Sleep was induced in 21 subjects (14 males, age 43 ± 13 years, body mass index 32.0 ± 5.3 kg/m 2 ) with suspected obstructive sleep apnea (apnea-hypopnea index: 44 ± 37 events/h, range: 1–122 events/h) using low doses of midazolam. Patients wore a nasal mask attached to a modified CPAP device, allowing variable and controlled degrees of upper airway obstruction. Confirmation of upper airway patency was obtained with direct visualization of the upper airway using nasofibroscopy ( n = 6). The changes in total neck impedance and in impedance in four cranio-caudal regions of interest (ROIs) were analyzed. Results Total neck impedance varied in concert with breathing cycles and peaked during expiration in all patients. Group data showed a high cross-correlation between flow and impedance curves ( r = −0.817, p < 0.001). Inspiratory peak flow correlated with simultaneous neck impedance ( r = 0.866, p < 0.001). There was a high correlation between total neck impedance and velopharynx area ( r = 0.884, p < 0.001), and total neck impedance and oropharynx area ( r = 0.891, p < 0.001). Conclusions Neck EIT is sensitive and captures pharyngeal obstruction under various conditions. Neck EIT is a promising method for real-time monitoring of the pharynx during sleep.
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