监测下颌运动以检测潮式呼吸。

Monitoring mandibular movements to detect Cheyne-Stokes Breathing.

作者信息

Martinot Jean-Benoît, Borel Jean-Christian, Le-Dong Nhat-Nam, Guénard Hervé Jean-Pierre, Cuthbert Valerie, Silkoff Philip E, Gozal David, Pepin Jean-Louis

机构信息

Centre du Sommeil et de la Vigilance, CHU UCL Namur Site Ste Elisabeth, 15, Place Louise Godin, 5000, Namur, Belgium.

AGIR à dom. Association, 38240, Meylan, France.

出版信息

Respir Res. 2017 Apr 20;18(1):66. doi: 10.1186/s12931-017-0551-8.

DOI:10.1186/s12931-017-0551-8

PMID:28427400

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5399309/

Abstract

BACKGROUND

The patterns of mandibular movements (MM) during sleep can be used to identify increased respiratory effort periodic large-amplitude MM (LPM), and cortical arousals associated with "sharp" large-amplitude MM (SPM). We hypothesized that Cheyne Stokes breathing (CSB) may be identified by periodic abnormal MM patterns. The present study aims to evaluate prospectively the concordance between CSB detected by periodic MM and polysomnography (PSG) as gold-standard. The present study aims to evaluate prospectively the concordance between CSB detected by periodic MM and polysomnography (PSG) as gold-standard.

METHODS

In 573 consecutive patients attending an in-laboratory PSG for suspected sleep disordered breathing (SDB), MM signals were acquired using magnetometry and scored manually while blinded from the PSG signal. Data analysis aimed to verify the concordance between the CSB identified by PSG and the presence of LPM or SPM. The data were randomly divided into training and validation sets (985 5-min segments/set) and concordance was evaluated using 2 classification models.

RESULTS

In PSG, 22 patients (mean age ± SD: 65.9 ± 15.0 with a sex ratio M/F of 17/5) had CSB (mean central apnea hourly indice ± SD: 17.5 ± 6.2) from a total of 573 patients with suspected SDB. When tested on independent subset, the classification of CSB based on LPM and SPM is highly accurate (Balanced-accuracy = 0.922, sensitivity = 0.922, specificity = 0.921 and error-rate = 0.078). Logistic models based odds-ratios for CSB in presence of SPM or LPM were 172.43 (95% CI: 88.23-365.04; p < 0.001) and 186.79 (95% CI: 100.48-379.93; p < 0.001), respectively.

CONCLUSION

CSB in patients with sleep disordered breathing could be accurately identified by a simple magnetometer device recording mandibular movements.

摘要

背景

睡眠期间的下颌运动模式（MM）可用于识别呼吸努力增加（周期性大幅度MM，即LPM）以及与“尖锐”大幅度MM（即SPM）相关的皮层觉醒。我们假设周期性异常MM模式可识别出潮式呼吸（CSB）。本研究旨在前瞻性评估通过周期性MM检测到的CSB与作为金标准的多导睡眠图（PSG）之间的一致性。本研究旨在前瞻性评估通过周期性MM检测到的CSB与作为金标准的多导睡眠图（PSG）之间的一致性。

方法

在573例因疑似睡眠呼吸障碍（SDB）而接受实验室PSG检查的连续患者中，使用磁力测定法获取MM信号，并在对PSG信号不知情的情况下进行人工评分。数据分析旨在验证PSG识别出的CSB与LPM或SPM的存在之间的一致性。数据被随机分为训练集和验证集（每组985个5分钟片段），并使用两种分类模型评估一致性。

结果

在PSG检查中，573例疑似SDB患者中，有22例（平均年龄±标准差：65.9±15.0，男女比例为17/5）存在CSB（平均中枢性呼吸暂停每小时指数±标准差：17.5±6.2）。在独立子集中进行测试时，基于LPM和SPM对CSB的分类具有高度准确性（平衡准确率=0.922，灵敏度=0.922，特异性=0.921，错误率=0.078）。存在SPM或LPM时，基于逻辑模型的CSB优势比分别为172.43（95%可信区间：88.23-365.04；p<0.001）和186.79（95%可信区间：100.48-379.93；p<0.001）。

结论

睡眠呼吸障碍患者的CSB可通过记录下颌运动的简单磁力计设备准确识别。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c1bb/5399309/f07d29950182/12931_2017_551_Fig1_HTML.jpg

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监测下颌运动以检测潮式呼吸。

Monitoring mandibular movements to detect Cheyne-Stokes Breathing.

作者信息

Martinot Jean-Benoît, Borel Jean-Christian, Le-Dong Nhat-Nam, Guénard Hervé Jean-Pierre, Cuthbert Valerie, Silkoff Philip E, Gozal David, Pepin Jean-Louis

机构信息

Centre du Sommeil et de la Vigilance, CHU UCL Namur Site Ste Elisabeth, 15, Place Louise Godin, 5000, Namur, Belgium.

AGIR à dom. Association, 38240, Meylan, France.