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林索姆呼吸监测设备:一种新型的基于温度的呼吸监测仪。

Linshom respiratory monitoring device: a novel temperature-based respiratory monitor.

作者信息

Lerman Jerrold, Feldman Doron, Feldman Ronen, Moser John, Feldman Leeshi, Sathyamoorthy Madhankumar, Deitch Kenneth, Feldman Uri

机构信息

Department of Anesthesia, Women and Children's Hospital of Buffalo, 219 Bryant St, Buffalo, NY, 14209, USA.

State University of New York at Buffalo, Buffalo, NY, USA.

出版信息

Can J Anaesth. 2016 Oct;63(10):1154-1160. doi: 10.1007/s12630-016-0694-y. Epub 2016 Jul 13.

Abstract

PURPOSE

We sought to develop a temperature-based respiratory instrument to measure respiration noninvasively outside critical care settings.

METHOD

Respiratory temperature profiles were recorded using a temperature-based noninvasive instrument comprised of three rapid responding medical-grade thermistors-two in close proximity to the mouth/nose (sensors) and one remote to the airway (reference). The effect of the gas flow rate on the amplitude of the tracings was determined. The temperature-based instrument, the Linshom Respiratory Monitoring Device (LRMD) was mounted to a face mask and positioned on a mannequin face. Respiratory rates of 5-40 breaths·min(-1) were then delivered to the mannequin face in random order using artificial bellows (IngMar Lung Model). Data from the sensors were collected and compared with the bellows rates using least squares linear regression and coefficient of determination. The investigators breathed at fixed rates of 0-60 breaths·min(-1) in synchrony with a metronome as their respiratory temperature profiles were recorded from sensors mounted to either a face mask or nasal prongs. The recordings were compared with a contemporaneously recorded sidestream capnogram from a CARESCAPE GEB450 Monitor. The extracted respiratory rates from the LRMD tracings and capnograms were compared using linear regression with a coefficient of determination and a Bland-Altman plot.

RESULTS

The amplitude of the sensor tracings was independent of the oxygen flow rate. Respiratory rates from the new temperature-based sensor were synchronous and correlated identically with both the artificial bellows (r(2) = 0.9997) and the capnometer mounted to both the face mask and nasal prongs (r(2) = 0.99; bias = -0.17; 95% confidence interval, -2.15 to 1.8).

CONCLUSIONS

Respiratory rates using the LRMD, a novel temperature-based respiratory instrument, were consistent with those using capnometry.

摘要

目的

我们试图开发一种基于温度的呼吸仪器,用于在重症监护环境之外无创测量呼吸。

方法

使用一种基于温度的无创仪器记录呼吸温度曲线,该仪器由三个快速响应的医用级热敏电阻组成——两个靠近口鼻(传感器),一个远离气道(参考)。确定气体流速对记录曲线幅度的影响。将基于温度的仪器,即林肖姆呼吸监测装置(LRMD)安装在面罩上,并放置在人体模型面部。然后使用人工风箱(英格玛肺模型)以随机顺序向人体模型面部输送5 - 40次呼吸·分钟⁻¹的呼吸频率。收集传感器的数据,并使用最小二乘线性回归和决定系数与风箱频率进行比较。研究人员以0 - 60次呼吸·分钟⁻¹的固定频率与节拍器同步呼吸,同时从安装在面罩或鼻夹上的传感器记录他们的呼吸温度曲线。将这些记录与同时记录的来自CARESCAPE GEB450监测仪的旁流二氧化碳图进行比较。使用具有决定系数的线性回归和布兰德 - 奥特曼图比较从LRMD记录曲线和二氧化碳图中提取的呼吸频率。

结果

传感器记录曲线的幅度与氧气流速无关。基于新温度传感器的呼吸频率是同步的,并且与人工风箱(r² = 0.9997)以及安装在面罩和鼻夹上的二氧化碳测定仪(r² = 0.99;偏差 = -0.17;95%置信区间,-2.15至1.8)具有相同的相关性。

结论

使用新型基于温度的呼吸仪器LRMD测得的呼吸频率与使用二氧化碳测定法测得的呼吸频率一致。

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