平均时间和呼吸暂停时间对声呼吸速率监测测量的影响。

Pub Date : 2023-09-29 DOI:10.1186/s40981-023-00654-4
Jun Honda, Masahiro Murakawa, Satoki Inoue
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引用次数: 0

摘要

背景:声呼吸速率(RRa)监测是一种使用放置在气道上的声换能器的信号连续测量呼吸速率的方法。本研究的目的是研究RRa监测仪的平均时间和呼吸暂停时间设置如何影响呼吸频率突然变化的检测时间。方法:共有40名健康成年志愿者参与研究。首先,我们通过将他们分为两组(N = 一个呼吸暂停时间设置为20秒,另一个呼吸停止时间设置为40秒。每组进行两次呼吸暂停测试,平均时间设置为10秒和30秒。接下来,我们测量了一半受试者(N = 20) 具有10和30s的两个平均时间设置。对于每个测试,进行三次测量,并记录三次测量的平均值。结果:无论呼吸暂停时间是设定在20秒还是40秒,设定在10秒和30秒的平均时间之间的呼吸暂停检测时间没有显著差异。然而,无论平均时间是10秒还是30秒,呼吸暂停时间为20秒的呼吸暂停检测时间都明显短于40秒(p 结论:目前的研究结果表明,在RRa的测量中,呼吸暂停时间设置比平均时间设置对呼吸暂停检测时间的影响更大;然而,呼吸急促的检测时间受到平均时间设置的显著影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Effect of averaging time and respiratory pause time on the measurement of acoustic respiration rate monitoring.

Effect of averaging time and respiratory pause time on the measurement of acoustic respiration rate monitoring.

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Effect of averaging time and respiratory pause time on the measurement of acoustic respiration rate monitoring.

Background: Acoustic respiration rate (RRa) monitoring is a method of continuously measuring respiratory rate using a signal from an acoustic transducer placed over the airway. The purpose of the present study is to examine how the averaging time and respiratory pause time settings of an RRa monitor affect the detection time of sudden respiratory rate changes.

Methods: A total of 40 healthy adult volunteers were included in the study. First, we measured the apnea detection time (apnea test) by dividing them into two groups (N = 20 each), one with a respiratory pause time setting of 20 s and the other with 40 s. Each group performed two apnea tests with an averaging time setting of 10 and 30 s. Next, we measured the tachypnea detection time (tachypnea test) for half of the subjects (N = 20) with two averaging time settings of 10 and 30 s. For each test, three measurements were taken, and the average of the three measurements was recorded.

Results: There was no significant difference in the apnea detection time between the averaging time set at 10 and 30 s regardless of whether the respiratory pause time was set at 20 or 40 s. However, the apnea detection time was significantly shorter with the respiratory pause time of 20 s than 40 s, regardless of whether the averaging time was set at 10 or 30 s (p < 0.001). The tachypnea detection time was shorter with the averaging time of 10 s than 30 s (p < 0.001). Furthermore, the apnea detection time and tachypnea detection time were much longer than the actual settings.

Conclusions: The results of the current study show that in the measurement of RRa, the apnea detection time is more affected by the respiratory pause time setting than the averaging time setting; however, the tachypnea detection time is significantly affected by the averaging time setting.

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