The Derivation of Epigastric Motion to Assess Neonatal Breathing and Sleep: An Exploratory Study.

IF 1.2 4区医学 Q3 PEDIATRICS

Klinische Padiatrie Pub Date : 2024-07-01 Epub Date: 2023-09-06 DOI:10.1055/a-2135-2163

Guido Stichtenoth, Niclas Knottnerus-Meyer, Jonas Helmstetter, Marco Maass, Egbert Herting

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引用次数: 0

Abstract

Introduction: New non-medical monitors are offered for respiration monitoring of neonates. Epigastric motion during sleep was investigated by means of a wearable tracker in parallel to clinical monitoring.

Cohort: 23 hospitalised neonates ready for discharge.

Methods: A 3-axes-accelerometer and -gyroscope was placed in a standard epigastric position. Between two routine care rounds signals were recorded in parallel to monitoring of impedance pneumography (IP), ECG and pulse oximetry. Motion signals vs. time charts were evaluated using 10-min episodes and semiquantitatively assigned to breathing signal quality, regular breathing, periodic breathing and confounding artefacts. The results were compared with the impedance pneumographic data.

Results: 26 recordings (mean duration: 210 min/infant) were conducted without bradycardia or apnea alarm. The gestational age at birth ranged 28.9 to 41.1 and at recording from 35.6 to 42.3 postmenstrual weeks. Motion patterns of quiet sleep with regular breathing, periodic breathing and active sleep with confounding body movements were found. The longitudinal and transversal gyroscope axes resulted in best signal quality. Periodic breathing was found in up to 80% of episodes and decreased inversely with gestational age showing significantly more periodic breathing in preterm infants. Respiration signals of the gyroscope vs. IP showed a low bias and highly variating frequencies.

Conclusions: Standardized motion trackers may detect typical neonatal breathing and body-motion-patterns, that could help to classify neonatal sleep. Respiratory rates can only be determined during quiet sleep.

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推导上腹部运动以评估新生儿呼吸和睡眠：一项探索性研究

介绍：新的非医疗监测仪可用于新生儿的呼吸监测。方法：将一个三轴加速计和陀螺仪置于标准上腹位置：方法：在标准上腹位置放置一个三轴加速计和陀螺仪。在两次例行护理查房期间，在监测阻抗气动图（IP）、心电图和脉搏血氧仪的同时记录运动信号。用 10 分钟的时间对运动信号与时间图表进行评估，并对呼吸信号质量、规律呼吸、周期性呼吸和混杂假象进行半定量分析。结果：26 次记录（平均持续时间：210 分钟/婴儿）均无心动过缓或呼吸暂停报警。婴儿出生时的胎龄为 28.9 到 41.1 周，记录时的胎龄为月经后 35.6 到 42.3 周。发现的运动模式为安静睡眠伴有规律呼吸、周期性呼吸和活跃睡眠伴有肢体运动。纵向和横向陀螺仪轴的信号质量最好。发现周期性呼吸的次数高达 80%，并随胎龄呈反比下降，表明早产儿的周期性呼吸明显增多。陀螺仪与 IP 的呼吸信号偏差小，频率变化大：结论：标准化运动追踪器可检测出典型的新生儿呼吸和身体运动模式，有助于对新生儿睡眠进行分类。呼吸频率只能在安静睡眠时确定。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Klinische Padiatrie 医学-小儿科

CiteScore

1.10

自引率

0.00%

发文量

135

审稿时长

6-12 weeks

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