Randomised crossover study on pulse oximeter readings from different sensors in very preterm infants.

IF 3.9 2区医学 Q1 PEDIATRICS Archives of Disease in Childhood - Fetal and Neonatal Edition Pub Date : 2024-06-19 DOI:10.1136/archdischild-2023-325961

Christian Achim Maiwald, Christoph E Schwarz, Katrin Böckmann, Laila Springer, Christian F Poets, Axel Franz

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Abstract

Objective: In extremely preterm infants, different target ranges for pulse oximeter saturation (SpO₂) may affect mortality and morbidity. Thus, the impact of technical changes potentially affecting measurements should be assessed. We studied SpO₂ readings from different sensors for systematic deviations.

Design: Single-centre, randomised, triple crossover study.

Setting: Tertiary neonatal intensive care unit.

Patients: 24 infants, born at <32 weeks' gestation, with current weight <1500 g and without right-to-left shunt via a patent ductus arteriosus.

Interventions: Simultaneous readings from three SpO₂ sensors (Red Diamond (RD), Photoplethysmography (PPG), Low Noise Cabled Sensors (LNCS)) were logged at 0.5 Hz over 6 hour/infant and compared with LNCS as control using analysis of variance. Sensor position was randomly allocated and rotated every 2 hours. Seven different batches each were used.

Outcomes: Primary outcome was the difference in SpO₂ readings. Secondary outcomes were differences between sensors in the proportion of time within the SpO₂-target range (90-95 (100)%).

Results: Mean gestational age at birth (±SD) was 27^4/7 (±2^3/7) weeks, postnatal age 20 (±20) days. 134 hours of recording were analysed. Mean SpO₂ (±SD) was 94.0% (±3.8; LNCS) versus 92.2% (±4.0; RD; p<0.0001) and 94.5% (±3.9; PPG; p<0.0001), respectively. Mean SpO₂ difference (95% CI) was -1.8% (-1.9 to -1.8; RD) and 0.5% (0.4 to 0.5; PPG). Proportion of time in target was significantly lower with RD sensors (84.8% vs 91.7%; p=0.0001) and similar with PPG sensors (91.1% vs 91.7%; p=0.63).

Conclusion: There were systematic differences in SpO₂ readings between RD sensors versus LNCS. These findings may impact mortality and morbidity of preterm infants, particularly when aiming for higher SpO₂-target ranges (eg, 90-95%).

Trial registration number: DRKS00027285.

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早产儿使用不同传感器读取脉搏血氧仪读数的随机交叉研究。

目的：对于极早产儿，脉搏血氧饱和度（SpO2）的不同目标范围可能会影响死亡率和发病率。因此，应对可能影响测量结果的技术变化的影响进行评估。我们研究了不同传感器的 SpO2 读数是否存在系统性偏差：单中心、随机、三交叉研究：地点：三级新生儿重症监护病房：干预措施以 0.5 Hz 的频率记录三个 SpO2 传感器（红钻石传感器 (RD)、光电血压计 (PPG)、低噪音有线传感器 (LNCS)）在 6 小时/婴儿期间的同步读数，并使用方差分析将其与作为对照的 LNCS 进行比较。传感器位置随机分配，每 2 小时轮换一次。共使用了七个不同的批次：主要结果是 SpO2 读数的差异。次要结果是不同传感器在 SpO2 目标范围（90-95 (100)%）内的时间比例差异：出生时的平均胎龄（±SD）为 274/7 (±23/7) 周，产后年龄为 20 (±20) 天。分析了 134 个小时的记录。平均 SpO2（±SD）为 94.0%（±3.8；LNCS）与 92.2%（±4.0；RD）；P2 差值（95% CI）分别为-1.8%（-1.9 至-1.8；RD）和 0.5%（0.4 至 0.5；PPG）。RD传感器的目标时间比例明显较低（84.8% vs 91.7%；P=0.0001），PPG传感器的目标时间比例与之相似（91.1% vs 91.7%；P=0.63）：结论：RD 传感器与 LNCS 之间的 SpO2 读数存在系统性差异。这些发现可能会影响早产儿的死亡率和发病率，尤其是在追求更高的 SpO2 目标范围（如 90-95%）时：DRKS00027285.

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来源期刊

Archives of Disease in Childhood - Fetal and Neonatal Edition 医学-小儿科

CiteScore

9.00

自引率

4.50%

发文量

审稿时长

6-12 weeks

期刊介绍： Archives of Disease in Childhood is an international peer review journal that aims to keep paediatricians and others up to date with advances in the diagnosis and treatment of childhood diseases as well as advocacy issues such as child protection. It focuses on all aspects of child health and disease from the perinatal period (in the Fetal and Neonatal edition) through to adolescence. ADC includes original research reports, commentaries, reviews of clinical and policy issues, and evidence reports. Areas covered include: community child health, public health, epidemiology, acute paediatrics, advocacy, and ethics.