Wacker-Gussmann Annette, Plankl Cordula, Sewald Maria, Schneider Karl-Theo Maria, Oberhoffer Renate, Lobmaier Silvia M
Institute of Preventive Pediatrics, Faculty of Sport and Health Sciences and German Heart Center, Pediatric Cardiology, Munich, Germany.
Department of Gynecology and Obstetrics, Klinikum rechts der Isar, Technische Universität München, Munich, Germany.
J Perinat Med. 2018 Aug 28;46(6):587-592. doi: 10.1515/jpm-2017-0003.
Fetal electrocardiogram (fECG) can detect QRS signals in fetuses from as early as 17 weeks' gestation; however, the technique is limited by the minute size of the fetal signal relative to noise ratio. The aim of this study was to evaluate precise fetal cardiac time intervals (fCTIs) with the help of a newly developed fetal ECG device (Monica Healthcare System).
In a prospective manner we included 15-18 healthy fetuses per gestational week from 32 weeks onwards. The small and wearable Monica AN24 monitoring system uses standard ECG electrodes placed on the maternal abdomen to monitor fECG, maternal ECG and uterine electromyogram (EMG). Fetal CTIs were estimated on 1000 averaged fetal heart beats. Detection was deemed successful if there was a global signal loss of less than 30% and an analysis loss of the Monica AN24 signal separation analysis of less than 50%. Fetal CTIs were determined visually by three independent measurements.
A total of 149 fECGs were performed. After applying the requirements 117 fECGs remained for CTI analysis. While the onset and termination of P-wave and QRS-complex could be easily identified in most ECG patterns (97% for P-wave, PQ and PR interval and 100% for QRS-complex), the T-wave was detectable in only 41% of the datasets. The CTI results were comparable to other available methods such as fetal magnetocardiography (fMCG).
Although limited and preclinical in its use, fECG (Monica Healthcare System) could be an additional useful tool to detect precise fCTIs from 32 weeks' gestational age onwards.
胎儿心电图(fECG)最早可在妊娠17周时检测到胎儿的QRS信号;然而,该技术受限于胎儿信号相对于噪声比的微小尺寸。本研究的目的是借助新开发的胎儿心电图设备(莫妮卡医疗系统)评估精确的胎儿心脏时间间期(fCTIs)。
我们前瞻性地纳入了从32周起每个孕周15 - 18名健康胎儿。小巧且可穿戴的莫妮卡AN24监测系统使用置于孕妇腹部的标准心电图电极来监测fECG、孕妇心电图和子宫肌电图(EMG)。在1000次平均胎儿心跳上估计胎儿CTIs。如果整体信号损失小于30%且莫妮卡AN24信号分离分析的分析损失小于50%,则检测被视为成功。胎儿CTIs由三名独立测量人员通过视觉确定。
共进行了149次fECG检查。应用这些要求后,剩余117次fECG用于CTI分析。虽然在大多数心电图模式中可以轻松识别P波和QRS复合波的起始和终止(P波、PQ和PR间期为97%,QRS复合波为100%),但仅在41%的数据集中可检测到T波。CTI结果与其他可用方法如胎儿磁心动图(fMCG)相当。
尽管fECG(莫妮卡医疗系统)在使用上有限且处于临床前阶段,但从妊娠32周起它可能是检测精确fCTIs的另一个有用工具。
