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Journal Articles Physiological Measurement Year : 2016

Evaluation of the fetal QT interval using non-invasive fetal ECG technology

Abstract

Non-invasive fetal electrocardiography (NI-FECG) is a promising alternative continuous fetal monitoring method that has the potential to allow morphological analysis of the FECG. However, there are a number of challenges associated with the evaluation of morphological parameters from the NI-FECG, including low signal to noise ratio of the NI-FECG and methodological challenges for getting reference annotations and evaluating the accuracy of segmentation algorithms. This work aims to validate the measurement of the fetal QT interval in term laboring women using a NI-FECG electrocardiogram monitor. Fetal electrocardiogram data were recorded from 22 laboring women at term using the NI-FECG and an invasive fetal scalp electrode simultaneously. A total of 105 one-minute epochs were selected for analysis. Three pediatric electrophysiologists independently annotated individual waveforms and averaged waveforms from each epoch. The intervals measured on the averaged cycles taken from the NI-FECG and the fetal scalp electrode showed a close agreement; the root mean square error between all corresponding averaged NI-FECG and fetal scalp electrode beats was 13.6 ms, which is lower than the lowest adult root mean square error of 16.1 ms observed in related adult QT studies. These results provide evidence that NI-FECG technology enables accurate extraction of the fetal QT interval.

Dates and versions

hal-01726852 , version 1 (08-03-2018)

Identifiers

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Joachim Behar, Tingting Zhu, Julien Oster, Alisa Niksch, Douglas Mah, et al.. Evaluation of the fetal QT interval using non-invasive fetal ECG technology. Physiological Measurement, 2016, 37 (9), pp.1392 - 1403. ⟨10.1088/0967-3334/37/9/1392⟩. ⟨hal-01726852⟩
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