Automated Software Analysis of Fetal Movement Recorded During a Pregnant Woman's Sleep at Home

Overview

Journal PLoS One

Specialties General Medicine
Science

Date 2015 Jun 18

PMID 26083422

Citations 6

Authors

Kyoko Nishihara

Noboru Ohki

Hideo Kamata

Eiji Ryo

Shigeko Horiuchi

Affiliations

Soon will be listed here.

Abstract

Fetal movement is an important biological index of fetal well-being. Since 2008, we have been developing an original capacitive acceleration sensor and device that a pregnant woman can easily use to record fetal movement by herself at home during sleep. In this study, we report a newly developed automated software system for analyzing recorded fetal movement. This study will introduce the system and compare its results to those of a manual analysis of the same fetal movement signals (Experiment I). We will also demonstrate an appropriate way to use the system (Experiment II). In Experiment I, fetal movement data reported previously for six pregnant women at 28-38 gestational weeks were used. We evaluated the agreement of the manual and automated analyses for the same 10-sec epochs using prevalence-adjusted bias-adjusted kappa (PABAK) including quantitative indicators for prevalence and bias. The mean PABAK value was 0.83, which can be considered almost perfect. In Experiment II, twelve pregnant women at 24-36 gestational weeks recorded fetal movement at night once every four weeks. Overall, mean fetal movement counts per hour during maternal sleep significantly decreased along with gestational weeks, though individual differences in fetal development were noted. This newly developed automated analysis system can provide important data throughout late pregnancy.

Citing Articles

Gross movement counting of fetuses conceived with assisted reproductive technology using a fetal movement acceleration measurement recorder.

Ryo E, Yatsuki K, Kamata H, Matsuki M Sci Rep. 2024; 14(1):23539.

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Passive Fetal Movement Signal Detection System Based on Intelligent Sensing Technology.

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A systematic scoping review to identify the design and assess the performance of devices for antenatal continuous fetal monitoring.

Tamber K, Hayes D, Carey S, Wijekoon J, Heazell A PLoS One. 2020; 15(12):e0242983.

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Correlation between umbilical cord length and gross fetal movement as counted by a fetal movement acceleration measurement recorder.

Ryo E, Kamata H, Seto M, Morita M, Yatsuki K Eur J Obstet Gynecol Reprod Biol X. 2019; 1:100003.

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