Analysis of Frequency Bands of Uterine Electromyography Signals for the Detection of Preterm Birth

Selvaraju, Vinothini; Karthick, P. A.; Swaminathan, Ramakrishnan

doi:10.3233/shti210165

Cited by 7 publications

(3 citation statements)

References 9 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Given that there is no convention about the EHG bandwidth, three pass-band IIR filters were applied to each raw EHG channel in the following subbands: F1 (0.3 – 1 Hz), F2 (1 – 2 Hz), and F3 (2 – 3 Hz) conducting the procedure suggested by Selvaraju et al. ( 16 ). This filtering step evaluated the best frequency content to classify between P and T groups.…”

Section: Methodsmentioning

confidence: 99%

Enhancing classification of preterm-term birth using continuous wavelet transform and entropy-based methods of electrohysterogram signals

Romero-Morales

Mora-Martínez

et al. 2023

Front. Endocrinol.

View full text Add to dashboard Cite

IntroductionDespite vast research, premature birth's electrophysiological mechanisms are not fully understood. Prediction of preterm birth contributes to child survival by providing timely and skilled care to both mother and child. Electrohysterography is an affordable, noninvasive technique that has been highly sensitive in diagnosing preterm labor. This study aimed to choose the more appropriate combination of characteristics, such as electrode channel and bandwidth, as well as those linear, time-frequency, and nonlinear features of the electrohysterogram (EHG) for predicting preterm birth using classifiers.MethodsWe analyzed two open-access datasets of 30 minutes of EHG obtained in regular checkups of women around 31 weeks of pregnancy who experienced premature labor (P) and term labor (T). The current approach filtered the raw EHGs in three relevant frequency subbands (0.3–1 Hz, 1–2 Hz, and 2–3Hz). The EHG time series were then segmented to create 120-second windows, from which individual characteristics were calculated. The linear, time-frequency, and nonlinear indices of EHG of each combination (channel-filter) were fed to different classifiers using feature selection techniques. ResultsThe best performance, i.e., 88.52% accuracy, 83.83% sensitivity, and 93.22% specificity, was obtained in the 2–3 Hz bands using Medium Frequency, Continuous Wavelet Transform (CWT), and entropy-based indices. Interestingly, CWT features were significantly different in all filter-channel combinations. The proposed study uses small samples of EHG signals to diagnose preterm birth accurately, showing their potential application in the clinical environment.DiscussionOur results suggest that CWT and novel entropy-based features of EHG could be suitable descriptors for analyzing and understanding the complex nature of preterm labor mechanisms.

show abstract

Section: Methodsmentioning

confidence: 99%

Enhancing classification of preterm-term birth using continuous wavelet transform and entropy-based methods of electrohysterogram signals

Romero-Morales

Mora-Martínez

et al. 2023

Front. Endocrinol.

View full text Add to dashboard Cite

show abstract

“…Among these methods, the EHG is a frequently employed technique for recording the electrical activity of the uterine muscle 55 . Some studies have harnessed frequency and statistical features derived from EHG signals, employing various ML models to detect PTB [19][20][21] . However, the utility of the EHG signal is limited in high-risk individuals with comorbid conditions such as obesity and factors like fetal and placental position 56,57 , recognized contributors to PTB.…”

Section: Related Workmentioning

confidence: 99%

“…However, leveraging patient data from EHRs faces challenges, including incomplete records for pregnant women due to socio-economic barriers 18 . Some studies have adopted biomedical signal acquisition methods to predict PTB, such as electrohysterogram (EHG) signals, which indicate uterine electrical activity from the pregnant woman's abdominal surface and have been utilized in various investigations [19][20][21] .…”

Section: Introductionmentioning

confidence: 99%

Preterm Birth Risk Stratification through Longitudinal Heart Rate and HRV Monitoring in Daily Life

Feli,

Azimi,

Sarhaddi

et al. 2024

Preprint

View full text Add to dashboard Cite

Preterm birth (PTB) remains a global health concern, impacting neonatal mortality and lifelong health consequences. Traditional methods for estimating PTB rely on electronic health records or biomedical signals, limited to short-term assessments in clinical settings. Recent studies have leveraged wearable technologies for in-home maternal health monitoring, offering continuous assessment of maternal autonomic nervous system (ANS) activity and facilitating the exploration of PTB risk. In this paper, we conduct a longitudinal study to assess the risk of PTB by examining maternal ANS activity through heart rate (HR) and heart rate variability (HRV). To achieve this, we collect long-term raw photoplethysmogram (PPG) signals from 58 pregnant women (including seven preterm cases) from gestational weeks 12-15 to three months post-delivery using smartwatches in daily life settings. We employ a PPG processing pipeline to accurately extract HR and HRV, and an autoencoder machine learning model with SHAP analysis to generate explainable abnormality scores indicative of PTB risk. Our results reveal distinctive patterns in PTB abnormality scores during the second pregnancy trimester, indicating the potential for early PTB risk estimation. Moreover, we find that HR, average of interbeat intervals (AVNN), SD1SD2 ratio, and standard deviation of interbeat intervals (SDNN) emerge as significant PTB indicators.

show abstract

Cyclostationary analysis of uterine EMG measurements for the prediction of preterm birth

Vinothini,

Punitha,

Karthick

et al. 2024

Biomed. Eng. Lett.

View full text Add to dashboard Cite

Analysis of Frequency Bands of Uterine Electromyography Signals for the Detection of Preterm Birth

Cited by 7 publications

References 9 publications

Enhancing classification of preterm-term birth using continuous wavelet transform and entropy-based methods of electrohysterogram signals

Enhancing classification of preterm-term birth using continuous wavelet transform and entropy-based methods of electrohysterogram signals

Preterm Birth Risk Stratification through Longitudinal Heart Rate and HRV Monitoring in Daily Life

Cyclostationary analysis of uterine EMG measurements for the prediction of preterm birth

Contact Info

Product

Resources

About