Magnetomyographic Recording and Identification of Uterine Contractions Using Hilbert-wavelet Transforms

Overview

Journal Physiol Meas

Specialties Biomedical Engineering
Biophysics
Physiology

Date 2009 Sep 10

PMID 19738317

Citations 10

Authors

A Furdea

H Eswaran

J D Wilson

H Preissl

C L Lowery

R B Govindan

Affiliations

Soon will be listed here.

Abstract

We propose a multi-stage approach using Wavelet and Hilbert transforms to identify uterine contraction bursts in magnetomyogram (MMG) signals measured using a 151 magnetic sensor array. In the first stage, we decompose the MMG signals by wavelet analysis into multilevel approximate and detail coefficients. In each level, the signals are reconstructed using the detail coefficients followed by the computation of the Hilbert transform. The Hilbert amplitude of the reconstructed signals from different frequency bands (0.1-1 Hz) is summed up over all the sensors to increase the signal-to-noise ratio. Using a novel clustering technique, affinity propagation, the contractile bursts are distinguished from the noise level. The method is applied on simulated MMG data, using a simple stochastic model to determine its robustness and to seven MMG datasets.

Citing Articles

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Mehl S, Simmons P, Whittington J, Escalona-Vargas D, Siegel E, Lowery C Curr Res Physiol. 2023; 6:100103.

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Alignment of magnetic sensing and clinical magnetomyography.

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Clinical implementation of a bionic hand controlled with kineticomyographic signals.

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Connectivity Measures of Uterine Activity using Magnetomyography.

Escalona-Vargas D, Zhang M, Nehorai A, Eswaran H Annu Int Conf IEEE Eng Med Biol Soc. 2018; 2018:5878-5881.

PMID: 30441673 PMC: 8175027. DOI: 10.1109/EMBC.2018.8513498.

Ensuring signal quality of cerebral near infrared spectroscopy during continuous longterm monitoring.

Govindan R, Massaro A, du Plessis A J Neurosci Methods. 2018; 309:147-152.

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