Abstract: A sensor for foetal monitoring, in particular for measuring electrophysiological signals, e.g. electrical activity of the uterus of a pregnant woman and/or of the heart of a foetus. The sensor includes a plurality of signal electrodes and a ground electrode mounted in or on a substrate, and a connector for connecting the sensor to a monitoring system. The ground electrode is positioned about or between a pair of signal electrodes.
Abstract: A signal processing arrangement 130, a monitoring system 100, a signal processing method, a monitoring method of monitoring uterine contractions of a pregnant woman, and a computer program product are provided. The signal processing arrangement 130 receives an electrophysiological signal 116 representing uterine muscle activity of a pregnant woman at an input 132. A filter 136 generates a filtered electrohysterogram signal from the electrophysiological signal 116. The filter 136 allows the passage of spectral components between 0 and 3 Hz. A window function applicator 138 applies a window function to the filtered electrohysterogram signal to obtain an output waveform 146. The window function defines that samples of a time interval preceding the application of the window function need to be used The output waveform 146 simulates output data of tocodynamometer or an intra-uterine pressure catheter. The output waveform 146 is provided at an output 144 of the signal processing arrangement.
Type:
Grant
Filed:
December 24, 2012
Date of Patent:
April 12, 2016
Assignee:
NEMO HEALTHCARE B.V.
Inventors:
Christiaan Hendrik Leonard Peters, Rik Vullings
Abstract: A signal processing arrangement 130, a monitoring system 100, a signal processing method, a monitoring method of monitoring uterine contractions of a pregnant woman, and a computer program product are provided. The signal processing arrangement 130 receives an electrophysiological signal 116 representing uterine muscle activity of a pregnant woman at an input 132. A filter 136 generates a filtered electrohysterogram signal from the electrophysiological signal 116. The filter 136 allows the passage of spectral components between 0 and 3 Hz. A window function applicator 138 applies a window function to the filtered electrohysterogram signal to obtain an output waveform 146. The window function defines that samples of a time interval preceding the application of the window function need to be used The output waveform 146 simulates output data of tocodynamometer or an intra-uterine pressure catheter. The output waveform 146 is provided at an output 144 of the signal processing arrangement.
Type:
Application
Filed:
December 24, 2012
Publication date:
June 26, 2014
Applicant:
NEMO HEALTHCARE B.V.
Inventors:
Christiaan Hendrik Leonard PETERS, Rik VULLINGS