Improved ultrasound transducer positioning by fetal heart location estimation during Doppler based heart rate measurements

Objective: Doppler ultrasound (US) is the most commonly applied method to measure the fetal heart rate (fHR). When the fetal heart is not properly located within the ultrasonic beam, fHR measurements often fail. As a consequence, clinical staff need to reposition the US transducer on the maternal ab...

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Veröffentlicht in:	Physiological measurement 2017-09, Vol.38 (10), p.1821-1836
Hauptverfasser:	Hamelmann, Paul, Vullings, Rik, Schmitt, Lars, Kolen, Alexander F, Mischi, Massimo, van Laar, Judith O E H, Bergmans, Jan W M
Format:	Artikel
Sprache:	eng
Schlagworte:	Female Fetal Heart - diagnostic imaging Fetal Heart - physiology fetal heart rate Fetal Monitoring - instrumentation Heart Rate, Fetal Humans location estimation maximum likelihood estimation Pregnancy Transducers Ultrasonography - instrumentation ultrasound Doppler
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container_issue	10
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container_title	Physiological measurement
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creator	Hamelmann, Paul Vullings, Rik Schmitt, Lars Kolen, Alexander F Mischi, Massimo van Laar, Judith O E H Bergmans, Jan W M
description	Objective: Doppler ultrasound (US) is the most commonly applied method to measure the fetal heart rate (fHR). When the fetal heart is not properly located within the ultrasonic beam, fHR measurements often fail. As a consequence, clinical staff need to reposition the US transducer on the maternal abdomen, which can be a time consuming and tedious task. Approach: In this article, a method is presented to aid clinicians with the positioning of the US transducer to produce robust fHR measurements. A maximum likelihood estimation (MLE) algorithm is developed, which provides information on fetal heart location using the power of the Doppler signals received in the individual elements of a standard US transducer for fHR recordings. The performance of the algorithm is evaluated with simulations and in vitro experiments performed on a beating-heart setup. Main results: Both the experiments and the simulations show that the heart location can be accurately determined with an error of less than 7 mm within the measurement volume of the employed US transducer. Significance: The results show that the developed algorithm can be used to provide accurate feedback on fetal heart location for improved positioning of the US transducer, which may lead to improved measurements of the fHR.
doi_str_mv	10.1088/1361-6579/aa8a1a
format	Article
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Meas</addtitle><description>Objective: Doppler ultrasound (US) is the most commonly applied method to measure the fetal heart rate (fHR). When the fetal heart is not properly located within the ultrasonic beam, fHR measurements often fail. As a consequence, clinical staff need to reposition the US transducer on the maternal abdomen, which can be a time consuming and tedious task. Approach: In this article, a method is presented to aid clinicians with the positioning of the US transducer to produce robust fHR measurements. A maximum likelihood estimation (MLE) algorithm is developed, which provides information on fetal heart location using the power of the Doppler signals received in the individual elements of a standard US transducer for fHR recordings. The performance of the algorithm is evaluated with simulations and in vitro experiments performed on a beating-heart setup. Main results: Both the experiments and the simulations show that the heart location can be accurately determined with an error of less than 7 mm within the measurement volume of the employed US transducer. 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Meas</addtitle><date>2017-09-21</date><risdate>2017</risdate><volume>38</volume><issue>10</issue><spage>1821</spage><epage>1836</epage><pages>1821-1836</pages><issn>0967-3334</issn><issn>1361-6579</issn><eissn>1361-6579</eissn><coden>PMEAE3</coden><abstract>Objective: Doppler ultrasound (US) is the most commonly applied method to measure the fetal heart rate (fHR). When the fetal heart is not properly located within the ultrasonic beam, fHR measurements often fail. As a consequence, clinical staff need to reposition the US transducer on the maternal abdomen, which can be a time consuming and tedious task. Approach: In this article, a method is presented to aid clinicians with the positioning of the US transducer to produce robust fHR measurements. A maximum likelihood estimation (MLE) algorithm is developed, which provides information on fetal heart location using the power of the Doppler signals received in the individual elements of a standard US transducer for fHR recordings. The performance of the algorithm is evaluated with simulations and in vitro experiments performed on a beating-heart setup. Main results: Both the experiments and the simulations show that the heart location can be accurately determined with an error of less than 7 mm within the measurement volume of the employed US transducer. Significance: The results show that the developed algorithm can be used to provide accurate feedback on fetal heart location for improved positioning of the US transducer, which may lead to improved measurements of the fHR.</abstract><cop>England</cop><pub>IOP Publishing</pub><pmid>28869420</pmid><doi>10.1088/1361-6579/aa8a1a</doi><tpages>16</tpages><oa>free_for_read</oa></addata></record>
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subjects	Female Fetal Heart - diagnostic imaging Fetal Heart - physiology fetal heart rate Fetal Monitoring - instrumentation Heart Rate, Fetal Humans location estimation maximum likelihood estimation Pregnancy Transducers Ultrasonography - instrumentation ultrasound Doppler
title	Improved ultrasound transducer positioning by fetal heart location estimation during Doppler based heart rate measurements
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