A Multi-Channel Opto-Electronic Sensor to Accurately Monitor Heart Rate against Motion Artefact during Exercise

This study presents the use of a multi-channel opto-electronic sensor (OEPS) to effectively monitor critical physiological parameters whilst preventing motion artefact as increasingly demanded by personal healthcare. The aim of this work was to study how to capture the heart rate (HR) efficiently th...

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Autores principales: Alzahrani, Abdullah, Hu, Sijung, Azorin-Peris, Vicente, Barrett, Laura, Esliger, Dale, Hayes, Matthew, Akbare, Shafique, Achart, Jérôme, Kuoch, Sylvain
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2015
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4634442/
https://www.ncbi.nlm.nih.gov/pubmed/26473860
http://dx.doi.org/10.3390/s151025681
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author Alzahrani, Abdullah
Hu, Sijung
Azorin-Peris, Vicente
Barrett, Laura
Esliger, Dale
Hayes, Matthew
Akbare, Shafique
Achart, Jérôme
Kuoch, Sylvain
author_facet Alzahrani, Abdullah
Hu, Sijung
Azorin-Peris, Vicente
Barrett, Laura
Esliger, Dale
Hayes, Matthew
Akbare, Shafique
Achart, Jérôme
Kuoch, Sylvain
author_sort Alzahrani, Abdullah
collection PubMed
description This study presents the use of a multi-channel opto-electronic sensor (OEPS) to effectively monitor critical physiological parameters whilst preventing motion artefact as increasingly demanded by personal healthcare. The aim of this work was to study how to capture the heart rate (HR) efficiently through a well-constructed OEPS and a 3-axis accelerometer with wireless communication. A protocol was designed to incorporate sitting, standing, walking, running and cycling. The datasets collected from these activities were processed to elaborate sport physiological effects. t-test, Bland-Altman Agreement (BAA), and correlation to evaluate the performance of the OEPS were used against Polar and Mio-Alpha HR monitors. No differences in the HR were found between OEPS, and either Polar or Mio-Alpha (both p > 0.05); a strong correlation was found between Polar and OEPS (r: 0.96, p < 0.001); the bias of BAA 0.85 bpm, the standard deviation (SD) 9.20 bpm, and the limits of agreement (LOA) from −17.18 bpm to +18.88 bpm. For the Mio-Alpha and OEPS, a strong correlation was found (r: 0.96, p < 0.001); the bias of BAA 1.63 bpm, SD 8.62 bpm, LOA from −15.27 bpm to +18.58 bpm. These results demonstrate the OEPS to be capable of carrying out real time and remote monitoring of heart rate.
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spelling pubmed-46344422015-11-23 A Multi-Channel Opto-Electronic Sensor to Accurately Monitor Heart Rate against Motion Artefact during Exercise Alzahrani, Abdullah Hu, Sijung Azorin-Peris, Vicente Barrett, Laura Esliger, Dale Hayes, Matthew Akbare, Shafique Achart, Jérôme Kuoch, Sylvain Sensors (Basel) Article This study presents the use of a multi-channel opto-electronic sensor (OEPS) to effectively monitor critical physiological parameters whilst preventing motion artefact as increasingly demanded by personal healthcare. The aim of this work was to study how to capture the heart rate (HR) efficiently through a well-constructed OEPS and a 3-axis accelerometer with wireless communication. A protocol was designed to incorporate sitting, standing, walking, running and cycling. The datasets collected from these activities were processed to elaborate sport physiological effects. t-test, Bland-Altman Agreement (BAA), and correlation to evaluate the performance of the OEPS were used against Polar and Mio-Alpha HR monitors. No differences in the HR were found between OEPS, and either Polar or Mio-Alpha (both p > 0.05); a strong correlation was found between Polar and OEPS (r: 0.96, p < 0.001); the bias of BAA 0.85 bpm, the standard deviation (SD) 9.20 bpm, and the limits of agreement (LOA) from −17.18 bpm to +18.88 bpm. For the Mio-Alpha and OEPS, a strong correlation was found (r: 0.96, p < 0.001); the bias of BAA 1.63 bpm, SD 8.62 bpm, LOA from −15.27 bpm to +18.58 bpm. These results demonstrate the OEPS to be capable of carrying out real time and remote monitoring of heart rate. MDPI 2015-10-12 /pmc/articles/PMC4634442/ /pubmed/26473860 http://dx.doi.org/10.3390/s151025681 Text en © 2015 by the authors; licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Alzahrani, Abdullah
Hu, Sijung
Azorin-Peris, Vicente
Barrett, Laura
Esliger, Dale
Hayes, Matthew
Akbare, Shafique
Achart, Jérôme
Kuoch, Sylvain
A Multi-Channel Opto-Electronic Sensor to Accurately Monitor Heart Rate against Motion Artefact during Exercise
title A Multi-Channel Opto-Electronic Sensor to Accurately Monitor Heart Rate against Motion Artefact during Exercise
title_full A Multi-Channel Opto-Electronic Sensor to Accurately Monitor Heart Rate against Motion Artefact during Exercise
title_fullStr A Multi-Channel Opto-Electronic Sensor to Accurately Monitor Heart Rate against Motion Artefact during Exercise
title_full_unstemmed A Multi-Channel Opto-Electronic Sensor to Accurately Monitor Heart Rate against Motion Artefact during Exercise
title_short A Multi-Channel Opto-Electronic Sensor to Accurately Monitor Heart Rate against Motion Artefact during Exercise
title_sort multi-channel opto-electronic sensor to accurately monitor heart rate against motion artefact during exercise
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4634442/
https://www.ncbi.nlm.nih.gov/pubmed/26473860
http://dx.doi.org/10.3390/s151025681
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