In-ear photoplethysmography for central pulse waveform analysis in non-invasive hemodynamic monitoring

In-ear photoplethysmography for central pulse waveform analysis in non-invasive hemodynamic monitoring

In recent years, the analysis of the photoplethys-mographic (PPG) pulse waveforms has attracted much research focus. However, the considered signals are primarily recorded at the fingertips, which suffer from reduced peripheral perfusion in situations like hypovolemia or sepsis, rendering waveform a...

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Main Authors: Tigges Timo, Rockstroh Jonas, Pielmuş Alexandru, Klum Michael, Feldheiser Aarne, Hunsicker Oliver, Orglmeister Reinhold
Format: Article
Language:English
Published: De Gruyter 2017-09-01
Series:Current Directions in Biomedical Engineering
Online Access:http://www.degruyter.com/view/j/cdbme.2017.3.issue-2/cdbme-2017-0122/cdbme-2017-0122.xml?format=INT
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spelling doaj-c88bcec68a7545f4a1cabc342109e6fc2020-11-24T23:37:27ZengDe GruyterCurrent Directions in Biomedical Engineering2364-55042017-09-013258759010.1515/cdbme-2017-0122cdbme-2017-0122In-ear photoplethysmography for central pulse waveform analysis in non-invasive hemodynamic monitoringTigges Timo0Rockstroh Jonas1Pielmuş Alexandru2Klum Michael3Feldheiser Aarne4Hunsicker Oliver5Orglmeister Reinhold6Chair of Electronics and Medical Signal Processing, Technische Universität Berlin, Berlin, GermanyChair of Electronics and Medical Signal Processing, Technische Universität Berlin, Berlin, GermanyChair of Electronics and Medical Signal Processing, Technische Universität Berlin, Berlin, GermanyChair of Electronics and Medical Signal Processing, Technische Universität Berlin, Berlin, GermanyDepartment of Anaesthesiology and Intensive Care Medicine, Campus Virchow-Klinikum, Charité - University Medicine Berlin, GermanyDepartment of Anaesthesiology and Intensive Care Medicine, Campus Virchow-Klinikum, Charité - University Medicine Berlin, GermanyChair of Electronics and Medical Signal Processing, Technische Universität Berlin, Berlin, GermanyIn recent years, the analysis of the photoplethys-mographic (PPG) pulse waveforms has attracted much research focus. However, the considered signals are primarily recorded at the fingertips, which suffer from reduced peripheral perfusion in situations like hypovolemia or sepsis, rendering waveform analysis infeasible. The ear canal is not affected by cardiovascular centralization and could thus prove to be an ideal alternate measurement site for pulse waveform analysis. Therefore, we developed a novel system that allows for highly accurate photoplethysmographic measurements in the ear canal. We conducted a measurement study in order to assess the signal-to-noise ratio of our developed system Hereby, we achieved a mean SNR of 40.65 dB. Hence, we could show that our system allows for highly accurate PPG recordings in the ear canal facilitating sophisticated pulse waveform analysis. Furthermore, we demonstrated that the pulse decomposition analysis is also applicable to in-ear PPG recordings.http://www.degruyter.com/view/j/cdbme.2017.3.issue-2/cdbme-2017-0122/cdbme-2017-0122.xml?format=INT
collection DOAJ
language English
format Article
sources DOAJ
author Tigges Timo
Rockstroh Jonas
Pielmuş Alexandru
Klum Michael
Feldheiser Aarne
Hunsicker Oliver
Orglmeister Reinhold
spellingShingle Tigges Timo
Rockstroh Jonas
Pielmuş Alexandru
Klum Michael
Feldheiser Aarne
Hunsicker Oliver
Orglmeister Reinhold
In-ear photoplethysmography for central pulse waveform analysis in non-invasive hemodynamic monitoring
Current Directions in Biomedical Engineering
author_facet Tigges Timo
Rockstroh Jonas
Pielmuş Alexandru
Klum Michael
Feldheiser Aarne
Hunsicker Oliver
Orglmeister Reinhold
author_sort Tigges Timo
title In-ear photoplethysmography for central pulse waveform analysis in non-invasive hemodynamic monitoring
title_short In-ear photoplethysmography for central pulse waveform analysis in non-invasive hemodynamic monitoring
title_full In-ear photoplethysmography for central pulse waveform analysis in non-invasive hemodynamic monitoring
title_fullStr In-ear photoplethysmography for central pulse waveform analysis in non-invasive hemodynamic monitoring
title_full_unstemmed In-ear photoplethysmography for central pulse waveform analysis in non-invasive hemodynamic monitoring
title_sort in-ear photoplethysmography for central pulse waveform analysis in non-invasive hemodynamic monitoring
publisher De Gruyter
series Current Directions in Biomedical Engineering
issn 2364-5504
publishDate 2017-09-01
description In recent years, the analysis of the photoplethys-mographic (PPG) pulse waveforms has attracted much research focus. However, the considered signals are primarily recorded at the fingertips, which suffer from reduced peripheral perfusion in situations like hypovolemia or sepsis, rendering waveform analysis infeasible. The ear canal is not affected by cardiovascular centralization and could thus prove to be an ideal alternate measurement site for pulse waveform analysis. Therefore, we developed a novel system that allows for highly accurate photoplethysmographic measurements in the ear canal. We conducted a measurement study in order to assess the signal-to-noise ratio of our developed system Hereby, we achieved a mean SNR of 40.65 dB. Hence, we could show that our system allows for highly accurate PPG recordings in the ear canal facilitating sophisticated pulse waveform analysis. Furthermore, we demonstrated that the pulse decomposition analysis is also applicable to in-ear PPG recordings.
url http://www.degruyter.com/view/j/cdbme.2017.3.issue-2/cdbme-2017-0122/cdbme-2017-0122.xml?format=INT
work_keys_str_mv AT tiggestimo inearphotoplethysmographyforcentralpulsewaveformanalysisinnoninvasivehemodynamicmonitoring
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AT pielmusalexandru inearphotoplethysmographyforcentralpulsewaveformanalysisinnoninvasivehemodynamicmonitoring
AT klummichael inearphotoplethysmographyforcentralpulsewaveformanalysisinnoninvasivehemodynamicmonitoring
AT feldheiseraarne inearphotoplethysmographyforcentralpulsewaveformanalysisinnoninvasivehemodynamicmonitoring
AT hunsickeroliver inearphotoplethysmographyforcentralpulsewaveformanalysisinnoninvasivehemodynamicmonitoring
AT orglmeisterreinhold inearphotoplethysmographyforcentralpulsewaveformanalysisinnoninvasivehemodynamicmonitoring
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