Sensor of transdermal biomarkers for blood perfusion monitoring

Sensor of transdermal biomarkers for blood perfusion monitoring

A nanoporous gold electrocatalytic technique has been reported for detection of gas-phase hydrogen sulfide (H2S) molecules at trace levels relevant to physiological measurements. H2S is a known biomarker generated within the walls of arteries and can be linked to peripheral artery disease (PAD) and...

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Main Authors: R. Shekarriz, D.M. Friedrichsen, B. Brooks, G. Silaski, L. Rios, E. Wiest, N.L. Kanagy
Format: Article
Language:English
Published: Elsevier 2020-06-01
Series:Sensing and Bio-Sensing Research
Online Access:http://www.sciencedirect.com/science/article/pii/S2214180419301837
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spelling doaj-1e592e0fe91945ae81c5de5e6ee40fa82020-11-25T03:02:43ZengElsevierSensing and Bio-Sensing Research2214-18042020-06-0128Sensor of transdermal biomarkers for blood perfusion monitoringR. Shekarriz0D.M. Friedrichsen1B. Brooks2G. Silaski3L. Rios4E. Wiest5N.L. Kanagy6Exhalix, LLC, 5901 Indian School Rd. NE, Albuquerque, NM 87110, United States of America; Corresponding author.Exhalix, LLC, 5901 Indian School Rd. NE, Albuquerque, NM 87110, United States of AmericaExhalix, LLC, 5901 Indian School Rd. NE, Albuquerque, NM 87110, United States of AmericaExhalix, LLC, 5901 Indian School Rd. NE, Albuquerque, NM 87110, United States of AmericaDepartment of Cell Biology and Physiology, University of New Mexico, Albuquerque, NM 87131, United States of AmericaDepartment of Cell Biology and Physiology, University of New Mexico, Albuquerque, NM 87131, United States of AmericaDepartment of Cell Biology and Physiology, University of New Mexico, Albuquerque, NM 87131, United States of AmericaA nanoporous gold electrocatalytic technique has been reported for detection of gas-phase hydrogen sulfide (H2S) molecules at trace levels relevant to physiological measurements. H2S is a known biomarker generated within the walls of arteries and can be linked to peripheral artery disease (PAD) and small vessel disease (SVD). The detection technique presented herein demonstrates suitability of transdermal monitoring of H2S linked to perfusion rate in order to provide early detection of PAD and SVD. The high surface area and high reactivity rate of nanoporous electrocatalyst in the present device proved to yield a significant amperometric signal for detection of hydrogen sulfide with a limit of detection as low as 2 ppb. Using this approach, permeability of hydrogen sulfide through the skin of Sprague Dawley rats in both excised in-vitro conditions as well as in-vivo experiments were demonstrated. Keywords: Hydrogen sulfide, Blood perfusion, Microvascular flow, Biosensor, Electrocatalysis, Transdermal, Non-invasivehttp://www.sciencedirect.com/science/article/pii/S2214180419301837
collection DOAJ
language English
format Article
sources DOAJ
author R. Shekarriz
D.M. Friedrichsen
B. Brooks
G. Silaski
L. Rios
E. Wiest
N.L. Kanagy
spellingShingle R. Shekarriz
D.M. Friedrichsen
B. Brooks
G. Silaski
L. Rios
E. Wiest
N.L. Kanagy
Sensor of transdermal biomarkers for blood perfusion monitoring
Sensing and Bio-Sensing Research
author_facet R. Shekarriz
D.M. Friedrichsen
B. Brooks
G. Silaski
L. Rios
E. Wiest
N.L. Kanagy
author_sort R. Shekarriz
title Sensor of transdermal biomarkers for blood perfusion monitoring
title_short Sensor of transdermal biomarkers for blood perfusion monitoring
title_full Sensor of transdermal biomarkers for blood perfusion monitoring
title_fullStr Sensor of transdermal biomarkers for blood perfusion monitoring
title_full_unstemmed Sensor of transdermal biomarkers for blood perfusion monitoring
title_sort sensor of transdermal biomarkers for blood perfusion monitoring
publisher Elsevier
series Sensing and Bio-Sensing Research
issn 2214-1804
publishDate 2020-06-01
description A nanoporous gold electrocatalytic technique has been reported for detection of gas-phase hydrogen sulfide (H2S) molecules at trace levels relevant to physiological measurements. H2S is a known biomarker generated within the walls of arteries and can be linked to peripheral artery disease (PAD) and small vessel disease (SVD). The detection technique presented herein demonstrates suitability of transdermal monitoring of H2S linked to perfusion rate in order to provide early detection of PAD and SVD. The high surface area and high reactivity rate of nanoporous electrocatalyst in the present device proved to yield a significant amperometric signal for detection of hydrogen sulfide with a limit of detection as low as 2 ppb. Using this approach, permeability of hydrogen sulfide through the skin of Sprague Dawley rats in both excised in-vitro conditions as well as in-vivo experiments were demonstrated. Keywords: Hydrogen sulfide, Blood perfusion, Microvascular flow, Biosensor, Electrocatalysis, Transdermal, Non-invasive
url http://www.sciencedirect.com/science/article/pii/S2214180419301837
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AT dmfriedrichsen sensoroftransdermalbiomarkersforbloodperfusionmonitoring
AT bbrooks sensoroftransdermalbiomarkersforbloodperfusionmonitoring
AT gsilaski sensoroftransdermalbiomarkersforbloodperfusionmonitoring
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AT ewiest sensoroftransdermalbiomarkersforbloodperfusionmonitoring
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