Screen-printed wearable skin surface pH sensor for real-time monitoring of the buffering capacity of human skin
This study demonstrated for the first time that skin surface pH can be monitored in real-time, using a screen-printed wearable pH sensor, to evaluate the buffering capacity of the human skin. The screen-printed pH sensor was composed of a polyaniline-based pH-sensitive electrode and a nitrocellulose...
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| Published in | Analytical and bioanalytical chemistry Vol. 416; no. 7; pp. 1635 - 1645 |
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| Main Authors | , , , , , , |
| Format | Journal Article |
| Language | English |
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01.03.2024
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| Abstract | This study demonstrated for the first time that skin surface pH can be monitored in real-time, using a screen-printed wearable pH sensor, to evaluate the buffering capacity of the human skin. The screen-printed pH sensor was composed of a polyaniline-based pH-sensitive electrode and a nitrocellulose membrane-based liquid junction type of Ag/AgCl reference electrode. This sensor showed a reliable and reversible potentiometric response to pH with long-term potential stability. Intermittent monitoring of the buffering capacity of skin surface pH demonstrated the reliability of the proposed wearable pH sensor, which was comparable to that of a commercially available flat-tip pH sensor. We found that contact of the wearable pH sensor with the subject’s skin via aqueous electrolyte solutions was necessary for the sensor to continuously monitor the skin surface pH while sustaining the natural buffer capacity of the human skin surface.
Graphical abstract |
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| AbstractList | This study demonstrated for the first time that skin surface pH can be monitored in real-time, using a screen-printed wearable pH sensor, to evaluate the buffering capacity of the human skin. The screen-printed pH sensor was composed of a polyaniline-based pH-sensitive electrode and a nitrocellulose membrane-based liquid junction type of Ag/AgCl reference electrode. This sensor showed a reliable and reversible potentiometric response to pH with long-term potential stability. Intermittent monitoring of the buffering capacity of skin surface pH demonstrated the reliability of the proposed wearable pH sensor, which was comparable to that of a commercially available flat-tip pH sensor. We found that contact of the wearable pH sensor with the subject's skin via aqueous electrolyte solutions was necessary for the sensor to continuously monitor the skin surface pH while sustaining the natural buffer capacity of the human skin surface. This study demonstrated for the first time that skin surface pH can be monitored in real-time, using a screen-printed wearable pH sensor, to evaluate the buffering capacity of the human skin. The screen-printed pH sensor was composed of a polyaniline-based pH-sensitive electrode and a nitrocellulose membrane-based liquid junction type of Ag/AgCl reference electrode. This sensor showed a reliable and reversible potentiometric response to pH with long-term potential stability. Intermittent monitoring of the buffering capacity of skin surface pH demonstrated the reliability of the proposed wearable pH sensor, which was comparable to that of a commercially available flat-tip pH sensor. We found that contact of the wearable pH sensor with the subject's skin via aqueous electrolyte solutions was necessary for the sensor to continuously monitor the skin surface pH while sustaining the natural buffer capacity of the human skin surface.This study demonstrated for the first time that skin surface pH can be monitored in real-time, using a screen-printed wearable pH sensor, to evaluate the buffering capacity of the human skin. The screen-printed pH sensor was composed of a polyaniline-based pH-sensitive electrode and a nitrocellulose membrane-based liquid junction type of Ag/AgCl reference electrode. This sensor showed a reliable and reversible potentiometric response to pH with long-term potential stability. Intermittent monitoring of the buffering capacity of skin surface pH demonstrated the reliability of the proposed wearable pH sensor, which was comparable to that of a commercially available flat-tip pH sensor. We found that contact of the wearable pH sensor with the subject's skin via aqueous electrolyte solutions was necessary for the sensor to continuously monitor the skin surface pH while sustaining the natural buffer capacity of the human skin surface. This study demonstrated for the first time that skin surface pH can be monitored in real-time, using a screen-printed wearable pH sensor, to evaluate the buffering capacity of the human skin. The screen-printed pH sensor was composed of a polyaniline-based pH-sensitive electrode and a nitrocellulose membrane-based liquid junction type of Ag/AgCl reference electrode. This sensor showed a reliable and reversible potentiometric response to pH with long-term potential stability. Intermittent monitoring of the buffering capacity of skin surface pH demonstrated the reliability of the proposed wearable pH sensor, which was comparable to that of a commercially available flat-tip pH sensor. We found that contact of the wearable pH sensor with the subject’s skin via aqueous electrolyte solutions was necessary for the sensor to continuously monitor the skin surface pH while sustaining the natural buffer capacity of the human skin surface. Graphical abstract This study demonstrated for the first time that skin surface pH can be monitored in real-time, using a screen-printed wearable pH sensor, to evaluate the buffering capacity of the human skin. The screen-printed pH sensor was composed of a polyaniline-based pH-sensitive electrode and a nitrocellulose membrane-based liquid junction type of Ag/AgCl reference electrode. This sensor showed a reliable and reversible potentiometric response to pH with long-term potential stability. Intermittent monitoring of the buffering capacity of skin surface pH demonstrated the reliability of the proposed wearable pH sensor, which was comparable to that of a commercially available flat-tip pH sensor. We found that contact of the wearable pH sensor with the subject's skin via aqueous electrolyte solutions was necessary for the sensor to continuously monitor the skin surface pH while sustaining the natural buffer capacity of the human skin surface. Graphical abstract |
| Audience | Academic |
| Author | Ito, Naoya Harada, Yutaro Sekine, Tomohito Nagamine, Kuniaki Chiba, Kentaro Matsui, Hiroyuki Matsumoto, Hirotaka |
| Author_xml | – sequence: 1 givenname: Kentaro surname: Chiba fullname: Chiba, Kentaro organization: Graduate School of Organic Materials Science, Yamagata University – sequence: 2 givenname: Yutaro surname: Harada fullname: Harada, Yutaro organization: Faculty of Engineering, Department of Polymeric and Organic Materials Engineering, Yamagata University – sequence: 3 givenname: Hirotaka surname: Matsumoto fullname: Matsumoto, Hirotaka organization: Graduate School of Organic Materials Science, Yamagata University – sequence: 4 givenname: Hiroyuki surname: Matsui fullname: Matsui, Hiroyuki organization: Graduate School of Organic Materials Science, Yamagata University, Faculty of Engineering, Department of Polymeric and Organic Materials Engineering, Yamagata University – sequence: 5 givenname: Naoya surname: Ito fullname: Ito, Naoya organization: Graduate School of Organic Materials Science, Yamagata University – sequence: 6 givenname: Tomohito surname: Sekine fullname: Sekine, Tomohito organization: Graduate School of Organic Materials Science, Yamagata University, Faculty of Engineering, Department of Polymeric and Organic Materials Engineering, Yamagata University – sequence: 7 givenname: Kuniaki orcidid: 0000-0001-9597-0218 surname: Nagamine fullname: Nagamine, Kuniaki email: nagamine@yz.yamagata-u.ac.jp organization: Graduate School of Organic Materials Science, Yamagata University, Faculty of Engineering, Department of Polymeric and Organic Materials Engineering, Yamagata University |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/38294529$$D View this record in MEDLINE/PubMed |
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| CitedBy_id | crossref_primary_10_1021_acsmeasuresciau_4c00092 crossref_primary_10_1002_tcr_202300369 crossref_primary_10_29296_25879979_2024_06_01 crossref_primary_10_1016_j_jid_2024_07_009 |
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| Keywords | Wearable sensor Skin surface pH Printed electronics |
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HashizumeHSkin aging and dry skinJ Dermatol20043160360910.1111/j.1346-8138.2004.tb00565.x15492432 LambersHPiessensSBloemAPronkHFinkelPNatural skin surface pH is on average below 5, which is beneficial for its resident floraInt J Cosmet Sci2006283593701:STN:280:DC%2BD1czis1OjsA%3D%3D10.1111/j.1467-2494.2006.00344.x18489300 ShitandaIOzoneYMorishitaYMatsuiHLoewNMotosukeMMukaimotoTKobayashiMMitsuharaTSugitaYMatsuoKYanagitaSSuzukiTMikawaTWatanabeHItagakiMAir-bubble-insensitive microfluidic lactate biosensor for continuous monitoring of lactate in sweatACS Sens20238236823741:CAS:528:DC%2BB3sXhtVertLzM10.1021/acssensors.3c004903721627010294251 HachemJPManMQCrumrineDUchidaYBrownBERogiersVRoseeuwDFeingoldKREliasPMSustained serine proteases activity by prolonged increase in pH leads to degradation of lipid processing enzymes and profound alterations of barrier function and stratum corneum integrityJ Invest Dermatol20051255105201:CAS:528:DC%2BD2MXhtVersbnK10.1111/j.0022-202X.2005.23838.x16117792 ShitandaIKomodaMHoshiYItagakiMAn instantly usable paper-based screen-printed solid-state KCl/Ag/AgCl reference electrode with long-term stabilityAnalyst2015140648164841:CAS:528:DC%2BC2MXhtlSlt7%2FK10.1039/C5AN00617A26301271 BakerLBPhysiology of sweat gland function: the roles of sweating and sweat composition in human healthTemperature20196321125910.1080/23328940.2019.1632145 MatousekJLCampbellKLA comparative review of cutaneous pHVet Dermatol20021329330010.1046/j.1365-3164.2002.00312.x12464061 ÖhmanHVahlquistAThe pH gradient over the stratum corneum differs in X-linked recessive and autosomal dominant ichthyosis: a clue to the molecular origin of the “acid skin mantle”?J Invest Dermatol199811167467710.1046/j.1523-1747.1998.00356.x9764852 Zahi H, Maibach H. 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| Snippet | This study demonstrated for the first time that skin surface pH can be monitored in real-time, using a screen-printed wearable pH sensor, to evaluate the... |
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| SubjectTerms | Analytical Chemistry Aqueous electrolytes Aqueous solutions Biochemistry buffering capacity Buffers Carbon Cellulose esters Cellulose nitrate Characterization and Evaluation of Materials Chemistry Chemistry and Materials Science Dermatitis Electric potential Electrodes Electrolytes Food Science Hydrogen-ion concentration Laboratory Medicine liquids Measurement Methods Monitoring Monitoring/Environmental Analysis Patient monitoring pH effects pH sensors Physiological aspects Polyanilines Real time Research Paper Screen printing Sensors Silver chloride Skin skin (animal) Wearable technology |
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| Title | Screen-printed wearable skin surface pH sensor for real-time monitoring of the buffering capacity of human skin |
| URI | https://link.springer.com/article/10.1007/s00216-024-05165-4 https://www.ncbi.nlm.nih.gov/pubmed/38294529 https://www.proquest.com/docview/2932326563 https://www.proquest.com/docview/2920571553 https://www.proquest.com/docview/3153622885 |
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