Sweat Lactic Acid Monitoring System using Adhesive Plaster-based Sweat Sampling Device
A microfluidic lactic acid (LA) monitoring system for sweat LA was fabricated and tested. Sweat is one of the promising candidate for non-invasive monitoring of chemical content in human body. However, there are several difficulty in sweat content monitoring resulted from sweating mechanism. We empl...
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| Published in | Annual IEEE International Conference on Nano/Micro Engineered and Molecular Systems pp. 44 - 47 |
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| Main Authors | , , , , |
| Format | Conference Proceeding |
| Language | English |
| Published |
IEEE
01.04.2019
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| Subjects | |
| Online Access | Get full text |
| ISSN | 2474-3755 |
| DOI | 10.1109/NEMS.2019.8915655 |
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| Abstract | A microfluidic lactic acid (LA) monitoring system for sweat LA was fabricated and tested. Sweat is one of the promising candidate for non-invasive monitoring of chemical content in human body. However, there are several difficulty in sweat content monitoring resulted from sweating mechanism. We employed a continuous flow of phosphate buffer saline (PBS) at the surface of the skin as a career flow for transporting whole secretions to a biosensor, which was highly specific to LA. The advantage of using continuous flow as sweat career is the capability of continuous monitoring. Because the surface of the skin is always refreshed by the continuous flow, initial condition of the skin surface is maintained throughout measurement. The sampling device was improved using a medical plaster. This resulted in tight attachment to the skin's surface and reduction of leakage so that LA monitoring was capable for highly active subjects. In the experiment, the sampling device was connected to the biosensor, which sensitivity to LA was 53.1 nA μM −1 . The biosensor was operated using a wireless potentiostat and the continuous career flow was supplied by dual diaphragm pump system. As a real-sample test, the monitoring system was utilized to LA monitoring of jogging subject and swimming subject, respectively. In both cases, changes of LA corresponding to exercises were successfully monitored from the free-moving subject and the swimming subject for the first time. |
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| AbstractList | A microfluidic lactic acid (LA) monitoring system for sweat LA was fabricated and tested. Sweat is one of the promising candidate for non-invasive monitoring of chemical content in human body. However, there are several difficulty in sweat content monitoring resulted from sweating mechanism. We employed a continuous flow of phosphate buffer saline (PBS) at the surface of the skin as a career flow for transporting whole secretions to a biosensor, which was highly specific to LA. The advantage of using continuous flow as sweat career is the capability of continuous monitoring. Because the surface of the skin is always refreshed by the continuous flow, initial condition of the skin surface is maintained throughout measurement. The sampling device was improved using a medical plaster. This resulted in tight attachment to the skin's surface and reduction of leakage so that LA monitoring was capable for highly active subjects. In the experiment, the sampling device was connected to the biosensor, which sensitivity to LA was 53.1 nA μM −1 . The biosensor was operated using a wireless potentiostat and the continuous career flow was supplied by dual diaphragm pump system. As a real-sample test, the monitoring system was utilized to LA monitoring of jogging subject and swimming subject, respectively. In both cases, changes of LA corresponding to exercises were successfully monitored from the free-moving subject and the swimming subject for the first time. |
| Author | Tojo, Yoshiki Saito, Haruna Suzuki, Yusuke Enomoto, Keigo Kudo, Hiroyuki |
| Author_xml | – sequence: 1 givenname: Hiroyuki surname: Kudo fullname: Kudo, Hiroyuki organization: Meiji University,Department of Electronics and Bioinformatics,Kawasaki,Kanagawa,Japan – sequence: 2 givenname: Yusuke surname: Suzuki fullname: Suzuki, Yusuke organization: Meiji University,Department of Electronics and Bioinformatics,Kawasaki,Kanagawa,Japan – sequence: 3 givenname: Yoshiki surname: Tojo fullname: Tojo, Yoshiki organization: Meiji University,Department of Electronics and Bioinformatics,Kawasaki,Kanagawa,Japan – sequence: 4 givenname: Haruna surname: Saito fullname: Saito, Haruna organization: Meiji University,Department of Electronics and Bioinformatics,Kawasaki,Kanagawa,Japan – sequence: 5 givenname: Keigo surname: Enomoto fullname: Enomoto, Keigo organization: Meiji University,Department of Electronics and Bioinformatics,Kawasaki,Kanagawa,Japan |
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| Snippet | A microfluidic lactic acid (LA) monitoring system for sweat LA was fabricated and tested. Sweat is one of the promising candidate for non-invasive monitoring... |
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| SubjectTerms | Biomedical monitoring biomonitoring biosensor Biosensors Blood electrochemical Electrodes exercise lactic acid Monitoring non-invasive Skin |
| Title | Sweat Lactic Acid Monitoring System using Adhesive Plaster-based Sweat Sampling Device |
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