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Capillary electrophoresis using triple layer modified capillary facilitating salivary ion analyses: Application to search for potential stress markers induced by cold pressure test

•CE with a triple-coating capillary enabled high-speed salivary ion analyses.•K+ and NO3– ion concentrations in saliva were influenced by a cold pressure test.•Relationships among the ion concentrations was predicted by multivariate analysis.•Salivary ion composition provides insights into potential...

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Published in:Journal of Chromatography A 2024-04, Vol.1720, p.464769, Article 464769
Main Authors: Myochin, Hironori, Ohshima, Noriyasu, Izumi, Takashi, Hisajima, Tatsuya, Chaleckis, Romanas, Mori, Masanobu
Format: Article
Language:English
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Summary:•CE with a triple-coating capillary enabled high-speed salivary ion analyses.•K+ and NO3– ion concentrations in saliva were influenced by a cold pressure test.•Relationships among the ion concentrations was predicted by multivariate analysis.•Salivary ion composition provides insights into potential biomarkers for stress. In this study, we introduce a novel approach for the analysis of salivary ions using capillary electrophoresis (CE) with a triple-layer coated capillary. The capillary is sequentially coated with cationic silylating reagents, poly(vinylsulfonate), and polybrene to form a custom designed surface that effectively inhibits adsorption of protein matrix on the capillary inner wall and allows for reproducible ion analysis. For the CE with capacitively coupled contactless conductivity detection, we used suitable background electrolytes (BGEs) for salivary ion analysis. Anions were separated using a mixture of 2-(N-morpholino)ethanesulfonic acid and l-arginine, and cations were separated using that with 18-crown-6. This setup enabled rapid separation, within 4 min, together with sensitive detection. We quantified nine common anions and five cations typically found in saliva samples using this CE method, both before and after a cold pressure test (CPT, a standard stress test). The CE system demonstrated consistent ion separation across 30 consecutive measurements without requiring capillary replacement. Notably, the salivary ion balance remained predominantly anion-rich, regardless of the CPT. Cold water exposure induced greater variation in the total anion concentration than in the total cation concentration. Further analysis using multiple regression analysis revealed strong relationships between nitrate and nitrite, formate and phosphate, and potassium and nitrate, before and after the CPT. Notably, potassium and nitrate ions exhibited variations in response to stress. These results provided a method for assessing salivary ion composition and insights into the potential of salivary ions as biomarkers for stress.
ISSN:0021-9673
DOI:10.1016/j.chroma.2024.464769