Objectives: The goals of this study

Objectives: The goals of this study were to determine the content of organic acids and
inorganic anions in human saliva by using an ion chromatography method, to compare the
organic acid and inorganic anion concentrations before and after a sugar rinse, and to
investigate the relationships between the levels of each compound.
Design: Saliva samples were obtained from 37 subjects before and up to 60 min after intake
of a 10% glucose solution. Concentrations of seven organic acids (lactate, acetate, propionate,
formate, butyrate, pyruvate, and valerate) and four inorganic anions (fluoride, chloride,
sulphate, and phosphate) were determined via anion-exchange chromatography with
an anion-suppressed conductivity detector.
Results: The current analytical method showed good precision and accuracy. Organic acid
levels increased after the sugar rinse and recovered to control levels within 20 min. Acetate
was the predominant organic acid detected in the saliva before the sugar rinse, and lactate
was the predominant organic acid detected after the sugar rinse. The overall organic acid
content generated by the sugar rinse was positively correlated with the chloride, sulphate,
and phosphate concentration, but somewhat negatively correlated with the fluoride concentration.
Conclusions: Organic acid levels are increased in human saliva by glucose metabolism.
Furthermore, the formation of organic acids following glucose intake is influenced by
the prevailing anion content.