Abstract
BackgroundXylitol chewing gum has been shown to reduce Streptococcus mutans levels and decay. Two studies examined the presence and time course of salivary xylitol concentrations delivered via xylitol-containing pellet gum and compared them to other xylitol-containing products.MethodsA within-subjects design was used for both studies. Study 1, adults (N = 15) received three xylitol-containing products (pellet gum (2.6 g), gummy bears (2.6 g), and commercially available stick gum (Koolerz, 3.0 g)); Study 2, a second group of adults (N = 15) received three xylitol-containing products (pellet gum, gummy bears, and a 33% xylitol syrup (2.67 g). For both studies subjects consumed one xylitol product per visit with a 7-day washout between each product. A standardized protocol was followed for each product visit. Product order was randomly determined at the initial visit. Saliva samples (0.5 mL to 1.0 mL) were collected at baseline and up to 10 time points (~16 min in length) after product consumption initiated. Concentration of xylitol in saliva samples was analyzed using high-performance liquid chromatography. Area under the curve (AUC) for determining the average xylitol concentration in saliva over the total sampling period was calculated for each product.ResultsIn both studies all three xylitol products (Study 1: pellet gum, gummy bears, and stick gum; Study 2: pellet gum, gummy bears, and syrup) had similar time curves with two xylitol concentration peaks during the sampling period. Study 1 had its highest mean peaks at the 4 min sampling point while Study 2 had its highest mean peaks between 13 to 16 minutes. Salivary xylitol levels returned to baseline at about 18 minutes for all forms tested. Additionally, for both studies the total AUC for the xylitol products were similar compared to the pellet gum (Study 1: pellet gum – 51.3 μg.min/mL, gummy bears – 59.6 μg.min/mL, and stick gum – 46.4 μg.min/mL; Study 2: pellet gum – 63.0 μg.min/mL, gummy bears – 55.9 μg.min/mL, and syrup – 59.0 μg.min/mL).ConclusionThe comparison method demonstrated high reliability and validity. In both studies other xylitol-containing products had time curves and mean xylitol concentration peaks similar to xylitol pellet gum suggesting this test may be a surrogate for longer studies comparing various products.
Highlights
Xylitol chewing gum has been shown to reduce Streptococcus mutans levels and decay
This paper describes a valid and reliable method to compare salivary xylitol concentrations during use of xylitolcontaining products using a standardized and powerful method of chemical analysis, high performance liquid chromatography (HPLC)
This paper examines the presence and time course of xylitol concentrations in saliva for xylitol chewing gum, xylitol gummy bear, and xylitol syrup; and compares the total xylitol-saliva time course curve of xylitol pellet chewing gum to a commercially available xylitol stick gum, xylitol gummy bear and xylitol syrup
Summary
Xylitol chewing gum has been shown to reduce Streptococcus mutans levels and decay. A naturally occurring sugar alcohol currently approved for use in foods, pharmaceuticals and oral health products in more than 35 countries has been shown to reduce cariogenic bacteria and tooth decay [15]; delivered by either gum or lozenge [6]. Our previous studies [2,7] have reported on the minimally effective dose and frequency of use of xylitol delivered via pellet chewing gum to reduce Streptococcus mutans, a tooth decay pathogen. It is thought that xylitol's significant anti-caries effect is a result of constant S.mutans suppression [8] and alteration in virulence [9] from frequent and chronic exposure to xylitol-containing products. The development of a surrogate test of a xylitol delivery system is warranted
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