Screening for salivary levels of deoxypyridinoline and bone-specific alkaline phosphatase during orthodontic tooth movement: a pilot study

Abstract

Deoxypyridinoline (DPD) and bone-specific alkaline phosphatase (BAP) have been regarded as systemic determinants of bone remodelling. Owing this fact, this study aimed to determine whether the variations in the salivary concentration of these two biomarkers as detected through a longitudinal follow-up with four consecutive visits may be linked with the different phases of orthodontic tooth movement (OTM). Twenty-two healthy subjects who required fixed appliance therapy not involving tooth extractions/surgical procedures were selected. Unstimulated whole saliva samples were collected from each patient prior to fitting the orthodontic appliances and 24-48 hours, 2 weeks, and 5 weeks after the activation. Salivary DPD and BAP concentrations were determined by enzyme-linked immunosorbent assay. The data were analysed using non-parametric statistics. There were no statistically significant differences in salivary levels of biomarkers regarding demographic and clinical parameters. Overall, although DPD values revealed an increasing nature after force application and BAP values showed a descending trend, only the former showed statistically significant changes over time. Furthermore, p ost hoc comparisons for DPD salivary levels revealed significant differences between every paired sampling times, except for the pair baseline test/24-48 hours test. Synchronously, a moderate positive significant correlation between both salivary biomarkers was observed at 2 weeks test. The findings indicate that although salivary levels of DPD and BAP may act as indicators of increased bone remodelling, it appears that DPD dominates the earlier phases of OTM, whereas BAP might serve as indicator of bone formation as soon as the tooth movement stops.