^17th Global Toxicology and Risk Assessment Conference

Biography

Biography: Gorazd Drevenšek

Abstract

Aim: The aim of study was to determine the mechanism of antihistaminic action in osteoclast and osteoblast activation and expression of histamine receptors by H₁ antagonist cetirizine and H₂ antagonist famotidine.

Materials & Method: We used different groups of Wistar rats: control group (n=16), appliance-only group (n=16) and cetirizine (n=16) and famotidine groups (n=16). Each animal was fitted with a superelastic closed-coil spring appliance and treated daily with saline solution or antihistaminic drug for 42 days. Tooth movement was measured weekly from day 0 to day 42. Gene expression levels of bone turnover markers cathepsin K, osteocalcin and histamine receptors were determined by means of real-time polymerase chain reaction. Histologic samples were analyzed by using histomorphometry.

Results: Cetirizine decreased the amount of OTM from day 28 onward (P<0.01), and it also decreased osteoclast volume density (P<0.001). An increase in alveolar bone volume density was observed in the cetirizine group (P<0.01) compared with the control group. The gene expression level of histamine H₁ receptors was significantly higher on days 14 and 42 (P<0.01). Famotidine decreased the amount of OTM and the gene expression of H₂ receptors during the late stage of tooth movement (P<0.001).

Conclusion: It seems that histamine plays an important role through histamine H₁ receptors only in initial stage of orthodontic tooth movement, probably through its pro-inflammatory action. H₂ antagonists could play a role during the late stage of OTM in rats. Therefore, H₁ and H₂ receptor antagonists could interfere with bone metabolism, which is important also due to interaction of those drugs especially when multidrug therapy is applied