ObjectiveFrictions of Lock-loose brackets with ligated main wings or all six wings were measured as they slid along archwires in dry and artificial saliva environments. The Lock-loose brackets were then compared with traditional brackets and self-ligating brackets.MethodsThe surface states of the stainless steel archwires were observed with atomic force microscopy before and after mechanical traction. The Lock-loose brackets, traditional brackets, and self-ligating brackets used in this study were composed of 0.406 4 and 0.457 2 mm stainless steel round archwires and 0.457 2 mm×0.634 9 mm and 0.482 6 mm×0.634 9 mm stainless steel rectangular archwires. Two different ligating methods were applied to the Lockloose brackets, i.e., main wings ligated and all six wings ligated. Frictions were measured by using an electronic universal testing machine.ResultsNo significant differences were found between the roughness of different archwires before and after mechanical traction in different brackets (P>0.05). When the main wings of the Lock-loose brackets were ligated, the frictions of the four different stainless steel archwires were close to zero, and the difference with frictions of traditional brackets was significant (PPPConclusionThe Lock-loose brackets can adjust the friction efficiently with different ligating methods, thus solving the problem of low friction and strengthening anchorage.
