|
|||||
|
|
In‐vitro evaluation of the corrosion behavior of orthodontic brackets |
|
| Authors: | S Luft L Keilig A Jäger C Bourauel |
| Affiliation: | Susanne Luft, Endowed Chair of Oral Technology, University of Bonn, Bonn, Germany Ludger Keilig, Department of Prosthetic Dentistry, Preclinical Education and Dental Research and Endowed Chair of Oral Technology, University of Bonn, Bonn, Germany Andreas J?ger, Department of Orthodontics, University of Bonn, Bonn, Germany Christoph Bourauel, Endowed Chair of Oral Technology, University of Bonn, Bonn, Germany |
| Abstract: | Authors – Luft S, Keilig L, Jäger A, Bourauel C Objective – The number of bracket systems for orthodontic therapy increases significantly. One major concern of newly developed orthodontic devices is aspects of corrosion and biocompatibility. Material and Methods – In this study, nine bracket systems made of different material and from various design principles were tested with respect to their corrosion behavior. Electrochemical and static immersion tests with subsequent measurement of nickel ion release were performed. In addition surface alterations of the brackets after corrosion were documented by scanning electron microscopy. Studies of corrosion behavior were performed according to the DIN/ISO standard 10271 for corrosion testing of dental materials. Results – All systems showed traces of corrosion after electrochemical testing. However, after static immersion testing only minor corrosion defects could be documented and the measured nickel ion release was far below critical limits. Conclusions – All tested systems seem to be biocompatible and applicable for orthodontic therapy. The measured nickel values are far below the daily dietary intake level. A static immersion test combined with the nickel ion release measurement seems to be more relevant for the determination of biocompatibility than the electrochemical testing. |
| Keywords: | brackets corrosion electrochemical test nickel release orthodontics |