Abstract
Objective To compare the orthodontic bracket debonding force and assess the bracket failure pattern clinically between different teeth by a validated prototype debonding device. Materials and Method. Thirteen (13) patients at the end of comprehensive fixed orthodontic treatment, awaiting for bracket removal, were selected from the list. A total of 260 brackets from the central incisor to the second premolar in both jaws were debonded by a single clinician using a validated prototype debonding device equipped with a force sensitive resistor (FSR). Mean bracket debonding forces were specified to ten (10) groups of teeth. Following debonding, Intraoral microphotographs of the teeth were taken by the same clinician to assess the bracket failure pattern using a 4-point scale of adhesive remnant index (ARI). Statistical analysis included one-way ANOVA with post hoc Tukey HSD and independent sample t-test to compare in vivo bracket debonding force, Cohen's kappa (κ), and a nonparametric Kruskal-Wallis test for the reliability and the assessment of ARI scoring. Results A significant difference (p < 0.001) of mean debonding force was found between different types of teeth in vivo. Clinically, ARI scores were not significantly different (p = 0.921) between different groups, but overall higher scores were predominant. Conclusion Bracket debonding force should be measured on the same tooth from the same arch as the significant difference of mean debonding force exists between similar teeth of the upper and lower arches. The insignificant bracket failure pattern with higher ARI scores confirms less enamel damage irrespective of tooth types.
Highlights
Fixed orthodontic treatment outcomes rely much on the integrity of the orthodontic bracket-adhesive system
The descriptive statistics of the debonding force with oneway analysis of variance (ANOVA) results are listed in Tables 1 and 2
The mean debonding forces were significantly (p < 0:001) different according to the tooth types
Summary
Fixed orthodontic treatment outcomes rely much on the integrity of the orthodontic bracket-adhesive system. To resist accidental bracket failures, many studies focused on the bonding ability of the various orthodontic adhesives, brackets, surface conditioning, and bonding methods. These studies are either in vitro or ex vivo done in the laboratory for mechanical testing or in vivo analysis of clinical bracket failure rates. The machine is known for its accuracy and precision It cannot exactly imitate the mechanism of clinical debonding, as the brackets face combined forces in all directions while functioning and clinical debonding [1]. Aging or biodegradation of the orthodontic bonding system has a negative influence on its bonding efficiency This supports the evidence of lower bracket bond strength clinically [3,4,5,6]. The universal testing machine cannot be introduced clinically due to its large dimensions
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