Abstract
Abstract Background Intermaxillary elastics are widely used in corrective orthodontic treatment particularly for the interdigitation of buccal segments and the correction of the midline. However, latex has been known to cause allergy, which may restrict elastic use. As alternative materials, non-latex elastics are available. However, clinicians must be aware of their mechanical properties, especially those of deformation and force degradation that affect these materials over time. Objectives The aim of this study was to compare force degradation and deformation of3/16” non-latex and latex elastics supplied by several manufacturers. Materials and methods Special acrylic plates were fabricated to incorporate orthodontic brackets to which elastics were attached and stretched to a distance of approximately 20 mm. The internal diameter and force magnitude of each elastic was measured at time intervals of 0, 24, 72 and 504 hours. The samples were stored in artificial saliva at room temperature during the entire experimental period. Results Latex elastics showed smaller and more uniform deformation than the non-latex elastics. The non-latex elastics showed greater degradation at all time intervals (p < 0.001). The Morelli brand delivered greater force than other brands for both the latex and non-latex elastics at all time intervals (p < 0.05). The G&H latex elastics showed greater force degradation in comparison with the other brands (p < 0.05). The evaluation of the Dentaurum and Orthopli non-latex elastics showed greater degradation (p < 0.05). Conclusions The non-latex elastics showed greater force degradation than the latex elastics. Of the latex elastics, G&H showed greater force degradation, and for the non-latex elastics, those made by Dentaurum and Orthopli degraded most.
Highlights
Intermaxillary elastics are commonly applied for the correction of a midline, tooth interdigitation, anchorage, and the correction of Class II or Class III malocclusions.[3]
The elastics may be made of natural latex or alternative materials such as silicone or synthetic rubber
The wide application of intermaxillary elastics in orthodontics is due to their high resilience, versatility and low cost
Summary
Elastics have been clinically used long before orthodontics became a dental specialty.[1,2] Intermaxillary elastics are commonly applied for the correction of a midline, tooth interdigitation, anchorage, and the correction of Class II or Class III malocclusions.[3]. Comparative studies of force degradation between latex and non-latex orthodontic elastics have been reported, but there is no unanimous agreement concerning the results. Objectives: The aim of this study was to compare force degradation and deformation of 3/16” non-latex and latex elastics supplied by several manufacturers. The non-latex elastics showed greater degradation at all time intervals (p < 0.001). The Morelli brand delivered greater force than other brands for both the latex and non-latex elastics at all time intervals (p < 0.05). The G&H latex elastics showed greater force degradation in comparison with the other brands (p < 0.05). The evaluation of the Dentaurum and Orthopli non-latex elastics showed greater degradation (p < 0.05). G&H showed greater force degradation, and for the non-latex elastics, those made by Dentaurum and Orthopli degraded most. G&H showed greater force degradation, and for the non-latex elastics, those made by Dentaurum and Orthopli degraded most. (Aust Orthod J 2017; 33: 64-72)
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