Abstract
To compare the following over a period of 8 weeks: (1) force decay between thermoplastic (TP) and thermoset (TS) elastomeric chains; (2) force decay between light (200-g) and heavy (350-g) initial forces; and (3) force decay between direct chains and chain loops (stretched from one pin around the second pin and back to the first pin). TP and TS chains were obtained from American Orthodontics™ (AOTP, AOTS) and ORMCO™ (OrTP, OrTS). Each of the four chain groups was subdivided into four subgroups with 10 specimens per subgroup: (1) direct chains light force, (2) direct chains heavy force, (3) chain loops light force, and (4) chain loops heavy force. The experiment was performed in artificial saliva (pH of 6.75) at 37°C. A significant difference was found between TP and TS chains, with an average mean difference of around 20% more force decay found in the TP chains (P < .001, α = .05). There was no significant difference between direct chains and chain loops except in OrTP, in which direct chains showed more force decay. There was also no significant difference in force decay identified when using light vs heavy forces. TS chains decayed less than TP chains, and chain loop retraction was beneficial only when using OrTP chains. Contrary to the interchangeable use of TP and TS chains in the published literature and in clinical practice, this study demonstrates that they perform differently under stress and that a clear distinction should be made between the two.
Highlights
IntroductionElastomers have been widely used in orthodontic treatment since the 1960’s
Thermoset elastomers exhibited less force decay over time compared to thermoplastic elastomers and required more stretching to reach the desired forces
Loop chains did behave favorably in Ormco thermoplastic power chains (OrTP) suggesting that loop chains might be superior when using thermoplastic elastomers
Summary
Elastomers have been widely used in orthodontic treatment since the 1960’s. In addition to their capability to return to their original form after elastic deformation, elastomers are easy to use and economical (Bousquet et al, 2006). There are two types of elastomers used in orthodontics. The first type is natural elastomers, which are used in inter-arch mechanics and are usually referred to as “ELASTICS”. The second is synthetic elastomers, which are used as power chains, ligatures, elastic threads, or non-latex inter-arch elastics. Synthetic elastomers are usually referred to as “ALASTIKS” (Andreasen and Bishara, 1970; Bishara and Andreasen, 1970)
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