The in vitro biomechanics of anterior arch expansion using fixed lingual appliances with coil springs or archwire stops

Introduction: The presented study investigates differences in the biomechanics of straight and mushroom fixed lingual appliances when implementing coil springs and stops for anterior arch expansion.Materials and Methods: An in vitro orthodontic simulator was used to measure three-dimensional forces and moments on each tooth of a simulated maxillary arch. Mushroom and straight archwire forms of 0.016 '' NiTi round archwire were considered, using 0.010 '' x 0.030 '' NiTi open coils and 0.016 ''- 0.018 '' archwire stops (n = 44 per group). Teeth in the anterior dental arch were moved from a neutral to crowded position to replicate anterior crowding of central and lateral incisors. Forces and moments of interest for lateral incisors and first premolars were compared using repeated measures mixed multivariate analysis of variance (alpha = 0.05).Results: Three comparisons between straight versus mushroom archwires and two comparisons of coil springs vs. stops were not statistically significant. Overall, it was found that the use of a straight lingual archwire produced larger differences in forces and moments between using stops and coil springs than when using a mushroom archwire. Using stops produced larger forces and moments for both types of archwires as compared to using coil springs. The largest expansion forces were produced using straight archwires with stops, exceeding 3.0 N of force. Straight archwires with coil springs produced the lowest expansion forces on lateral incisors, just exceeding 1.5 N.Conclusions: The findings of this study have elucidated significant differences in the biomechanics of transverse arch expansion using straight or mushroom fixed lingual appliances with coil springs or stops.

Automated summary

This study investigates the biomechanical differences in transverse arch expansion using straight and mushroom fixed lingual appliances with coil springs or stops. The use of a straight lingual archwire resulted in larger differences in forces and moments between using stops and coil springs compared to a mushroom archwire. Stops produced larger forces and moments for both archwires compared to coil springs. The largest expansion forces were produced using straight archwires with stops, exceeding 3.0 N.