Objectives

To compare the biomechanics of labial and lingual fixed orthodontic treatment options for a simulated curve of Spee malocclusion.

Materials and Methods

An in vitro electromechanical orthodontic simulator was used to measure the three−dimensional forces and moments on each tooth of a mandibular arch. Labial and lingual brackets, both with 0.018−inch slot sizes, were bonded to mechanical teeth. Three archwire forms were considered: labial straight, lingual straight, and lingual mushroom. The simulator was set in a passive levelled position with 0.016−inch × 0.022−inch stainless steel archwires, then teeth were moved to a curve of Spee maloclussion with the first premolar intruded 1.5 mm and the canine and second premolar intruded 0.75 mm. Two−way mixed multivariate analysis of variance (α = 0.05) was used to compare forces and moments generated among the three archwires.

Results

Statistical differences were found in 55 of 63 comparisons of forces and moments between archwire types for each tooth around the arch. The lowest force magnitudes were measured for labial straight archwires at each tooth position. The lateral incisor experienced the largest gingival forces with all archwire forms. The first premolar and first molar experienced labial−lingual crown tipping moments in opposite directions between labial and the two lingual archwire forms.

Conclusions

Biomechanical differences between labial, lingual straight, and lingual mushroom treatment modalities for the correction of curve of Spee misalignments were elucidated. Labial straight archwire exerted the lowest force magnitudes overall. For both lingual archwire forms, the labial−lingual inclination of the first premolar could be highly variable during levelling.

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Author notes

a

 Orthodontic Student, School of Dentistry, University of Alberta, Edmonton, Alberta, Canada.

b

 Private Practice, Richardson, TX, USA.

c

 Professor, School of Dentistry, University of Alberta, Edmonton, Alberta, Canada.

d

 Professor, Department of Mechanical Engineering, University of Alberta, Edmonton, Alberta, Canada.

e

 Professor and Chair, School of Dentistry, University of Alberta, Edmonton, Alberta, Canada.

f

 Assistant Professor, Department of Mechanical Engineering; and Department of Biomedical Engineering, School of Dentistry, University of Alberta, Edmonton, Alberta, Canada.