INTRODUCTION
Since self-ligating brackets appeared in 1935, numerous papers have been published with the intention of determining the advantages of the self-ligating system over the conventional1-6. Self-ligating brackets reduce ligating friction, and the use of super elastic archwires enables the application of light forces that produce tooth movements. These are the forces of choice in orthodontic treatments. The clinical response of low friction systems and light forces with self-ligating brackets is different from that obtained in friction systems with conventional brackets. In a comparative study between treatment with conventional and self-ligating brackets, Herradine5 found lower incisor inclination in self-ligating braces and expansion in both systems.
Reddy et al.7 found that for space closing, treatments with self-ligating brackets were more efficient than conventional brackets, and the alignment occurred with less incisor inclination.
Lineberger8 carried out a study of digital models in which a control group of 25 untreated patients was compared to 25 patients treated with self-ligating brackets (DAMON). In the Damon-treated group, there was an increase in the transverse diameter in the premolar area from 2 to 2.2 mm. There is no reference in the inclusion criteria to the need for space required for alignment (crowding), patients with Angle Class I canine and molar were included. Morais et al9, found a significant increase in the transverse diameter in the dental arches in patients that were treated with self-ligating brackets, especially between first premolars. It determined that the widening occurred mainly by buccal inclination. Our hypothesis is that in patients with moderate to severe crowding treated with self-ligating brackets, the greatest gain in space occurs in the premolar area, achieving the natural dental arch shape, giving space to the aligning teeth.
The aim of this study is to evaluate in pre- and postalignment models the differences in the distance in both jaws between canines, first premolars, second premolars, first molars and second molars.
MATERIALS AND METHODS
The project was approved by the Bioethics Commission of the School of Dentistry of the University of Buenos Aires, code CO22, 20122014.
The study began with 31 patients aged 16 to 48 years old who were treated at the Orthodontic Department of the School of Dentistry of the University of Buenos Aires. Patients with systemic diseases, joint disorders, periodontitis, untreated caries, mixed or temporary dentition and with impacted or absent teeth (except third molars) were excluded. All patients signed their informed consent to participate in this project. Three patients discontinued treatment for personal reasons, so the final number of subjects included in the study was 28 - 10 male and 18 female. These 28 patients needed dental arch expansion due to moderate to severe dental crowding (dental discrepancy between -6 and -16 mm).
Patients were treated with the Damon System (low friction system), Damon II brackets (A-Company) and copper nickel-titanium archwires (Damon Cu-NiTi 0.014 and 0.016), Damon format archwires. Each treatment plan was prepared according to the initial diagnosis with or without indication of dental extractions. If necessary, the extractions were performed after the alignment stage. Routine diagnostic studies were performed (Panoramic x-ray, lateral cephalometric radiograph; cephalometric tracings, clinical examination and dental models). The dental arch was considered aligned when it was possible to place the rectangular arch. No tooth extractions or interproximal stripping were performed in this initial stage of treatment. Impressions were taken for plaster casts for evaluation of the post-alignment stage.
The distance between homologous teeth was measured on the casts of the maxilla and mandible before and after treatment (Fig. 1). The measurement method was described in a previous work.10 A Mitutoyo Digimatic NTD12-6" C brand digital caliper was used; Mitutoyo Corp. Tokyo, Japan. Three calibrated operators performed the measurements.
The differences between pre- and post-treatment were statistically evaluated using the two-tailed Paired-Samples Student's T-Test.
RESULTS
The measurements are shown in Table 1. The differences between the pre- and post-treatment measurements in the maxilla were statistically significant for 2PM, 1M and 2M. In the mandible, significant differences were found for canines and premolars.
DISCUSSION
The treatment with the Damon System uses self-ligating brackets and Damon Copper Ni-Ti archwires1 (copper-nickel-titanium) with thermal-reactive properties, which deliver very low force that could be controlled by the musculature. The size of the arches is the same for both jaws, being larger in relation to other formats such as the "True Arch" of the Roth philosophy11 or the formats established for treatment with the MBT System designed to respect the original shape of each arch: ovoid, narrow or square, with different sizes for maxilla and mandible The material used in the alignment phase is nickel titanium.12 Clinical studies comparing self-ligating and conventional brackets include patients with mild to moderate crowding because a patient with severe crowding could not be treated with conventional orthodontics without having to be initially extracted
6,13-19
These studies do not evaluate the results of treatment with self-ligating brackets in patients with crowding greater than 7 mm and the need for transverse arch development.
In the present study, moderate to severe crowding was used as an inclusion criterion to evaluate the results of treatment with self-ligating brackets by comparing dental arches before and after alignment with orthodontics.
Inter-canine distance had minimal variation for the maxilla, with a large deviation between cases. In the mandible, the pre- and post-treatment difference increased slightly on average, with less deviation between cases.
Regarding the variations in the premolar sector, a significant increase in transverse diameter was found for both premolars and in both dental arches.
Vajaria et al.14 included the evaluation ofthe distance between premolars, which was not taken into account in previous studies. In a retrospective study, they compared patients treated with the conventional and self-ligating systems. Despite the fact that the population studied was different from that of the present study, both in the inclusion criteria and in the lack of description on the degree of crowding, their results have the same trend as ours. It is inferred that transverse development occurs according to the need for space presented by each patient according to the compression or crowding in their dental arches. Due to the action exerted by the deflection of the archwire, remodeling occurs in the dental arches according to the space required by the teeth. The greatest transverse gain is found in the inter-premolar distance, which will be greater in the patient with the highest compression. The greatest compression in the premolar sector would be in relation to the lack of natural development of the dental arches, associated with alteration of oral functions. In the maxilla, distance increased slightly between first molars and decreased between second molars, with a statistically significant difference between the values. This would be related to the transverse compression observed in the pre-treatment models between premolars and first molars. The second molar presents a position toward the vestibular in the dental arch at the transverse level, possibly because it erupts protected from abnormal muscular activity by anatomical landmarks. In the mandible, both inter-molar distances increased slightly, with no statistically significant difference. The greatest modification in the transverse diameter of both upper and lower dental arches occurs at the level of the inter-premolar distance, coinciding with the studies by Cattaneo,10 Lineberger8 and two previous studies published by our group9-13. The originality of the present study is the inclusion in the sample of patients with moderate to severe crowding, in whom the teeth could remain in their basal areas without extractions, a result that could not have been achieved without the transverse development of the dental arches.
CONCLUSION
In alignment with passive self-ligating brackets in patients with moderate to severe crowding, there is a significant increase in transverse diameter due to the development of the dental arches, mainly in the premolar sector in both jaws. The greater transverse development in the maxilla would indicate that the appliance enlarges the dental arch that most needs it, even if the same arch format is used.