Malocclusion Clinical Trial
Official title:
Three- Dimensional Evaluation of Accelerated Tooth Movement
The purpose of this research study is to assess the clinical effectiveness of a minimally invasive alveolar microperforation procedure to achieve accelerated tooth movement in patients undergoing orthodontic treatment for orthognathic surgery. "Accelerated tooth movement" means that Microperforation technique may help complete orthodontic treatment sooner than would be expected in conventional orthodontic treatment
SAMPLE: For this prospective study, 22 subjects were selected, with skeletal discrepancies
randomly divided into two groups: 1 - accelerated tooth movement technique (ATMT) and 2 -
Control .
METHODS: MATERIAL - Orthodontic records done in two times, initial and preoperative; Plaster
models of dental extracted jaw every 28 days converted in digital models; Cone Beam Computed
tomography done in two times, initial and in the end of extraction space closure.
METHODS: Pre-molar extraction was performed before the Orthodontic Treatment to eliminate the
RAP from the tooth extraction. After, at minimum 8 months for leveling, the extraction space
closure was activated with light orthodontic traction (200 g each side) in anterior teeth, to
maintain therapeutic osteopenia until contact point between the canine the second pre-molar
is reached. Slide mechanic was chosen to performed anterior retraction on TADs in IZC.
Cortical perforations - ATMT Group: Flapless cortical micro-osteoperforations has been
performed in the dental extraction area. Surgical protocol is flapless to preserve
periodontal health. After local anesthesia, 3 micro osteoperforations are done with manual
instrument, between the contour of free gum and tooth apex, and the canine and second
pre-molar roots. The perforations near each tooth adjacent to the extraction area has 6-8 mm
depth.
Results: On digital models - shortest distance between two adjacent teeth to the extraction
space will be measured until the space closure.
Cone-Beam Computed Tomography: after image acquisition , data will be previously converted to
DICOM , to converted to GIPL in ITK-SNAP 3.2 software. In Slicer software voxels will be
converted to size 0.5 mm for further construction of virtual three-dimensional models,
through segmentation of anatomical structures again in ITK-SNAP 3.2 software. This
segmentation will be made by the full selection of all maxilla and mandible anatomically and
individually, with the limit all skeletal outline available, including teeth. After 3D models
generation, specific control targeting to fill all narrow spaces, so that they are not
excluded from the virtual model and the external cortical displacements are the only ones to
be computed in the comparative evaluation between later time. Then regional overlay 3D models
will be done using Slicer software. For overlapping structures: In mandible will use along
the edge of the mandibular symphysis; maxilla, posterior nasal spine. Overlap is automatic
because software compares voxels grayscale to reference region to overlap spatially.
Displacement evaluation will be done with Slicer software through colorful maps generated by
calculating the distances between points of two representatives surfaces. These maps
differentiate the movements between surfaces. For quantification metric, specific online tool
is used to measure the displacement in millimeters. We will evaluate quantitative
displacement for space closure, closing speed, the possible changes throughout the
maxillomandibular complex and compared between groups. After collecting data, the results
will be statistically analyzed.
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