Orthodontics Clinical Trial
Official title:
Osseous Evidence Behind Micro-osteoperforation Technique in Accelerating Orthodontic Tooth Movement Towards Reducing Treatment Duration.
Introduction
The study aimed to investigate the effects of micro-osteoperforations (MOPs) on the changes
in mandibular bone volume fraction (Bone Volume/Total Volume, BV/TV), in relation to the MOP
effects on the rate of orthodontic tooth movement, using CBCT images. The other objective was
to evaluate the effects of different frequency intervals (4 weeks, 8 weeks and 12 weeks) of
MOPs on mandibular bone volume fraction (BV/TV), in relation to the rate of tooth movement.
Methods
In 24 participants, orthodontic force of 140-200 grams was applied for mandibular canine
retraction. Three micro-osteoperforations (MOP's) were made according to the scheduled
intervals of the three different groups (4, 8 and 12 weeks) directly at the mandibular buccal
cortical bone of extracted first premolars sites. At the 12th week following MOP application,
CBCT scans were performed. CT Analyser software was used to compute trabecular alveolar bone
volume fraction (BV/TV).
This study is a single centred, single-blinded, prospective randomised split-mouth clinical
trial conducted at University of Malaya. The ethical approval for the present study was
obtained from the institutional Medical Ethics Committee (DF CD1608/0059P). Written informed
consents were obtained from all participants prior to the study. Cone beam computed
tomography (CBCT) (Kodak 9000) images was used to assess the trabecular alveolar bone volume
fraction (BV/TV) at micro-osteoperforations (MOPs) sides. The rate of orthodontic tooth
movement was assessed by comparing the available space between control and MOP sites in three
different interval groups. Twenty-four participants were selected according to the study
selection criteria. Inclusion criteria was (1) aged 18 years and above at the start of the
treatment, (2) molar relationship either Class I, < ½ unit Class II or Class III, (3)
extraction of all four first premolar teeth as part of orthodontic treatment, (4) maximum
anchorage required using mini-implant, (5) no systemic disease, (6) good oral hygiene and (7)
no periodontal disease. Participants were excluded if they had significant vertical skeletal
discrepancies, systemic diseases requiring long-term antibiotic use, phenytoin, cyclosporin,
anti-inflammatory drugs, bisphosphonates, systemic corticosteroids or calcium channel
blockers, poor oral hygiene for more than visits or active periodontal disease.
Sample size calculation
G*Power software (version 3.1.9.2) was used to calculate the total sample size of 24 using t
tests to achieve a power of 80% and a level of significance of 5% (two sided), for detecting
an effect size of 0.60 between pairs. However, 30 samples were selected to compensate for any
dropouts during the study.
Demographic characteristic
Twenty-four participants were stratified in 3 study groups (4, 8 and 12 weeks) based on
frequency intervention intervals. Ethnically, there were 11 Malay samples (45.8%), 10 Chinese
samples (41.7%) and 3 Indian samples (12.5%). Gender and ethnic distribution was not equal
within the study groups due to the limited sample size, as a result gender variance was not
assessed in the present study.
Micro-osteoperforations and canine retraction
The lower dentition was bonded with preadjusted edgewise brackets (3M Unitek, 0.022" x 0.028"
slot in MBT prescription), and the first and second molars banded (3M Unitek, 0.022" x 0.028"
slot in MBT prescription). Mini-implants were inserted in the keratinised gingiva between the
second premolars and first molars bilaterally for both indirect and direct anchorage
purposes. Canine retraction was done one month after insertion of a stainless-steel working
archwire (0.018 x 0.025-inch SS) (GAC PAK Stainless Steel ACCUFORM®), using power chain (3M
Unitek Alastik TM elastomeric chain), with a force of 140-200 grams (measured directly using
a Correx Force Tension gauge, Haag-Streit Diagnostics, Switzerland), engaged from the canines
to the mini-implants. The distance of canine movement was recorded every four weeks with
digital callipers accurate to 0.01 mm, for a period of 12 weeks.
Micro-osteoperforations were performed according to the scheduled intervals of the three
different groups. At the experimental site, three micro-osteoperforations were made directly
at the buccal cortical bone of extracted first premolars sites, at equidistance from the
canine and second premolar under local anaesthesia. The MOPs were 2 mm apart in vertical
direction and 3 mm depth. The first MOP were placed starting at the horizontal level of the
cervical margin of the canine tooth and extending apically. Orlus Extra Thread mini-implant
(1.6 mm width, 6 mm length) with a rubber stopper at a measured length (depth of
micro-osteoperforation at 3 mm and soft tissue thickness was taken into consideration) was
used to perform MOPs. Group1 received four sessions of MOPs, group 2 and group 3 received two
sessions of MOPs. At the 12th week following MOP application, CBCT scans of the left and
right mandibular quadrants (both control and intervention side) were acquired.
Radiographic evaluation of trabecular bone volume fraction
CBCT (Kodak 9000, Carestream) exposure parameters were 70KV, 8mA, 10.8s and voxel size of 76
µm. The DICOM® (Digital Imaging and Communications in Medicine) format of CBCT images were
converted into BMP (Bitmap image) files using ImageJ software (Version 1.50i) before
analysing the trabecular bone volume fraction (BV/TV) in CT Analyser software (version
1.11.0.0 copyright Sky Scan).
Blinding
Both the observers (orthodontic postgraduate students) were blinded to the frequency of MOP
whilst analysing the bone volume fraction (BV/TV) using CT analyser software as CBCT files
were labelled by random numbers.
Image Analysis
In CT Analyser, a region of interest (ROI) was identified between canine and second premolar
teeth. The top slice of the ROI started from a slice apical to the cemento-enamel junction of
canine. The bottom slice of the ROI was determined by subtracting 14.8mm from the Z-position
of the upper slice on the axial view of CBCT image. A polygonal tool was used to mark the ROI
at the top and bottom layers. Then a dynamic interpolation was applied to create an adaptive
ROI. Then, the ROI was binarized using the threshold values obtained from the control side of
each patient (Figure 4). The range of threshold values was determined by checking the
threshold value of the cortical bone in the binary histogram. After binarization, the
percentage of bone volume (BV/TV) was calculated.
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