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Clinical Trial Summary

Orthodontic treatment has been traditionally carried out with fixed appliances involving the use of stainless steel brackets and archwires. The challenge has been to move teeth and their roots effectively while minimizing iatrogenic damage such as root resorption and gingival inflammation. In recent years, with the development of new appliances and brackets such as self-ligating brackets and clear aligners there have been reports of improved periodontal status, less iatrogenic root damage and improved hygiene during treatment. Although these treatment modalities have been rapidly accepted in clinical practice, both clinical and basic science research data regarding their overall biological compatibility to support higher levels of evidence based dentistry (e.g, randomized clinical trials) is lacking. In other words, their advantages and disadvantages in this regard have not yet been scientifically evaluated. Such quantification will provide invaluable information for improvements in these treatment modalities.

A randomized controlled clinical trial will be conducted with strict inclusion and exclusion criteria to test the following hypothesis (H) up to 18 months into treatment:

H-1: There is no difference in the amount of root resorption caused by the three different appliances.

H-2: Gingival health is not affected by the 'type of appliance' being used to correct the malocclusion.

H-3: There is no difference in the amount of bacterial count and the type of appliance being used for orthodontic treatment.

The hypothesis will be tested with the following specific aims (SA):

SA-1: To investigate the amount of orthodontically induced inflammatory root resorption generated by treatment.

SA-2: To evaluate the periodontal health of the patients with the different appliance systems.

SA-3: To determine the changes in Streptococcus mutans and total bacterial counts contained in the plaque of orthodontic patients.

SA-4: To ascertain whether there is an association between the microbial count and the type of appliance being used for orthodontic treatment


Clinical Trial Description

Importance of the research Orthodontic treatment is no longer limited mainly to children and adolescents. With increasing number of patients from older age groups seeking orthodontic treatment; there has been an increasing demand for esthetic alternatives to conventional fixed stainless steel appliances. Some issues associated with conventional fixed appliances for treatment are: 1) unaesthetic appearance of brackets especially for adult patients, many of whom are unwilling to wear braces, 2) conventional systems compromise the ability of the patient to maintain good oral hygiene; 3) increase the risk of periodontal breakdown due to constant accumulation of plaque around the brackets, wires and ill-fitting bands; 4) require many follow-up visits for appliance reactivation and adjustment if the teeth do not move as desired; 5) iatrogenic root resorption, a major medico-legal concern also poses significant problems for the clinician. Increased use of self-ligating brackets and clear aligners from Invisalign (Align Technology, Inc., Santa Clara, CA) are some of the recent developments in orthodontics that have tried to address these concerns. However clinical evidence highlighting their efficacy has not been quiet forthcoming. Present knowledge is primarily based upon case reports, case series, surveys, anecdotal reports and retrospective studies. In such a scenario it is imperative to find an optimized evidence-based treatment strategy that leads to predictable outcome with complete patient satisfaction during and after treatment while minimizing the risk for root resorption and periodontal breakdown.

RESEARCH DESIGN & METHODS:

Screening procedure:The partcipants were selected from the Division of Orthodontics, Department of Craniofacial Sciences, University of Connecticut, Health Center by two investigators: 1) faculty member supervising the 'clinical component' of the research and 2) faculty member supervising the microbiological and radiological part of the research.

Only after gaining approval from both the faculty members a participant was selected for the study. The participants and their parents were provided with a written explanation on the background of the study, its objectives, and their involvement. In addition to the consent form for routine orthodontic care currently used in the investigator's clinic; the patient or parent/guardian of every participant was given a second consent form specifically related to this study. The following were the inclusion criteria, which were based on previous studies and the investigator's clinical research experience:

1. All the participants should be physically healthy with no relevant allergies or medical problems.

2. All participants ≥ 12 years of age.

3. There should be less than 8mm of anterior crowding or spacing and adequate buccal interdigitation. Patients with posterior edentulous spaces will only be included if treatment does not entail space closure.

4. Participants should have all permanent teeth present, except third molars.

5. Demonstrable ability to maintain adequate oral hygiene.

6. Show optimum dental health without immediate need for restorations.

Following will be the exclusion criteria:

1. Skeletal anterior-posterior discrepancies between the maxilla and mandible (ANB ≥ 5°).

2. Centric relation (CR)- Centric occlusion (CO) discrepancies of greater than 3 mm.

3. Anterior or posterior open bites.

4. Participantswho are pregnant, diabetic or using mouth rinses or interacting medications, including antibiotic therapy.

5. Presence of active periodontal disease.

6. Presence of impacted teeth.

7. Smoking

The participants who fulfilled the above criteria were randomly assigned to one of the treatment groups. The statistician on this project used a computer-generated random numbers ('Rand' function, Microsoft, Excel 2011) for allocation of the sequence. This ensured even distributions of the participants in all the groups. Computer generated random numbers also randomized the right and the left sides of the maxilla for selecting the experimental side.

Sample size From previous studies, it was inferred that a mean colony forming unit (CFU) unit difference of approximately one log (standard deviation (SD) = approximately 1) would result in a clinically significant increase in S.mutans counts. Therefore the sample size of 15 participants per group, at α = 0.05, yielded a statistical power of approximately 0.80 for this study. To account for a 10-20% patient drop out and data loss due to other unavoidable circumstances, we will enroll 60 patients for this study.

Specific aim #1: Measuring the gingival health

Periodontal measurements were recorded specifically for the upper maxillary lateral incisor and second premolar.One individual took all study related periodontal measurements at three different time intervals:

T0: before treatment, T1: after 9 months of treatment &T2: after 18 months of treatment.

During all the measurements, the examiner was blinded from the previous scores. Prior to the start of the research, all participants received standardized oral hygiene instruction to ensure a healthy periodontium.

Goal 1: Measuring the gingival Status The gingival index (GI) developed by Loe and Silness was used.Grades of the severity of gingivitis was scored by clinical inspection based on the size, color, and texture of the gingival margin adjacent to the bracket and bleeding on probing.

Goal 2: Measuring the plaque index (PI) The PI was assessed according to the plaque accumulation in the gingival area in four grades by guiding a probe gingivally over the buccal surface of the selected teeth.

Goal 3: Measuring the papillary bleeding index (PBI) Bleeding on probing (BOP) tendency was measured at the proximal buccal side of the selected teeth, 20 seconds after probing the depth of the pocket/gingival sulcus. The PBI will be assessed in five grades by guiding a probe carefully along the marginal sulcus while observing bleeding intensity.

Specific aim #2: Estimating the total bacterial and Streptococcus mutans count in the plaque sample.

Goal 1: Collection of plaque specimen After isolating the teeth from saliva with cotton rolls and gently drying them to prevent contamination, the supragingival plaque was carefully removed without traumatizing the gingiva, as this would increase the production of gingival crevicular fluid. 52 The plaque-sampling investigator used a standardized protocol to collect specimens at all the three time intervals. Plaque specimens were collected from the labial surfaces immediately surrounding the orthodontic brackets with a sterilized dental scaler with the same tip dimensions (#8/9 Orban DE hoe scaler, Hu-Friedy, Chicago, Ill). Because the area of increased decalcification was generally immediately adjacent to the brackets, four passes, 1 each along the tooth at the bracket interface at the gingival, mesial, distal, and occlusal aspects, were made to avoid overloading the instrument tip. For the invisalign group a single circular stroke around the center of the clinical crown was made. All specimens from each tooth were placed into individual tubes with anonymous coding and sealed for transport to the laboratory. The coding of the specimens ensured blinding of laboratory personnel and help minimize experimental bias.

Goal 2: Microbial sampling Each specimen was diluted in 2 ml of phosphate buffered saline (PBS) dilute yeast extract and the samples will be sonicated for 10 sec before doing serial dilutions. Then 1 ml was submitted to tenfold serial dilution in 9 ml of yeast extract. After each serial dilution the test tubes were vortexed for 10 sec. Ten microlitre (10 μl) of supernatant was then plated onto Tripticase soy agar supplemented with 5% sheep bovine blood (BBL) for total bacterial evaluation and mitis salivarius-bacitracin agar specific for S. mutans. The samples were processed within 2 hours and the plates incubated for 24 hours at 37°C. The number of total CFU (Colony forming unit), specific to S. mutans was identified and counted by the blinded investigator which represented the total recoverable facultative flora.

Specific aim # 3: Estimating the external apical root resorption (EARR) of the maxillary incisors For each patient periapical films of the maxillary incisors and the premolars & orthopantographs (OPG) were taken at the two different time points (T0 & T2). All the periapical films were developed under similar conditions (Dentax 810 Basic) scanned with a ruler to a computer, calibrated and measured in a 1:1 ratio with Adobe Photoshop software (Adobe, San Jose, Calif) for measurement purposes. If required for better interpretation the image of the tooth was enlarged and/or printed.

Measuring root resorption Root and crown length was measured with a sliding caliper to the nearest 0.1 mm The enlargement factor of the second film was adjusted to the first film in each case by reference to the registered crown length, which is assumed to be unchanged by orthodontic treatment.

The 'rule-of-three formula' was applied to calculate root length changes due to orthodontic treatment. It was assumed that during orthodontic treatment the crown length does not change (unless it is fractured). Therefore, the ratio between the initial crown length (C1) and the final crown length (C2) determined the enlargement factor. If no change occured in the root length during treatment, the ratio between the initial root length (R1) and the final root length (R2) should be equal to the C1/C2 ratio. If during treatment the root was shortened, the amount of OIIRR was R1-R2 (C1/ C2).

All research data was identified by unique identifier (Patient1, Patient 2 …) that contained no PHI. Specifically, all data collected from the experiments was not associated with the participant's name, medical ID number, or any other identifier, which could readily identify the participant. All participant data that was gathered was transferred immediately to a secure database where the data was identified only by unique identifiers that were created for each participant. ;


Study Design

Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Parallel Assignment, Masking: Single Blind (Outcomes Assessor), Primary Purpose: Treatment


Related Conditions & MeSH terms


NCT number NCT02745626
Study type Interventional
Source University of Connecticut Health Center
Contact
Status Completed
Phase N/A
Start date December 2011
Completion date November 2015

See also
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Completed NCT04044989 - Photobiomodulation and Root Resorption N/A
Terminated NCT03741504 - Biological Anchorage With Selective Micro-osteoperforations (MOPs) in Canine Distalization N/A
Completed NCT06410105 - Orthodontic Treatment With Clear Aligner N/A