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This crossover, in-vivo study was carried out with 10 patients who have been started to be treated at Orthodontics Department. 3 elastomeric ligatures were examined in terms of microbiological and surface roughness.
The development of dental plaque has been associated with several environmental and individual factors including diet composition, oral hygiene, the quality of saliva, the composition of the oral microflora and immune factors. Orthodontic fixed appliances also impede the maintenance of oral hygiene. Plaque accumulation surrounding orthodontic appliances leads to enamel demineralization caused by organic acids produced by bacteria in the dental plaque.
In patients with fixed orthodontic treatment, common pathological changes are gingivitis, bleeding and gingival growth; thus, gingival index and plaque index parameters have been used as indicators of periodontal disease in many studies. Enamel demineralization which results in white spot formation is observed due to the increase in the number and volume of acid-producing bacteria, and the decrease in pH level because of the glucose metabolized by these cariogenic bacteria . The most commonly investigated bacteria among those mentioned above is Streptococcus Mutans. In the literature, it has been the subject of many studies, including those investigating the correlation between the S. mutans count and the amount of adhesive left between brackets and the enamel, adhesion of S. mutans to nickel titanium and copper-nickel brackets, the difference in S. mutans colonization between self-ligation system and normal brackets, and the effect of elastomeric rings and ligature wires on S. mutans colonization.
Non-conventional elastomeric ligatures were produced in order to reduce the friction of orthodontic sliding mechanics. Manufacturers claim that non-conventional elastomeric ligatures reduced ligation friction by 60% compared to conventional modules. It was reported in another study that brackets combined via non-conventional elastomeric ligatures resulted in a reduced friction force compared to conventional elastomeric ligatures in any wires from 14-inch NITI to 19.25 SS.
To our current knowledge, bacterial colonization on non-conventional elastomeric ligatures was investigated in one study only, using microbial culture technique. In light of this information, present study was aimed to compare S. mutans colonization among different commercial types of non-conventional ligatures and ligature wires. The surface structures of these ligature types also will be investigated by atomic force microscope (AFM) and the results of this investigation will be associated with the results of bacterial colonization amount.
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| Microbial colonisation | Experimental | microbial sample collection was done at the end of the time periods T1 (6 weeks after bonding ), 10 weeks after bonding (T2), 14 weeks after bonding (T3), 18 weeks after bonding (T4) |
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| Plaque index | Experimental | Plaque index was measured prior to bonding (T0), 6 weeks after bonding (T1),10 weeks after bonding (T2), 14 weeks after bonding (T3), 18 weeks after bonding (T4) |
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| Gingival index | Experimental | Gingival index was measured prior to bonding (T0), 6 weeks after bonding (T1), 10 weeks after bonding (T2), 14 weeks after bonding (T3), 18 weeks after bonding (T4) |
|
| surface roughness | Experimental | surface roughness was measured before usage and after 4-weeks usage |
| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| Leone slide low friction elastomeric ligature | Other | Leone slide low friction elastomeric ligature application |
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| Measure | Description | Time Frame |
|---|---|---|
| Microbial colonisation change of S mutans | Measurement of microbial colonisation change of the interventions with real time PCR | up to 18 weeks |
| surface roughness identification with atomic force microscope | measurement of surface roughness identification of the interventions by atomic force microscope | up to 4 weeks |
| Measure | Description | Time Frame |
|---|---|---|
| Plaque index | Measurement of plaque index | through study completion, 18 weeks |
| Measure | Description | Time Frame |
|---|---|---|
| Gingival index | Measurement of gingival index | through study completion, 18 weeks |
Inclusion Criteria:
Exclusion Criteria:
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| Name | Affiliation | Role |
|---|---|---|
| Çağlar Dağdeviren | University of Gaziantep | Study Chair |
| Fahriye Ekşi | University of Gaziantep | Study Chair |
| Mustafa sağlam | University of Gaziantep | Study Chair |
| Mehmet Kahraman | University of Gaziantep | Study Chair |
| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| Gaziantep University | Gaziantep | Şehitkamil | 27310 | Turkey (Türkiye) |
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2 a cross-over, in vivo study.
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| RMO tough - o energy elastomeric ligature | Other | RMO tough - o energy elastomeric ligature application |
|
| Dentsply sili tie elastomeric ligature | Other | Dentsply sili tie elastomeric ligature application |
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| AO twisted ended ligature wire | Other | AO twisted ended ligature wire application |
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