IMUNODENT: Immunological and Regenerative Implications of Corrosion of Dental Materials
Study Details
Study Description
Brief Summary
During orthodontic treatment intraoral corrosion results with release of nickel and titanium ions from orthodontic appliances in surrounding tissues. Those transported in the saliva and blood may cause a series of side effects from hypersensitivity reactions and soft tissue proliferation to cyto and genotoxicity. Nickel is one of the strongest contact allergens, present in numerous dental alloys. The aim of this project is to investigate the immune potential of nickel and titan ions (development of allergies, changes in cariogenic potential of dental plaque, resistance of gingivitis to therapy, and bacterial resistance to antibiotics) and changes in performance of orthodontic appliances with repercussion on regeneration of bone and periodontal tissues.
| Condition or Disease | Intervention/Treatment | Phase |
|---|---|---|
|
Phase 2 |
Detailed Description
Tooth movement with appliances based on nickel and titanium has got great osteogenic potential and can regenerate deficient parts of alveolar bone and gingiva and rehabilitate compromised occlusal relations and a patient's masticatory function. Due to the extended duration of this therapy, different procedures are carried out and materials are applied for prevention and regeneration of damaged enamel and oral mucosa. The oral cavity may be considered a galvanic cell in which dental alloys act as electrodes, while saliva and oral preventive and regenerative agents act as electrolites. The interaction causes corrosion, reduction of elasticity and increase of stiffness of appliances, which may in turn result in excessive forces, a disruption of tissue regeneration and irreparable damage of tooth roots, surrounding alveolar bone, periodontal ligament, gingiva and pulp.
During the extended exposion, released corrosive products in surrounding tissues and those transported in saliva and blood may cause a series of side effects from hypersensitivity reactions and soft tissue proliferation to cyto and genotoxicity. Today, allergies are ever more frequent and arise earlier in life. A specific group are children and young adolescents in pubertal growth, a period in which the immune system develops. Nickel is one of the strongest contact allergens, present in numerous dental alloys. Nickel allergy is occurs in up to 28.5% of population and cannot be deemed as low potential risk anymore.
In contrast, titan was considered a biocompatible material of no allergic potential. However, there is an increase in the frequency of presentations of different hypersensitivity reactions to titan, especially in patients with pacemakers. Numerous patients with hip endoprostheses, stents, dental implans and orthodontic appliances are exposed to titan. Titan allergy may be the cause of unexplained cases of failure and rejection of dental implants. Nickel and titan could cause bacterial resistance to antibiotics which may complicate treatment of a series of infections that are more frequent in children and adolescents.
Regulations for safety of medical products regulate safety issues of materials through mandatory laboratory testing and expertise. However, the testing of interactions of these materials with newly formed materials for prevention of damage and regeneration of orodental tissues is not obligatory prior to the start of their commercial use. Such testing should be conducted by independent scientific insitutions and not by producers with direct commercial interest.
The aim of this project is to investigate:
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the corrosion of dental materials and appliances based on nickel and titan (in saliva and due to interaction with probiotics, remineralising agents and antiseptics)
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the immune potential of nickel and titan ions (development of allergies, changes in cariogenic potential of dental plaque, resistency of gingivitis to therapy, and bacterial resistance to antibiotics)
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the effect of nickel and titan ions cellular level
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changes in performance of dental appliances with repercussion on regeneration of bone and periodontal tissues.
Study Design
Arms and Interventions
| Arm | Intervention/Treatment |
|---|---|
| Experimental: high concentration enamel remineralisation agent first month brushing teeth three times per day: twice per day with high-fluorides gel (Mirafluor K gel cola 6150 ppm F pH 5.1) and once per day without toothpaste and fluoride gel next two months brushing teeth three times per day with toothpaste containing low concentration of fluorides (1450 ppm) |
Combination Product: Exposure to oral antiseptics or enamel remineralisation agent
|
| Experimental: oral antiseptic first month brushing teeth without toothpaste three times per day and using oral antiseptic chlorhexidine mouthwash (Curasept ADS 212 a 200ml 0,12%) twice per day next two months brushing teeth three times per day with toothpaste containing low concentration of fluorides (1450 ppm) |
Combination Product: Exposure to oral antiseptics or enamel remineralisation agent
|
| No Intervention: Control regular oral hygiene without exposure to oral antiseptic or high concentration enamel remineralisation agent three months brushing teeth three times per day with toothpaste containing low concentration of fluorides (1450 ppm) |
Outcome Measures
Primary Outcome Measures
- Reaction of oral bacterial flora to oral antiseptics and dental remineralisation agents [30 days]
Detection of change of count of Streptococcus mutans, sorbinus and salivarius and total bacterial count assesed by qPCR in the dental plaque before and after intervention in patients with fixed orthodontic appliances.
Secondary Outcome Measures
- Dental arch shape [90 days]
Measuring anterior and posterior dental arch width (in millimeters), anterior depth and depth to width ratio in orthodontic patients wearing uncoated nickel-titanium 0.020''x0.020'' archwire on the day of putting the archwire and on the day of removing it.
- Oral hygiene [210 days]
Assessing accumulation of dental biofilm with Modified Silness and Loe Plaque Index (0-3; 0=no plaque and 3=continuous line of dental bacterial plaque more than 1 millimetre).
- pH of dental biofilm [210 days]
Measuring pH of dental biofilm (colorimetric test with pH scale range from 4 to 7).
- Gingivitis [210 days]
Assessing extent of gingivitis by Full Mouth Bleeding Score (percentage).
- Corrosion of dental alloy [90 days]
Potential of corrosion, passive film breakdown and repassivation (mV)
- Surface roughness of dental alloy [90 days]
Surface roughness assessed by Atomic Force Microscopy (nm)
- Friction of dental alloy [90 days]
Friction coefficient (no units)
- Forces produced by dental alloy [90 days]
Load and unload forces measured by three-point bend test (N)
- Hardness of dental alloy [90 days]
Vickers Pyramid Number (HV)
- Stifness of dental alloy [90 days]
Young's modulus and yield strength (GPa)
- Elasticity of dental alloy [90 days]
Modulus of resilience and springback ratio (MJ/m-3)
Eligibility Criteria
Criteria
Inclusion Criteria:
-
patients with fixed orthodontic appliances
-
must be able to do a mouthwash
Exclusion Criteria:
- patients allergic to fluoride agents and chlorhexidine gluconate
Contacts and Locations
Locations
| Site | City | State | Country | Postal Code | |
|---|---|---|---|---|---|
| 1 | University of Rijeka Faculty of Dental Medicine | Rijeka | Croatia | 51000 |
Sponsors and Collaborators
- University of Rijeka
- Croatian Science Foundation
Investigators
- Principal Investigator: Stjepan Spalj, PhD, University of medicine Rijeka
Study Documents (Full-Text)
None provided.More Information
Additional Information:
- all data concerning research project are available at link (Immune and regenerative implications of corrosion of dental materials in children and adolescents)
- all data concerning new project are available at link (Environmental factors and microbiological interactions in the structure of dental biofilm)
Publications
None provided.- IP-2014-09-7500