Oral Health Clinical Trial
Official title:
phase2 Safety and Efficacy of Antibacterial Nano Particles Incorporated in Dental Composite.
Resin composites withholding antibacterial properties may be useful in preventing recurrent caries. Covalently attached antibacterial polymers are a possible solution.This in vivo study would evaluated the antibacterial effect of alkylated polyethylenimine nanoparticles incorporated into flowable and hybrid composite resin disks embedded in a palatal removable appliance.The disks would be in close contact with the palate in order to check for contact mucosities. disks on the side facing the Tongue would be evaluated for their antibacterial potency with confocal laser scanning microscopy.
Composite resin materials are widely used in the dental clinic for replacement of hard
tissues. Although the mechanical properties and wear resistance of these materials have been
improved substantially, their antibacterial properties are still limited. These resin-based
materials accumulate more dental plaque than other restorative materials both in vitro, and
in vivo, which may result in secondary caries. A number of reports described experiments in
which composite resins were impregnated with antibacterial agents such as antibiotics,
silver ions, iodine and quaternary ammonium compounds, and gradually released them. However,
release of antibacterial agents into the surrounding milieu at various releasing rates had
several disadvantages: a decrease in the mechanical properties of the carrier material over
time, short-term effectiveness, and possible toxicity if the release is not properly
controlled. As compared with conventional antibacterial agents of low molecular weight, the
advantage of polymeric antibacterial agents is that they are nonvolatile, chemically stable,
can be chemically bound within the polymer carrier via active groups for improved
integration in the composite, and are difficult to penetrate through the skin. It has been
reported that polycations exhibit antibacterial properties, i.e. interact with and disrupt
bacterial cell membranes. A number of polymers with antibacterial properties were developed
for this purpose, including soluble and insoluble pyridinium-type polymers involved in
surface coating. Several reports have described incorporation of a
methacryloyloxydodecylpydidinium bromide (MDPB) monomer in composite resins that showed no
release of the incorporated monomer but still exhibited antibacterial properties. The
objective of this study is to evaluate clinically the safety and efficacy of alkylated
polyethylenimine (PEI) nanoparticles in composite resin restorative materials . In an in
vitro study, addition of a small percent (1% w/w) of nanoparticles did not affect
significantly the flexural strength of the commercial materials. The mechanical properties
of the new composites were close to those of the original composite, but exerted a strong
antibacterial activity upon contact that lasted for at least six months.
methods:alkylated polyethylenimine (PEI) nanoparticles added (1% w/w)to hybrid composite
resin disks embedded in a palatal removable appliance.The disks would be in close contact
with the palate in order to check for contact mucosities. disks on the side facing the
Tongue would be evaluated for their antibacterial potency with confocal laser scanning
microscopy.
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Observational Model: Case Control, Time Perspective: Prospective
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