Abstract
Objective The aim of this in vitro experiment was to see how the operator's manual skills, polishing equipment, and abrasive materials affected the surface roughness of denture base resins. Materials and Methods Forty polymethyl methacrylate (PMMA) specimens were created and polished by using two different polishing systems, namely hand and automatic polishing machines. Three operators hand-polished 30 of specimens with eggshell powder and pumice, while 10 were automatically polished ( n = 5). A profilometer was used to determine the average surface roughness (Ra) after polishing. The Ra values for the specimens hand-polished were analyzed by using paired sample testing. The Ra values for all polished specimens were analyzed by using a one-way ANOVA. Differences between the two abrasive materials as well as the polishing system were determined by using the Bonferonni tests ( p = 0.05). Results and Conclusion For the PMMA specimens hand-polished, there was a strong connection in the Ra values. There were also significant variations in the Ra values across the three operators ( p < 0.001). The automated technique created a substantially smoother surface than the traditional technique ( p = 0.001). The greatest Ra values (0.20 µm) were found in specimens polished traditionally by using pumice, whereas the lowest Ra values (0.04 µm) were found in specimens polished mechanically with eggshell powder. The automated polishing system was the most effective polishing method when the Ra values were connected to the level of smoothness.
Highlights
For many years, acrylic resin made of polymethyl methacrylate (PMMA) has been the most popular denture base material due to its unique properties such as ease of processing, lightweight, cheap cost, aesthetic qualities, and stability in an oral environment.[1,2] Despite this, the surface properties of PMMA denture base material are poor,[3] which could subsequently act as a substrate for microorganism adherence and biofilm formation.[2]
Since PMMA denture base materials are used in the oral cavity, a smooth and highly polished surface on an acrylic resin denture base is essential for maintaining dental health and preventing bacterial colonization.[4,5]
The image reveals that the eggshell powder had uneven particle size distribution in a range of 1.9 to 568 nm
Summary
Acrylic resin made of polymethyl methacrylate (PMMA) has been the most popular denture base material due to its unique properties such as ease of processing, lightweight, cheap cost, aesthetic qualities, and stability in an oral environment.[1,2] Despite this, the surface properties of PMMA denture base material are poor,[3] which could subsequently act as a substrate for microorganism adherence and biofilm formation.[2]. Acrylic resin made of polymethyl methacrylate (PMMA) has been the most popular denture base material due to its unique properties such as ease of processing, lightweight, cheap cost, aesthetic qualities, and stability in an oral environment.[1,2]. The surface properties of PMMA denture base material are poor,[3] which could subsequently act as a substrate for microorganism adherence and biofilm formation.[2]. Since PMMA denture base materials are used in the oral cavity, a smooth and highly polished surface on an acrylic resin denture base is essential for maintaining dental health and preventing bacterial colonization.[4,5]. Tupinamba et al[5] believe that correct polishing is essential in preventing bacterial retention and plaque build. Other investigations[6–8] have found that the clinical quality and success of dental prostheses intraorally are determined by a published online December 10, 2021
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