The use of orthodontic appliances and equipment has dramatically increased over the past few decades, mainly due to improvements in materials and manufacturing processes that have paved the way for improved treatments . The preference for aligner treatment and the increase in its prevalence can be attributed to patient demand for "invisible" treatments and the limitations of conventional fixed orthodontics . Direct 3D printing offers the possibility of creating highly precise clear aligners with soft edges, digitally designed and identically reproduced for an entire set of treatment aligners. These provide a better fit, higher efficacy, and reproducibility . Clear aligner treatment demonstrated promising results in terms of controlling plaque index, gingival health, and the prevalence of white spot lesions. Nevertheless, grooves, ridges, microcracks, and abrasions on the aligner surface provide a prime environment for bacterial adherence and the development of plaque biofilms. Adding chitosan, a minimally toxic agent with antibacterial properties and the ability to reduce enamel demineralization, to 3D-printed aligner resin materials may decrease the incidence of WSLs . Currently, there is limited research on including nanoparticles in aligners' material for microbe inhibition and, to the best of our knowledge, none of the research has assessed and compared the effect of adding chitosan to an aligner's resin.
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Antimicrobial properties of chitosan nanoparticles incorporated into directly 3D printed clear orthodontic aligner will be assessed by using antibiofilm assay
Timeframe: 2 weeks