Kristy Azzolin scite author profile

Background. The aim of this study was to produce a dental test soil, with 2 clinically relevant soil components, to be quantified for cleaning process validation. Another goal was to soil diamond instruments with the 2 soil components and validate the efficacy of cleaning instructions, developed and detailed in this study, using both qualitative and quantitative techniques.Methods. To simulate worst-case clinical use conditions, the authors used each soiled instrument to prepare a 9-millimeter-deep access cavity on a noncarious extracted molar. Afterward, the authors applied a mixture of pooled human saliva and blood test soil to each instrument and air-dried it for 30 minutes. The authors cleaned each instrument using documented multistep cleaning instructions, which were then validated via both qualitative and quantitative assessment of protein and enamel-dentin residues using spectrophotometric analysis and microscopy images.Results. After thorough cleaning, neither protein nor enamel-dentin residues were found at quantifiable levels (spectrophotometric analysis) on the soiled and cleaned diamond instruments, which was qualitatively verified (microscopy images).Conclusions. The results of this study show the successful development of a dental test soil with 2 clinically relevant soil components. Furthermore, using these soil components as test markers, the authors found that when the established cleaning instructions are properly followed, a soiled diamond instrument can be cleaned in a quantifiable manner.Practical Implications. Thorough cleaning is a critical step in reprocessing multiuse dental instruments. In accordance with US Food and Drug Administration guidance, the described process for quantification of soil components, using 2 clinically relevant soil markers, on cleaned diamond instruments can be helpful to dental instrument manufacturers in the development and validation of cleaning instructions for their reusable instruments.

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Kristy Azzolin

Curing-light intensity and depth of cure of resin-based composites tested according to international standards

Validating cleanability of dental rotary diamond instruments soiled with 2 clinically relevant dental test soil components

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