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Ratzka, Philipp; Zaslansky, Paul; Jost-Brinkmann, Paul-Georg

Rasterelektronenmikroskopische Untersuchung von Schmelzoberflächen nach Anwendung verschiedener Air-Polishing-Pulver im kieferorthopädischen Setting: eine In-vitro-Studie Scanning electron microscopy evaluation of enamel surfaces using different air-polishing powders in the orthodontic setting: an in vitro study

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  • Media type: E-Article
  • Title: Rasterelektronenmikroskopische Untersuchung von Schmelzoberflächen nach Anwendung verschiedener Air-Polishing-Pulver im kieferorthopädischen Setting: eine In-vitro-Studie Scanning electron microscopy evaluation of enamel surfaces using different air-polishing powders in the orthodontic setting: an in vitro study
  • Contributor: Ratzka, Philipp; Zaslansky, Paul; Jost-Brinkmann, Paul-Georg
  • imprint: Springer Science and Business Media LLC, 2023
  • Published in: Journal of Orofacial Orthopedics / Fortschritte der Kieferorthopädie
  • Language: English
  • DOI: 10.1007/s00056-023-00466-2
  • ISSN: 1434-5293; 1615-6714
  • Keywords: Oral Surgery ; Orthodontics
  • Origination:
  • Footnote:
  • Description: <jats:title>Abstract</jats:title><jats:sec> <jats:title>Purpose</jats:title> <jats:p>The aim of this in vitro study was to quantify and compare changes of the enamel surface caused by periodical use of different air-polishing powders during multibracket therapy.</jats:p> </jats:sec><jats:sec> <jats:title>Methods</jats:title> <jats:p>Bovine high-gloss polished enamel specimens were air-polished using an AIR-FLOW® Master Piezon with maximum powder and water settings. Each specimen was blasted with sodium bicarbonate (AIR-FLOW® Powder Classic, Electro Medical Systems, Munich, Germany) and erythritol (AIR-FLOW® Powder Plus, Electro Medical Systems). Blasting duration was adapted to the powders’ cleaning efficacy and corresponded to 25 air-polishing treatments in a patient with braces. A spindle apparatus ensured uniform guidance at a distance of 4 mm and a 90° angle. Qualitative and quantitative assessments were performed with the use of low vacuum scanning electron microscopy. Following external filtering and image processing, arithmetical square height (S<jats:sub>a</jats:sub>) and root mean square height (S<jats:sub>q</jats:sub>) were determined.</jats:p> </jats:sec><jats:sec> <jats:title>Results</jats:title> <jats:p>Both prophy powders caused a significant increase in enamel roughness. Surfaces blasted with sodium bicarbonate (S<jats:sub>a</jats:sub> = 64.35 ± 36.65 nm; S<jats:sub>q</jats:sub> = 80.14 ± 44.80 nm) showed significantly (<jats:italic>p</jats:italic> &lt; 0.001) higher roughness than samples treated with erythritol (S<jats:sub>a</jats:sub> = 24.40 ± 7.42 nm; S<jats:sub>q</jats:sub> = 30.86 ± 9.30 nm). The observed defects in enamel structure caused by sodium bicarbonate extended across prism boundaries. Prism structure remained intact after air-polishing with erythritol.</jats:p> </jats:sec><jats:sec> <jats:title>Conclusion</jats:title> <jats:p>Both applied air-polishing powders led to surface alterations. Despite shorter treatment times, sodium bicarbonate was significantly more abrasive than erythritol. Clinicians must compromise between saving time and abrasively removing healthy enamel.</jats:p> </jats:sec>