Scientific Reports (Jan 2023)

Improved mineralization of dental enamel by electrokinetic delivery of F− and Ca2+ ions

  • NamBeng Tay,
  • HiongYap Gan,
  • Frederico Barbosa de Sousa,
  • Lu Shen,
  • Diego Figueiredo Nóbrega,
  • Chenhui Peng,
  • LaTonya Kilpatrick-Liverman,
  • Wei Wang,
  • Stacey Lavender,
  • Shira Pilch,
  • Jongyoon Han

DOI
https://doi.org/10.1038/s41598-022-26423-4
Journal volume & issue
Vol. 13, no. 1
pp. 1 – 8

Abstract

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Abstract This in vitro study evaluated the effects of the infiltration of F- and Ca2+ ions into human enamel by electrokinetic flow (EKF) on the enamel microhardness and F- content. Sound human enamel ground sections of unerupted third molars were infiltrated with de-ionized water by EKF and with F- ion by EKF respectively. All samples were submitted to two successive transverse acid-etch biopsies (etching times of 30 s and 20 min) to quantify F- ion infiltrated deep into enamel. Remarkably, sound enamel showed a large increase in microhardness (MH) after infiltration of NaF (p < 0.00001) and CaCl2 (p = 0.013) by EKF. Additionally, NaF-EKF increased the remineralization in the lesion body of artificial enamel caries lesions compared to controls (p < 0.01). With the enamel biopsy technique, at both etching times, more F- ions were found in the EKF-treated group than the control group (p << 0.05), and more fluoride was extracted from deeper biopsies in the NaF-EKF group. In conclusion, our results show that EKF treatment is superior in transporting Ca2+ and F− ions into sound enamel when compared to molecular diffusion, enhancing both the mineralization of sound enamel and the remineralization of artificial enamel caries.