Erosion protection of low-concentration fluoride on human tooth enamel: results from surface morphology and nanomechanical and anti-wear properties

Abstract

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Dental erosion results in excessive tooth wear. The contribution of low-concentration fluoride used daily in the prevention and treatment of erosion has not been fully understood. In this study, the effects of fluoride (225 ppm F^−) on the surface morphology and nano-mechanical and anti-wear properties of human tooth enamel were investigated to explore whether low-concentration NaF solution could help protect tooth enamel from erosion. In total, 40 enamel samples were divided into 5 groups, viz. group O: original surface with no treatment, group F: fluoride treatment (NaF, 225 ppm F^−, pH 6.3), group E: erosion treatment (0.001 M citric acid, pH 3.2, 3 min), group EF: erosion treatment and then fluorination and group FE: fluoride treatment and then erosion. The mechanical and anti-wear properties of enamel samples were examined using a nano-indentation/scratch technique. Both surface morphology and scratch morphology of enamel samples were observed with scanning electron microscopy. The results showed that, from the perspectives of surface morphology and anti-wear properties, fluorination with low-concentration fluoride (225 ppm F^−) before erosion has a certain potential for protection against dental erosion. Fluoride treatment after erosion has no obvious impact on the remineralisation of eroded enamel.

Keywords

• dentistry
• enamels
• surface morphology
• biomechanics
• sodium compounds
• ph
• wear
• scanning electron microscopy
• nanoindentation
• erosion protection
• human tooth enamel
• surface morphology
• dental erosion
• tooth wear
• low-concentration naf solution
• original surface
• fluoride treatment
• erosion treatment
• scratch morphology
• nanomechanical properties
• antiwear properties
• fluorination
• nanoindentation
• scratch technique
• scanning electron microscopy
• remineralisation
• time 3.0 min
• naf