Effects of acidic primer/adhesives on primary and permanent dentin.

PURPOSE: To evaluate the quality of primary and permanent dentin by Fourier transformed Raman spectroscopy (FT-Raman), and scanning electron microscopy/energy-dispersive spectroscopy (SEM/EDS). METHODS: The middle dentin of crowns was reached by carbide bur abrading providing a uniform smear layer. Self-etching primers were applied in order to simulate the etching of self-etching adhesive systems. The groups were (n = 6): G1 (primary dentin smear layer); G2 (primary dentin etched by primer of Clearfil Protect Bond); G3 (primary dentin etched by Adper Prompt); G4 (permanent dentin smear layer); G5 (permanent dentin etched by primer of Clearfil Protect Bond); G6 (permanent dentin etched by Adper Prompt). SEM/EDS were made in order to obtain additional elemental data to complement FT-Raman. FT-Raman data were submitted to cluster analysis. RESULTS: Overall, FT-Raman showed differences between primary and permanent dentin concerning organic content, but not for inorganic content. FT-Raman showed differences in the organic content between primary and permanent dentin after self-etching primer use. HEMA usage caused molecular changes in the organic content, while phosphoric acidic ester caused molecular changes in the inorganic content of primary and permanent dentin. The SEM/EDS identified C, O, P, and Ca, which could not replace ions to change mineral molecular arrangement. Both organic and mineral content arrangements were similar after self-etching primers action. The organic content of dentin was modified by both Clearfil PB primer and Adper Prompt for primary dentin but only by Clearfil PB for permanent dentin. The inorganic content of primary middle dentin was similar to the inorganic content of permanent middle dentin, even when Adper Prompt is used.

NaOCl effects on primary and permanent pulp chamber dentin.

OBJECTIVES: The dentin quality of primary and permanent pulp chamber was inspected by Fourier-transformed Raman spectroscopy (FT-Raman) and scanning electron microscopy (SEM). Fragments of pulp chamber dentin were obtained from 20 human molar crowns (primary and permanent). METHODS: The fragments were assigned to 8 groups (n=5)-Primary teeth: G1, pulp chamber dentin; G2, pulp chamber dentin irrigated with NaOCl 1% (30 min); G3, pulp chamber dentin irrigated with NaOCl 1% (30 min) and etched by 35% phosphoric acid; G4, pulp chamber dentin etched by 35% phosphoric acid. Permanent teeth: G5, pulp chamber dentin; G6, pulp chamber dentin irrigated with NaOCl 1% (30 min); G7, pulp chamber dentin irrigated with NaOCl 1% (30 min) and etched by 35% phosphoric acid; G8, pulp chamber dentin etched by 35% phosphoric acid. The spectra were subjected to the Cluster analysis. The SEM images were scored. RESULTS: Inorganic content: There was a difference between primary and permanent dentin. The groups treated with NaOCl were statistically similar between them, but differed from the groups not treated. Organic content: There was no difference between primary and permanent dentin. The groups became similar after NaOCl and phosphoric acid treatments. The microscopic images showed the presence of calcospherites on permanent dentin and their absence on primary dentin. CONCLUSIONS: The NaOCl changed the inorganic content in both dentitions; regardless of the following phosphoric acid etching. However, the chemical changes caused by NaOCl were not detected by SEM when it was followed by etching.