Objective. The present study investigated the ability of a chlorhexidine (CHX)-containing primer (0.2% aqueous solution) to inhibit dentinal enzymes, preserve the hybrid layer (HL) and remain within the HL, after 10 years of aging in artificial saliva at 37 degrees C.Methods. Non-carious extracted molars were assigned to two groups, cut into slabs exposing middle/deep dentin, etched and bonded with Adper Scotchbond 1XT (SB1XT) with or without 0.2% CHX aqueous solution pretreatment. Composite build-ups were made, and the specimens were cut in 1-mm thick bonded sticks. In situ zymography was performed on freshly prepared specimens (T-0) and specimens aged for 10 years (T10-yr) at 37 degrees C in artificial saliva, to investigate endogenous gelatinolytic activity within the HL. At T-10-(yr), specimens were also decalcified and embedded in epoxy resin for TEM analysis. Micro-Raman spectroscopy was performed at T-0 and T-10-(yr) to evaluate the chemical profiles in intertubular dentin and the HL.Results. In situ zymography showed less pronounced enzymatic activity in the CHX-pretreated group (p <0.05) regardless of aging, maintaining a similar level of fluorescence at T-0 and T10-yr (p > 0.05). TEM results showed that 98% of the HL had been degraded in the control group, while 95% of the HL was intact in the experimental group. Moreover, all the Raman spectra peaks assigned to CHX could be identified only in the CHX-pretreated group (T-0 and T10-yr).Significance. In vitro, CHX remains in the HL after 10 years with its inhibitory effect preserved. This may be the underlying factor for HL preservation after this long aging period.
Chlorhexidine preserves the hybrid layer in vitro after 10-years aging
Cadenaro, Milena;
2020-01-01
Abstract
Objective. The present study investigated the ability of a chlorhexidine (CHX)-containing primer (0.2% aqueous solution) to inhibit dentinal enzymes, preserve the hybrid layer (HL) and remain within the HL, after 10 years of aging in artificial saliva at 37 degrees C.Methods. Non-carious extracted molars were assigned to two groups, cut into slabs exposing middle/deep dentin, etched and bonded with Adper Scotchbond 1XT (SB1XT) with or without 0.2% CHX aqueous solution pretreatment. Composite build-ups were made, and the specimens were cut in 1-mm thick bonded sticks. In situ zymography was performed on freshly prepared specimens (T-0) and specimens aged for 10 years (T10-yr) at 37 degrees C in artificial saliva, to investigate endogenous gelatinolytic activity within the HL. At T-10-(yr), specimens were also decalcified and embedded in epoxy resin for TEM analysis. Micro-Raman spectroscopy was performed at T-0 and T-10-(yr) to evaluate the chemical profiles in intertubular dentin and the HL.Results. In situ zymography showed less pronounced enzymatic activity in the CHX-pretreated group (p <0.05) regardless of aging, maintaining a similar level of fluorescence at T-0 and T10-yr (p > 0.05). TEM results showed that 98% of the HL had been degraded in the control group, while 95% of the HL was intact in the experimental group. Moreover, all the Raman spectra peaks assigned to CHX could be identified only in the CHX-pretreated group (T-0 and T10-yr).Significance. In vitro, CHX remains in the HL after 10 years with its inhibitory effect preserved. This may be the underlying factor for HL preservation after this long aging period.File | Dimensione | Formato | |
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Breschi CHX DEMA 2020.pdf
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