Tissue dissolution and modifications in dentin composition by different sodium hypochlorite concentrations

Abstract: Sodium hypochlorite (NaOCl) remains the most used irrigation solution during root canal preparation because of characteristics such as wide-spectrum antimicrobial activity and organic tissue dissolution capacity. However, these solutions can alter dentin composition and there is no consensus on the optimal concentration of NaOCl to be used. Objectives To determine the organic matter dissolution and changes in dentin chemical composition promoted by different concentrations of NaOCl over time. Material and Meth… Show more

“…Craig et al and Rautiola and Craig observed that the microhardness of dentin tends to increase as it distances from the dental pulp . Thus, knowing that the microhardness is related to the inorganic matrix, we can assume that the lower proportion of inorganic content in the intracanal region causes an imbalance in the ionic exchanges that occur between phosphate and carbonate, making the dentin more soluble and susceptible to the loss of ions to the artificial saliva . The lower concentration of carbonate favors the development of caries lesions .…”

“…Thus, knowing that the microhardness is related to the inorganic matrix, we can assume that the lower proportion of inorganic content in the intracanal region causes an imbalance in the ionic exchanges that occur between phosphate and carbonate, making the dentin more soluble and susceptible to the loss of ions to the artificial saliva . The lower concentration of carbonate favors the development of caries lesions . This imbalance is related to the lower degree of mineralization and higher density of tubules in the intracanal root dentin region, which also justifies the nonalteration of carbonate in the middle root dentin region.…”

Effect of radiotherapy on the chemical composition of root dentin

“…Craig et al and Rautiola and Craig observed that the microhardness of dentin tends to increase as it distances from the dental pulp . Thus, knowing that the microhardness is related to the inorganic matrix, we can assume that the lower proportion of inorganic content in the intracanal region causes an imbalance in the ionic exchanges that occur between phosphate and carbonate, making the dentin more soluble and susceptible to the loss of ions to the artificial saliva . The lower concentration of carbonate favors the development of caries lesions .…”

“…Thus, knowing that the microhardness is related to the inorganic matrix, we can assume that the lower proportion of inorganic content in the intracanal region causes an imbalance in the ionic exchanges that occur between phosphate and carbonate, making the dentin more soluble and susceptible to the loss of ions to the artificial saliva . The lower concentration of carbonate favors the development of caries lesions . This imbalance is related to the lower degree of mineralization and higher density of tubules in the intracanal root dentin region, which also justifies the nonalteration of carbonate in the middle root dentin region.…”

Effect of radiotherapy on the chemical composition of root dentin

“…,, Tartari et al . ). By monitoring changes in the IR absorption frequencies following NaOCl exposure, it may be possible to assess the depth of any changes due to root canal irrigation.…”

Proof‐of‐concept study to establish an in situ method to determine the nature and depth of collagen changes in dentine using Fourier Transform Infra‐Red spectroscopy after sodium hypochlorite irrigation

“…The initial infrared absorbance spectrum of the samples was obtained over the range of 4000-400 cm À1 at 1 cm À1 resolution using 32 scans and was recorded using the OMNIC Spectra Software. Thereafter, the samples were distributed into four groups (n = 5) and were subjected to irrigation protocols as previously described (Tartari et al 2016). In the first set of experiments, the samples of one group were dipped individually in microtubes containing 1.5 mL of 2% CHX solution for 30 s and ultrasonicated for 15 s. Subsequently, they received a flush in a microtube with 1.5 mL of distilled water for 1 min of which 15 s were under ultrasonic agitation.…”

Effect of the combination of several irrigants on dentine surface properties, adsorption of chlorhexidine and adhesion of microorganisms to dentine