The experimental cement released calcium and increased the pH of the storage solutions in a similar manner to MTA-Angelus. However, EC showed significantly higher calcium release than commercial MTA-Angelus after 24 h.
Due to the low radiopacity of Sealer 26, iodoform is frequently empirically added to
this sealer. Thus, the interference of this procedure with the physicochemical
properties of Sealer 26 must be evaluated.Objective This study evaluated the influence of the addition of iodoform on setting time,
flow, solubility, pH, and calcium release of an epoxy-based sealer. Material and Methods The control group was pure Sealer 26, and the experimental groups were Sealer 26
added with 1.1 g, 0.55 g or 0.275 g of iodoform. Setting time evaluation was
performed in accordance with the ASTM C266-03 speciflcation. The analysis of flow
and solubility was in accordance with the ISO 6876-2001 speciflcation. For the
evaluation of pH and calcium ion release, polyethylene tubes were filled with the
materials and immersed in flasks with 10 ml of deionized water. After 24 h, 7, 14,
21, 28, and 45 days pH was measured. In 45 days, the calcium released was
evaluated with an atomic absorption spectrophotometer. Results The addition of iodoform increased setting time in comparison with pure sealer
(P<0.05). As for flow, solubility, and calcium release, the mixtures presented
results similar to pure sealer (p>0.05). In the 24 h period, the mixture with
1.1 g and 0.55 g of iodoform showed lower pH than pure sealer and than sealer
added with 0.275 g of iodoform (P<0.05). Conclusions The iodoform added to Sealer 26 interferes with its setting time and solubility
properties. Further studies are needed to address the clinical signiflcance of
this interference.
Thermal diffusivity and conductivity of dental cements have been studied using open photoacoustic cell (OPC). The samples consisted of fast hardening cement named CER, developed to be a root-end filling material. Thermal characterization was performed in samples with different gel/powder ratio and particle sizes and the results were compared to the ones from commercial cements. Complementary measurements of specific heat and mass density were also performed. The results showed that the thermal diffusivity of CER tends to increase smoothly with gel volume and rapidly against particle size. This behavior was linked to the pores size and their distribution in the samples. The OPC method was shown to be a valuable way in deriving thermal properties of porous material.
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