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Background and Aim: One of the major purposes of pediatric dentistry is to maintain deciduous teeth in anatomical and functional conditions up to their physiological exfoliation and eruption of permanent teeth. Whenever pulp gets involved or exposed to mouth area and microorganisms penetrate into pulp, deciduous teeth needs pulp therapy. In the sterile environment, the exposed pulp tissue is able to repair itself and also to create a dentin bridge, but in the presence of bacteria, development of disease and ultimately death of the pulp will be inevitable. The ideal pulpotomy cement should have good physical and biological properties such as sealing of the remaining pulp tissue, being biocompatible and possessing antibacterial activity. The aim of this study was to compare the antibacterial effect of some usual materials used for pulpotomy in deciduous teeth.  
Materials and Methods: In this study, we evaluated the antibacterial activity of materials used in deciduous teeth pulpotomy including Zoliran, Sina Zonalin, Kemdent Zonalin, MTA (OrthoMTA) and CEM Cement against Streptococcus mutans and Lactobacillus acidophilus. Well diffusion test and disk diffusion test and time kill curve were used for antibacterial activity assay. Also, we evaluated stability of antibacterial activity of the materials. The antibacterial activity in disk diffusion and well diffusion test was measured based on the diameter of the zone of inhibition, whereas in time kill curve the optical density of the bacterial suspension was measured. We used analysis of variance (ANOVA) and Tukey’s test at the significance level of 5% .
Results: In well diffussion and disk diffussion tests all of the materials except CEM Cement showed antibacterial activity against Streptococcus mutans and Lactobacillus acidophilus. The largest and smallest zones of inhibition belonged to zoliran and MTA respectively. The results of time kill curve revealed a similar pattern, so that during the experiment period Zoliran, Sina Zonalin, Kemdent Zonalin, MTA and CEM Cement showed the greatest effects in both groups of bacteria respectively.
Conclusion: Reinforced ZOE groups had the greatest effect in inhibition of growth of S.mutans and L.acidophilus compared to MTA and CEM Cement. Thus, use of Zoliran, Sina and Kemdent Zonalin cements in pulpotomy of deciduous teeth can be useful in controlling bacterial growth and achieving success in pulpotomy.

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Background and Aim: Glass ionomer cements (GICs) are the most common restorative material in pediatric dentistry. GlCs have the ability to chemically bond to enamel and dentine and can release fluoride. In clinical situations, microleakage is a major challenge when using glass ionomer cement. Therefore, this study was designed to compare the microleakage of two types of glass ionomer in primary teeth restorations.
Materials and Methods: This experimental study included 80 maxillary anterior deciduous teeth. Class V cavities measuring 1.5 × 2 × 3 mm were prepared on the teeth. The specimens were randomly divided into two groups as follows: 1) Fuji II LC, 2) Equia Forte. The teeth were subjected to 500 thermocycles between 5 °C and 55°C by immersion in hot and cold water for 25 seconds. The samples were immersed in the fuchsia solution for 24 hours to test dye penetration. Then, the center of the restorations was cut buccolingually and the amount of microleakage was evaluated and scored under a stereomicroscope. Data were analyzed by chi-square test.
Results: Based on the results of this study Fuji II LC GIC showed higher microleakage scores than Equia Forte GIC and a statistically significant difference was observed between the groups. (P <0.05)
Conclusion: Equia Forte GIC may be a useful restorative material in the primary teeth restoration for young children due to the low microleakage score and the relatively quick placement.