A M A Khader scite author profile

A M A Khader

2Publications

3Citation Statements Received

8Citation Statements Given

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Fluoride Release from Glass Ionomer Cements: Effect of Temperature, Time Interval and Storage Condition

Madhtastha¹,

Kotian²,

Pai³

et al. 2013

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Objectives Fluoride plays a pivotal role in oral health promotion and is the corner stone in the prevention of dental caries. The purpose of this study was to evaluate the effects of temperature, time interval and storage conditions on fluoride release by three commercial glass ionomer cements (GIC). Materials and Methods Three commercial glass ionomers: GC Gold Label Universal Restorative (conventional), GC Gold Label Light-Cured Universal Restorative and GC Fuji VII (GC Corporation, Tokyo, Japan) were used to investigate fluoride release. The 6 × 2 mm disk-shaped specimens prepared from each material were immersed in distilled water or artificial saliva at temperatures 4°C, 37°C or 55°C. The amount of fluoride release from these specimens was studied for the period of 1, 7, 14 and 28 days with the help of fluoride selective ion electrode. Results The amount of fluoride release was significantly (p < 0.001) high in distilled water when compared to artificial saliva in all the three types of GIC studied. The highest level of fluoride release was observed on the first day of the study, followed by days 7 and 14, with least release on days 28. It was also observed that at 55°C, the amount of fluoride release was significantly (p < 0.001) high in all three GIC. However, there was no significant difference among the three GIC studied. Conclusion The amount of fluoride release depends on temperature, time interval and storage condition. The result from the study concludes that GIC in the oral cavity serve as fluoride reservoir and contribute a low fluoride release in oral fluids. Clinical significance The clinical use of GIC that release fluoride is relevant mainly in patients at risk of or with caries activity, thereby preventing initiation of secondary caries and failure of restorations. It may also be important in developing regimes for improving the delivery of tropical fluoride products. This study would be helpful to make some considerations about clinical indication and longevity of restorative materials studied. How to cite this article Madhyastha P, Kotian R, Pai V, Khader AMA. Fluoride Release from Glass Ionomer Cements: Effect of Temperature, Time Interval and Storage Condition. J Contemp Dent 2013;3(2):68-73.

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Synthesis and Study of 3-Methyl-N-[Arylylmethylene]-1h-Indazol-5-Amines From 2-Hydroxy-4-Amino Acetophenone and Their Anti-Microbial Activity

Sujatha¹,

Rao²,

Khader³

et al. 2020

Int. Res. J. Pharm.

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Indazole is one of the most important scaffolds in heterocyclic chemistry and drug design and discovery. It is rarely found in nature but widely found in diverse pharmacologically active substances. Indazoles are versatile building-block for lead generation, the indazole core is an active pharmacophore and used in medicinal chemistry and drug discovery research. A number of drugs with indazole core are in the market, In the recent years, many indazole derivatives have been synthesized and subjected to varied biological activities. Here indazoles are prepared from 2-hydroxy-4-amino acetophenone, the free amino group is preprotected and reacted with hydrazine hydrate at elevated temperature thus obtained indazoles are deprotected and hydrazone derivatives were prepared, the newly synthesized indazole derivatives were screened for antibacterial and antifungal activity.

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A M A Khader

Fluoride Release from Glass Ionomer Cements: Effect of Temperature, Time Interval and Storage Condition

Synthesis and Study of 3-Methyl-N-[Arylylmethylene]-1h-Indazol-5-Amines From 2-Hydroxy-4-Amino Acetophenone and Their Anti-Microbial Activity

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