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Evaluation of flexural strength of polymethyl methacrylate modified with silver colloidal nanoparticles subjected to two different curing cycles: An in vitro study LM Ranganath, Ajay Gaikwad, Saket K Jain, Kapil S Pal Journal of Contemporary Dental Practice, 2018 Aim Silver colloidal nanoparticles have been incorporated into acrylic resins to induce antimicrobial properties. However, as additives, they can influence the mechanical properties of the final product. Mechanical properties are also dependent on different curing cycles. The aim of this study was to evaluate flexural strength of a denture base resin incorporated with different concentrations of silver colloidal nanoparticles subjected to two different curing cycles. Materials and methods Lucitone 199 denture base resin was used into which silver colloidal nanoparticles were incorporated at 0.5 and 5% by polymer mass. Specimens devoid of nanoparticles were used as controls. A total of 60 specimens were fabricated and divided into two groups. Each group was divided into three subgroups consisting of 10 specimens each. The specimens were fabricated according to American Dental Association (ADA) specification No. 12 and tested for flexural strength using universal testing machine. Results Silver colloidal nanoparticle incorporation at 0.5% concentration increased the mean flexural strength in both curing cycles by 7.5 and 4.4%, respectively, when compared with the control group. Conclusion The study suggested that the mean flexural strength value of 0.5% silver colloidal nanoparticles in denture base resin was above the value of the control group both in short and long curing cycles, which makes it clinically suitable as a denture base material. However, at 5% concentration, the statistically significant amount of decrease in flexural strength compared with the value of control group both in short and long curing cycles gives it a questionable prognosis. Clinical significance The specimens incorporated with the antimicrobial agent 0.5% silver colloidal nanoparticles and processed by long curing cycles showed significant increase in its flexural strength compared with the control group, which makes it clinically suitable as a denture base material. How to cite this article Munikamaiah RL, Jain SK, Pal KS, Gaikwad A. Evaluation of Flexural Strength of Polymethyl Methacrylate modified with Silver Colloidal Nanoparticles subjected to Two Different Curing Cycles: An in vitro Study. J Contemp Dent Pract 2018;19(3):262-268.
Aesthetic management of malpositioned implant following extraction of endodontically failed tooth: A case report Indian Journal of Public Health Research and Development, 2012
Relating the marginal fit of the castings to the accuracy of the impressions made from laminated hydrocolloid impression technique: A comparative study Manish Sinha, Bhavana Thakur, Ajay Gaikwad, Lalitkumar Dnyandeo Chaudhari, Adwait Kulkarni, Harshal Kulkarni Journal of Contemporary Dental Practice, 2012 Aim Relating the marginal fit of the castings, to the accuracy of the impression produced using laminated hydrocolloid impression technique, alginate and double-mixed polyvinyl siloxane. Basic objective of the study is to check the feasibility of the use of laminated hydrocolloid impression technique in the fixed partial denture. Materials and methods The precisely machined metal die was designed to simulate standard complete metal crown preparation. The preparation was mounted on cylindrical base of 20 mm length and diameter of 10 mm. Seven impressions were made from the each impression material onto the metal die, and total 21 impressions were obtained from all three impression materials, which were poured by the die stone, and stone die was prepared. Wax patterns were fabricated on stone dies obtained from each impression and then casting was done. All the castings were checked for the marginal fit on metal die after applying a uniform standardized load of 30 pounds using measuring microscope. Results Result revealed that the marginal fit of the castings obtained from group II (laminated hydrocolloid technique) and group III (double-mix polyvinyl polysiloxane) did not show the significant difference between the two of them. Marginal gap of the castings obtained from group I are significantly greater in comparison to the castings obtained from groups II and III (p < 0.01). Conclusion Group II (laminated hydrocolloid technique) impression material may be the choice of many clinicians over group III (double-mix polyvinyl polysiloxane) impression material. Group I (alginate impression material), though very cost-effective and easy to handle may not able to produce accurate results. Clinical significance The study gives overview of the best impression material that can be used clinically. Laminated hydrocolloid technique is the technique of choice. How to cite this article Sinha M, Thakur B, Gaikwad A, Chaudhari LD, Kulkarni A, Kulkarni H. Relating the Marginal Fit of the Castings to the Accuracy of the Impressions made from Laminated Hydrocolloid Impression Technique: A Comparative Study. J Contemp Dent Pract 2012;13(2):167-172.
