Introduction: The longevity of stainless steel crowns is related to perfect adaptation and long-term union between restoration and teeth. In this respect, evaluation of marginal leakage of luting cement is essential.
Aim And Objective: To compare and evaluate the ability of new adhesive cement to prevent microleakage under stainless steel crowns on primary teeth.
Materials And Methods: Forty-five specimens were embedded, standardized preparations were made onto selected extracted primary molars, and stainless steel crowns were adapted. Samples were assigned randomly to cement groups: Glass ionomer (GI), resin-modified glass-ionomer (RMGI), and Adhesive resin (AR) cement, followed by storage in water, artificially aging, staining, sectioning, and the linear dye penetration and proportion of microleakage evaluation.
Results: AR showed the lowest microleakage, followed in increasing order by RMGIC and GIC showed the greatest microleakage ( < 0.0001).
Clinical Significance: There are many kinds of luting agents that vary considerably from the viewpoint of solubility, strength, and ability to adhere to the tooth structure. Lack of adhesion of the luting cement to the tooth structure is one of the reasons for microleakage related to different types of crowns. Cement breakdown may result in the entrance of fluids and microorganisms along with the tooth restoration interface. In this study, attempts were made to simulate standard clinical procedures, although this is not a substitute for the complex oral environment, the results provide useful information to choosing the best cement materials.
Conclusion: Adhesive resin cement can be recommended for cementation of Stainless Steel Crowns because of added advantages over others.
How To Cite This Article: Gundewar MS, Saha S, Arora D, Comparative Microleakage Evaluation through the Interfaces between the Tooth and Cement after Stainless Steel Crown Cementation in Primary Molars: An Study. Int J Clin Pediatr Dent 2022;15(2):159-163.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10338948 | PMC |
| http://dx.doi.org/10.5005/jp-journals-10005-2359 | DOI Listing |
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