Original Article

Volume: 36 | Issue: 2 | Published: Jun 30, 2020 | Pages: 146 - 152 | DOI: 10.24911/BioMedica/5-128

Comparative Evaluation of Microleakage of Amalgam, High Viscosity and Resin-Modified Glass Ionomers as Restorative Materials in Primary Molars


Authors: Md Asdaq Hussain , Shazia Naz , Shahida Rae , Sohail Abbas Khan


Article Info

Authors

Md Asdaq Hussain

Lecturer Department of Conservative Dentistry & Endodontics Kathmandu University School of Medical Sciences, Nepal.

Shazia Naz

Assistant Professor of Operative Dentistry de, Montmorency College of Dentistry, Lahore – Pakistan.

Shahida Rae

Dental surgeon Govt. Said Mitha Teaching Hospital, Lahore – Pakistan.

Sohail Abbas Khan

Professor and Head of Operative Department, Avicenna College of Dentistry, Lahore – Pakistan.

Publication History

Received: February 24, 2020

Revised: May 19, 2020

Accepted: June 11, 2020

Published: June 30, 2020


Abstract


Background and Objective: One of the major requisites of an ideal restorative material is excellent marginal seal. Microleakage has been identified as a significant clinical problem with filling materials. The objective of the study was to evaluate and compare the degree of microleakage of amalgam, high viscosity glass ionomer and resin-modified glass ionomer in primary molars.
Methods: A total of 99 human non-carious primary molars that were liable to exfoliate within the next six months were selected. Standardized Class I cavities were prepared on occlusal surfaces of molars and randomly filled with either Amalgam (Aristaloy 21), High Viscosity Glass Ionomer (Ketac Molar) or ResinModified Glass Ionomer (GC Fuji II LC). The teeth were divided into nine groups (n=11 each) on the basis of filling material used and time of restored tooth extraction viz. one week, six weeks and twelve weeks. After immersion in a 2% methylene blue dye solution for 24 hours, the teeth were sectioned buccolingually in an occluso-apical direction through the middle of the restoration. The specimens were then examined under 
stereomicroscope at 30X magnification. Statistical analyses were performed with ANOVA and Tukey’s test 
at 5% level of significance.
Results: Amalgam restorations had significantly less microleakage as compared to the high-viscosity glass ionomer and resin-modified glass ionomer restorations. High-viscosity glass ionomer restorations were superior in resisting microleakage than resin-modified glass ionomers. The restorative materials used can be arranged in their sealing ability from least to severe microleakage as: Amalgam <High-viscosity glass ionomer <Resin-modified glass ionomer.
Conclusion: Amalgam restorations showed less microleakage as compared to high-viscosity and resinmodified glass ionomer restorations. Amalgam may preferably be used as a restorative material of choice 
for primary molars.


Keywords: Microleakage, Amalgam, Resin-modified glass ionomer, High-viscosity glass ionomer.