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J Dent Res Dent Clin Dent Prospects. 2024;18(3): 165-171.
doi: 10.34172/joddd.41084
PMID: 39386121
PMCID: PMC11459085
Scopus ID: 85204950423
  Abstract View: 230
  PDF Download: 149

Basic Research

Original Article

In vitro evaluation of some mechanical properties and fluoride release of glass-ionomer cement modified with seashell nanoparticles

Ahmed S. Albasso 1* ORCID logo, Reem R. Ali 1, Abeer A. Yahya 2

1 Department of Pedodontics, Orthodontics and Preventive Dentistry, College of Dentistry, University of Mosul, Mosul, Iraq
2 College of Dentistry, Ibn Sina University For Medical and Pharmaceutical Sciences, Baghdad, Iraq
*Corresponding Author: Ahmed S. Albasso, Email: ahmedalbaso@uomosul.edu.iq

Abstract

Background. This research assessed the compressive strength and microhardness of glass-ionomer cement (GIC) after incorporating seashell nanoparticles and evaluated the inert fluoride-releasing ability.

Methods. Seashell nanoparticles were synthesized by a mechanical grinding protocol. These particles were characterized by transmission electron microscopy and energy dispersive x-ray and added to the glass-ionomer powder in a weight-to-weight ratio. Seventy-five study samples were distributed into eight samples for each study group (control, 5%, and 10% seashell) to have 24 samples for each test of the study (compressive strength, microhardness, and fluoride release). One sample per group was prepared for the Fourier transform infrared spectroscopy (FTIR) test. The fluoride ion release was measured after one and four weeks of incubation period at 37 ºC, while other tests were conducted after 24 hours of incubation.

Results. In all the test variables, the 10% seashell group showed the highest significant mean, followed by the 5% seashell and the control group. However, there was no significant difference between the 5% and 10% seashell groups in the first week of fluoride release.

Conclusion. According to the results, 10% seashell nanoparticles were the best to improve the mechanical properties of GIC and boost the fluoride-releasing potential.

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Submitted: 17 Feb 2024
Accepted: 25 Jun 2024
ePublished: 07 Sep 2024
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