Assessment of Enamel Demineralization Resistance and Shear Peel Bond Strength of Protein Repellent Orthodontic Glass Ionomer Cement
Maaly, T., Shamaa, M., Darweesh, F., Tawfik, M. (2024). Assessment of Enamel Demineralization Resistance and Shear Peel Bond Strength of Protein Repellent Orthodontic Glass Ionomer Cement. EKB Journal Management System, 70(4), 2997-3007. doi: 10.21608/edj.2024.293157.3058
Tayseer Maaly; Marwa Shamaa; Fawzy A. Darweesh; Marwa A Tawfik. "Assessment of Enamel Demineralization Resistance and Shear Peel Bond Strength of Protein Repellent Orthodontic Glass Ionomer Cement". EKB Journal Management System, 70, 4, 2024, 2997-3007. doi: 10.21608/edj.2024.293157.3058
Maaly, T., Shamaa, M., Darweesh, F., Tawfik, M. (2024). 'Assessment of Enamel Demineralization Resistance and Shear Peel Bond Strength of Protein Repellent Orthodontic Glass Ionomer Cement', EKB Journal Management System, 70(4), pp. 2997-3007. doi: 10.21608/edj.2024.293157.3058
Maaly, T., Shamaa, M., Darweesh, F., Tawfik, M. Assessment of Enamel Demineralization Resistance and Shear Peel Bond Strength of Protein Repellent Orthodontic Glass Ionomer Cement. EKB Journal Management System, 2024; 70(4): 2997-3007. doi: 10.21608/edj.2024.293157.3058

Assessment of Enamel Demineralization Resistance and Shear Peel Bond Strength of Protein Repellent Orthodontic Glass Ionomer Cement

Egyptian Dental Journal
Volume 70, Issue 4 - Serial Number 1, October 2024, Page 2997-3007  XML PDF (3.12 MB)
Document Type: Original Article
DOI: 10.21608/edj.2024.293157.3058
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Authors
Tayseer Maaly email orcid 1; Marwa Shamaaorcid 2; Fawzy A. Darweeshorcid 3; Marwa A Tawfikorcid 2
1Associate Professor, Dental Biomaterials Department, Faculty of Dentistry, Zagazig University
2Associate Professor, Orthodontic Department, Faculty of Dentistry, Mansoura University. Egypt
3Associate Professor, Oral Biology Dep. Faculty of Oral and Dental Medicine, Zagazig University
Abstract
Objective: The purpose of this work was to create a novel orthodontic glass ionomer cement (GIC) modified with a protein repellent substance to resist enamel demineralization without compromising the bond strength.
Materials and Methods. 2-Methacryloyloxyethyl phosphorylcholine (MPC) was incorporated into the GIC at 0,1.5, 3, 5 wt. Teeth were bonded to stainless steel bands then immersed in demineralizing media. Bands were removed then teeth were sectioned. Surface morphology, Ca and P wt% were evaluated utilizing the scanning electron microscopy combined with energy dispersive X-ray spectroscopy. Shear peel bond strength (SPBS) assessed using a universal testing machine. The adhesive remnant index (ARI) was employed. The data were statistically analyzed by one-way ANOVA. Chi square test was used to compare between groups for ARI.
Results: Ca and P wt% was significantly increased with increasing MPC ratio. Pores and cracks on enamel surface were significantly decreased with 1.5, 3 wt % MPC, 5 wt% MPC showed glossy enamel surface with absence of cracks and porosity. SPBS of 1.5, 3 wt % MPC powder showed non-significant change compared to the control group, while there was significant decrease for 5 wt% MPC modified GIC.
Conclusions: Adding 3 wt% MPC into GIC used for cementation of orthodontic band is efficient for the resistance of enamel demineralization without any significant influence on the shear peel bond strength.
Keywords
Enamel demineralization; Shear-peel band strength; Protein repellent; Orthodontic cement
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