Color Stainability of Graphene-Reinforced PMMA Compared to CAD/CAM PMMA in Different pH Media
Beleidy, M., Ziada, A. (2025). Color Stainability of Graphene-Reinforced PMMA Compared to CAD/CAM PMMA in Different pH Media. EKB Journal Management System, 71(1), 655-667. doi: 10.21608/edj.2024.333061.3252
Marwa Beleidy; Ahmed Ziada. "Color Stainability of Graphene-Reinforced PMMA Compared to CAD/CAM PMMA in Different pH Media". EKB Journal Management System, 71, 1, 2025, 655-667. doi: 10.21608/edj.2024.333061.3252
Beleidy, M., Ziada, A. (2025). 'Color Stainability of Graphene-Reinforced PMMA Compared to CAD/CAM PMMA in Different pH Media', EKB Journal Management System, 71(1), pp. 655-667. doi: 10.21608/edj.2024.333061.3252
Beleidy, M., Ziada, A. Color Stainability of Graphene-Reinforced PMMA Compared to CAD/CAM PMMA in Different pH Media. EKB Journal Management System, 2025; 71(1): 655-667. doi: 10.21608/edj.2024.333061.3252

Color Stainability of Graphene-Reinforced PMMA Compared to CAD/CAM PMMA in Different pH Media

Egyptian Dental Journal
Volume 71, Issue 1 - Serial Number 4, January 2025, Page 655-667  XML PDF (1.15 MB)
Document Type: Original Article
DOI: 10.21608/edj.2024.333061.3252
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Authors
Marwa Beleidy email orcid 1; Ahmed Ziadaorcid 2
1Associate Professor, Department of Fixed Prosthodontics, Faculty of Dentistry, October 6th University, Giza, Egypt
2Associate Professor, Department of Fixed Prosthodontics, Faculty of Dentistry, Benisuef University, Benisuef, Egypt
Abstract
Statement of problem: CAD/CAM PMMA needs to improve its color stability as used for long-term provisional restoration.
Purpose: To evaluate the nanographene-reinforced PMMA surface roughness after thermocycling and color stainability after immersion in coffee and ginger (two different pH media) to frequently used pre-polymerized PMMA.
Methods: Sixty CAD/CAM interim materials discs were divided into two groups (n=30): PMMA (P) and graphene-reinforced PMMA (G). All specimens were polished according to the manufacturer's instructions, followed by artificial accelerated aging. Surface roughness (Ra) was analyzed using a non-contact profilometer. Then, both tested groups were immersed in 3 different pH media (coffee, ginger, and distilled water) (n=10) for 3 and 7 days. The color difference (ΔE) was assessed. All data were statistically analyzed.
Results: Thermocycling did not significantly change mean Ra (P-value=0.172, Effect size=0.150) between tested materials. After 3 days of coffee or ginger immersion, group (P) showed a significant decrease in mean ΔE compared to group (G). The two materials were not statistically different after distilled water immersion. After 7 days of coffee immersion, group (P) showed a significant rise in mean ΔE compared to group (G). After ginger immersion, the two materials did not differ significantly. After distilled water immersion, group (P) showed a significant reduction in mean ΔE compared to group (G). However, both materials showed unacceptable color change clinically (ΔE3.3).
Conclusion: Nanographene-reinforced PMMA had no significant improvement regarding surface roughness after thermocycling and color stainability after immersion in different pH media compared with frequently used CAD/CAM PMMA.
Keywords
Nanographene; CAD/CAM PMMA; graphene-reinforced PMMA; color stainability; and surface roughness
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