Morphological and chemical analysis of different types of calcium silicate-based cements
Objectives. Particle size and shape can influence the properties of materials. However, to improve the physicochemical and biological properties of mineral trioxide aggregate (MTA), silicate-based hydraulic cements were introduced. This study aimed to evaluate and compare the major constituents and...
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my.um.eprints.438092023-11-24T03:27:57Z http://eprints.um.edu.my/43809/ Morphological and chemical analysis of different types of calcium silicate-based cements Mahmoud, Okba Al-Afifi, Nashwan Abdullah Salihu Farook, Mohideen Ibrahim, Maysara Adnan Al Shehadat, Saaid Alsaegh, Mohammed Amjed RK Dentistry Oral surger Objectives. Particle size and shape can influence the properties of materials. However, to improve the physicochemical and biological properties of mineral trioxide aggregate (MTA), silicate-based hydraulic cements were introduced. This study aimed to evaluate and compare the major constituents and crystalline structures along with the surface morphology of different types of calcium silicate-based cement (CSC). Materials and Methods. Six different types of CSC (white Portland cement, white ProRoot MTA, white MTA Angelus, Biodentine, and Endosequence, both putty and paste) were used in this study. Five samples of each material were analyzed in both uncured and cured cement using scanning electron microscopy/energy-dispersive X-ray (SEM/EDX), X-ray diffraction (XRD), and Fourier transform-infrared spectroscopy (FTIR). Results. SEM analysis showed that the surfaces of all materials consisted of particle sizes ranging from 0.194 μm to approximately 51.82 μm. The basic elements found in both uncured and cured cement of all tested materials using EDX were carbon, calcium, silicon, and oxygen. A difference was observed in the presence or absence of magnesium, aluminum, bismuth, zirconium, and tantalum. XRD showed that all tested materials were composed mainly of tricalcium silicate and dicalcium silicate, which are the main components of Portland cement. FTIR analysis showed aromatic rings, phosphine PH, alkyl halides, and alcohol O-H groups in all tested materials but at different wavenumbers. Conclusions. The different types of CSCs tested in this study were primarily modified types of Portland cement with the addition of radiopacifiers. ProRoot MTA and MTA Angelus contained bismuth oxide, Biodentine contains zirconium oxide, whereas Endosequence root repair materials (both putty and paste) contained zirconium oxide and tantalum oxide. Endosequence root repair materials showed smaller particle sizes than the other groups. White PC had the most irregular and large particle sizes. CSC had a smaller particle size, except for MTA Angelus. Clinical Relevance. The composition of CSC has a direct influence on the properties of these cements, which may affect the clinical outcome of the treatment. © 2022 Okba Mahmoud et al. Hindawi Limited 2022-05-19 Article PeerReviewed Mahmoud, Okba and Al-Afifi, Nashwan Abdullah and Salihu Farook, Mohideen and Ibrahim, Maysara Adnan and Al Shehadat, Saaid and Alsaegh, Mohammed Amjed (2022) Morphological and chemical analysis of different types of calcium silicate-based cements. International Journal of Dentistry, 2022. ISSN 1687-8728, DOI https://doi.org/10.1155/2022/6480047 <https://doi.org/10.1155/2022/6480047>. 10.1155/2022/6480047 |
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RK Dentistry Oral surger Mahmoud, Okba Al-Afifi, Nashwan Abdullah Salihu Farook, Mohideen Ibrahim, Maysara Adnan Al Shehadat, Saaid Alsaegh, Mohammed Amjed Morphological and chemical analysis of different types of calcium silicate-based cements |
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Objectives. Particle size and shape can influence the properties of materials. However, to improve the physicochemical and biological properties of mineral trioxide aggregate (MTA), silicate-based hydraulic cements were introduced. This study aimed to evaluate and compare the major constituents and crystalline structures along with the surface morphology of different types of calcium silicate-based cement (CSC). Materials and Methods. Six different types of CSC (white Portland cement, white ProRoot MTA, white MTA Angelus, Biodentine, and Endosequence, both putty and paste) were used in this study. Five samples of each material were analyzed in both uncured and cured cement using scanning electron microscopy/energy-dispersive X-ray (SEM/EDX), X-ray diffraction (XRD), and Fourier transform-infrared spectroscopy (FTIR). Results. SEM analysis showed that the surfaces of all materials consisted of particle sizes ranging from 0.194 μm to approximately 51.82 μm. The basic elements found in both uncured and cured cement of all tested materials using EDX were carbon, calcium, silicon, and oxygen. A difference was observed in the presence or absence of magnesium, aluminum, bismuth, zirconium, and tantalum. XRD showed that all tested materials were composed mainly of tricalcium silicate and dicalcium silicate, which are the main components of Portland cement. FTIR analysis showed aromatic rings, phosphine PH, alkyl halides, and alcohol O-H groups in all tested materials but at different wavenumbers. Conclusions. The different types of CSCs tested in this study were primarily modified types of Portland cement with the addition of radiopacifiers. ProRoot MTA and MTA Angelus contained bismuth oxide, Biodentine contains zirconium oxide, whereas Endosequence root repair materials (both putty and paste) contained zirconium oxide and tantalum oxide. Endosequence root repair materials showed smaller particle sizes than the other groups. White PC had the most irregular and large particle sizes. CSC had a smaller particle size, except for MTA Angelus. Clinical Relevance. The composition of CSC has a direct influence on the properties of these cements, which may affect the clinical outcome of the treatment. © 2022 Okba Mahmoud et al. |
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Article |
author |
Mahmoud, Okba Al-Afifi, Nashwan Abdullah Salihu Farook, Mohideen Ibrahim, Maysara Adnan Al Shehadat, Saaid Alsaegh, Mohammed Amjed |
author_facet |
Mahmoud, Okba Al-Afifi, Nashwan Abdullah Salihu Farook, Mohideen Ibrahim, Maysara Adnan Al Shehadat, Saaid Alsaegh, Mohammed Amjed |
author_sort |
Mahmoud, Okba |
title |
Morphological and chemical analysis of different types of calcium silicate-based cements |
title_short |
Morphological and chemical analysis of different types of calcium silicate-based cements |
title_full |
Morphological and chemical analysis of different types of calcium silicate-based cements |
title_fullStr |
Morphological and chemical analysis of different types of calcium silicate-based cements |
title_full_unstemmed |
Morphological and chemical analysis of different types of calcium silicate-based cements |
title_sort |
morphological and chemical analysis of different types of calcium silicate-based cements |
publisher |
Hindawi Limited |
publishDate |
2022 |
url |
http://eprints.um.edu.my/43809/ |
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1783876767843352576 |