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Rheological properties and setting kinetics of bioceramic hydraulic cements : ProRoot MTA versus RS+
ID Jevnikar, Arne Peter (Author), ID Malgaj, Tine (Author), ID Radan, Kristian (Author), ID Özden Moser, Ipeknaz (Author), ID Kušter, Monika (Author), ID Kocjan, Andraž (Author)

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Abstract
Hydraulic calcium silicate-based cements (HCSCs) have become a superior bioceramic alternative to epoxy-based root canal sealers in endodontics. A new generation of purified HCSCs formulations has emerged to address the several drawbacks of original Portland-based mineral trioxide aggregate (MTA). This study was designed to assess the physio-chemical properties of a ProRoot MTA and compare it with newly formulated RS+, a synthetic HCSC, by advanced characterisation techniques that allow for in situ analyses. Visco-elastic behaviour was monitored with rheometry, while phase transformation kinetics were followed by X-ray diffraction (XRD), attenuated total reflectance Fourier transform infrared (ATR-FTIR), and Raman spectroscopies. Scanning electron microscopy with energy-dispersive spectroscopy, SEM-EDS, and laser-diffraction analyses was performed to evaluate the compositional and morphological characteristics of both cements. While the kinetics of surface hydration of both powders, when mixed with water, were comparable, an order of magnitude finer particle size distribution of RS+ coupled with the modified biocompatible formulation proved pivotal in its ability to exert predictable viscous flow during working time, and it was more than two times faster in viscoelastic-to-elastic transition, reflecting improved handling and setting behaviour. Finally, RS+ could be completely transformed into hydration products, i.e., calcium silicate hydrate and calcium hydroxide, within 48 h, while hydration products were not yet detected by XRD in ProRoot MTA and were obviously bound to particulate surface in a thin film. Because of the favourable rheological and faster setting kinetics, synthetic, finer-grained HCSCs, such as RS+, represent a viable option as an alternative to conventional MTA-based HCSCs for endodontic treatments.

Language:English
Keywords:hydraulic calcium silicate cements, HCSCs, mineral trioxide aggregate, MTA, bioactive materials, handling, rheological properties, setting kinetics
Work type:Article
Typology:1.01 - Original Scientific Article
Organization:MF - Faculty of Medicine
Publication status:Published
Publication version:Version of Record
Year:2023
Number of pages:14 str.
Numbering:Vol. 16, iss. 8, art. 3174
PID:20.500.12556/RUL-155601 This link opens in a new window
UDC:620.1/.2
ISSN on article:1996-1944
DOI:10.3390/ma16083174 This link opens in a new window
COBISS.SI-ID:149530371 This link opens in a new window
Publication date in RUL:08.04.2024
Views:466
Downloads:54
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Record is a part of a journal

Title:Materials
Shortened title:Materials
Publisher:Molecular Diversity Preservation International
ISSN:1996-1944
COBISS.SI-ID:33588485 This link opens in a new window

Licences

License:CC BY 4.0, Creative Commons Attribution 4.0 International
Link:http://creativecommons.org/licenses/by/4.0/
Description:This is the standard Creative Commons license that gives others maximum freedom to do what they want with the work as long as they credit the author.

Projects

Funder:ARRS - Slovenian Research Agency
Project number:P2-0087
Name:Keramični in komplementarni materiali za napredne inženirske in biomedicinske aplikacije

Funder:ARRS - Slovenian Research Agency
Project number:P2-0105
Name:Multifunkcijski materiali in naprave: od kvantnega do makronivoja

Funder:ARRS - Slovenian Research Agency
Project number:P1-0045
Name:Anorganska kemija in tehnologija

Funder:ARRS - Slovenian Research Agency
Project number:J3-3064
Name:Predklinične in klinične raziskave cirkonijeve oksidne dentalne keramike, izdelane s tehnologijami aditivnega oblikovanja (ZIRAMDENT)

Funder:ARRS - Slovenian Research Agency
Project number:N1-0189
Name:Določevanje struktur spojin žlahtnih plinov s 3D elektronsko difrakcijo

Funder:ARRS - Slovenian Research Agency
Project number:N1-0225
Name:Visokotlačna stabilizacija in fazni prehodi zmuzljivih fluoridov prehodnih kovin

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