Discoloration and radiopacity of white mineral trioxide aggregate with various radiopacifiers
10.14815/kjdm.2019.46.3.131
- Author:
Jae Sung KWON
1
;
Yeo Jin KIM
;
Il Soon PARK
Author Information
1. Department & Research Institute of Dental Biomaterials and Bioengineering, Yonsei University College of Dentistry, Seoul, Korea.
- Publication Type:Original Article
- Keywords:
Discoloration;
Mineral Trioxide Aggregate;
Radiopacity
- MeSH:
Barium;
Calcium;
Hypochlorous Acid;
Immersion;
Miners;
Pemetrexed;
Sodium Hypochlorite;
Zirconium
- From:
Korean Journal of Dental Materials
2019;46(3):131-138
- CountryRepublic of Korea
- Language:English
-
Abstract:
The use of the mineral trioxide aggregate (MTA) has been expanded as the material can be applied on various treatment of endodontic care, which also has many advantages including bioactivity. Still, the discolorations of the materials have been presented as a concern related to esthetic appearances, which is caused by the presence of radiopacifiers. Therefore, the aim of this study was to investigate the color stability and radiopacity of white MTA with various radiopacifiers. Four different radiopacifiers [bismuth oxide (BM), calcium tungstate (CT), barium oxide (BO), and zirconium oxide (ZO)] were used. The radiopacity was tested according to ISO 6876, and the color change before and after immersing in a 5% hypochlorite solution was tested using a spectrophotometer. The group with no radiopacifier (NR) was used as a negative control and ProRoot MTA (PR) was used as the commercial control. The immersion of the PR and BM in sodium hypochlorite resulted in a dark brown discoloration, in which the values were higher than the rest of the group (p<0.05). No change was observed in the NR. Moreover, the CT and ZO showed no color change compared to the NR (p>0.05). In terms of the radiopacity, the NR showed the lowest value as expected (p<0.05). Meanwhile, the BM showed the highest value (p<0.05), followed by PR and BO (p<0.05). The NR showed the lowest radiopacity values. The result of this study will be useful for future development of MTA that would have clinically adequate radiopacity with minimum discoloration.
