Background/Aim: Lately, fully innovative sol-gel method with high-temperature self-propagating reaction was used for the synthesis of new nanostructured endodontic materials, in combination with different radiopacifiers: bismuth (ALBO-MPCA1) and barium (ALBO-MPCA2). The aim of this study was to investigate the biocompatibility of nanostructured endodontic materials based on highly active calcium silicates and mixed with different radiopacifiers in comparison to MTA+ using human stem cells from the apical papilla- SCAP cells. Material and Methods: Morphology of the samples was studied by SEM. The tested materials were mixed with distilled water in a ratio 2:1 (m/m). Fifteen minutes after the preparation, samples were used in the experiment. The biocompatibility of fresh materials, after 3h and 7 days, was tested using 3-(4,5-dimethylthiazol-2-yl)-2,5- diphenyltetrazolium bromide- MTT test. Results: Samples mostly consisted of spherical and rode-like. The relative viability of cells incr...eased following the exposure time. Conclusion: The biocompatibility of synthesized materials is comparable to the control material MTA+, and therefore these materials can be recommended for further clinical studies.
Keywords:
biocompatibility / calcium silicates / MTT / MTA / biomaterials
Source:
Balkan Journal of Dental Medicine, 2017, 21, 3, 167-170
TY - JOUR
AU - Ćetenović, Bojana
AU - Čolović, Božana
AU - Vasilijić, Saša
AU - Pašalić, Snežana
AU - Jokanović, Vukoman
AU - Marković, Dejan
PY - 2017
UR - https://smile.stomf.bg.ac.rs/handle/123456789/2249
AB - Background/Aim: Lately, fully innovative sol-gel method with high-temperature self-propagating reaction was used for the synthesis of new nanostructured endodontic materials, in combination with different radiopacifiers: bismuth (ALBO-MPCA1) and barium (ALBO-MPCA2). The aim of this study was to investigate the biocompatibility of nanostructured endodontic materials based on highly active calcium silicates and mixed with different radiopacifiers in comparison to MTA+ using human stem cells from the apical papilla- SCAP cells. Material and Methods: Morphology of the samples was studied by SEM. The tested materials were mixed with distilled water in a ratio 2:1 (m/m). Fifteen minutes after the preparation, samples were used in the experiment. The biocompatibility of fresh materials, after 3h and 7 days, was tested using 3-(4,5-dimethylthiazol-2-yl)-2,5- diphenyltetrazolium bromide- MTT test. Results: Samples mostly consisted of spherical and rode-like. The relative viability of cells increased following the exposure time. Conclusion: The biocompatibility of synthesized materials is comparable to the control material MTA+, and therefore these materials can be recommended for further clinical studies.
PB - Udruženje stomatologa Balkana
T2 - Balkan Journal of Dental Medicine
T1 - In vitro biocompatibility of nanostructured endodontic materials using SCAP cells
VL - 21
IS - 3
SP - 167
EP - 170
DO - 10.1515/bjdm-2017-0029
ER -
@article{
author = "Ćetenović, Bojana and Čolović, Božana and Vasilijić, Saša and Pašalić, Snežana and Jokanović, Vukoman and Marković, Dejan",
year = "2017",
abstract = "Background/Aim: Lately, fully innovative sol-gel method with high-temperature self-propagating reaction was used for the synthesis of new nanostructured endodontic materials, in combination with different radiopacifiers: bismuth (ALBO-MPCA1) and barium (ALBO-MPCA2). The aim of this study was to investigate the biocompatibility of nanostructured endodontic materials based on highly active calcium silicates and mixed with different radiopacifiers in comparison to MTA+ using human stem cells from the apical papilla- SCAP cells. Material and Methods: Morphology of the samples was studied by SEM. The tested materials were mixed with distilled water in a ratio 2:1 (m/m). Fifteen minutes after the preparation, samples were used in the experiment. The biocompatibility of fresh materials, after 3h and 7 days, was tested using 3-(4,5-dimethylthiazol-2-yl)-2,5- diphenyltetrazolium bromide- MTT test. Results: Samples mostly consisted of spherical and rode-like. The relative viability of cells increased following the exposure time. Conclusion: The biocompatibility of synthesized materials is comparable to the control material MTA+, and therefore these materials can be recommended for further clinical studies.",
publisher = "Udruženje stomatologa Balkana",
journal = "Balkan Journal of Dental Medicine",
title = "In vitro biocompatibility of nanostructured endodontic materials using SCAP cells",
volume = "21",
number = "3",
pages = "167-170",
doi = "10.1515/bjdm-2017-0029"
}
Ćetenović, B., Čolović, B., Vasilijić, S., Pašalić, S., Jokanović, V.,& Marković, D.. (2017). In vitro biocompatibility of nanostructured endodontic materials using SCAP cells. in Balkan Journal of Dental Medicine
Udruženje stomatologa Balkana., 21(3), 167-170.
https://doi.org/10.1515/bjdm-2017-0029
Ćetenović B, Čolović B, Vasilijić S, Pašalić S, Jokanović V, Marković D. In vitro biocompatibility of nanostructured endodontic materials using SCAP cells. in Balkan Journal of Dental Medicine. 2017;21(3):167-170.
doi:10.1515/bjdm-2017-0029 .
Ćetenović, Bojana, Čolović, Božana, Vasilijić, Saša, Pašalić, Snežana, Jokanović, Vukoman, Marković, Dejan, "In vitro biocompatibility of nanostructured endodontic materials using SCAP cells" in Balkan Journal of Dental Medicine, 21, no. 3 (2017):167-170,
https://doi.org/10.1515/bjdm-2017-0029 . .
