Effect of SonicFill ultrasonic resin on rat odontoblasts and dental pulp vessels
10.3969/j.issn.2095-4344.2016.16.012
- VernacularTitle:SonicFill超声树脂对大鼠成牙本质细胞和牙髓微血管的影响
- Author:
Qianning ZHAO
;
Jianping WANG
;
Weiwei TONG
;
Dan SU
;
Yanheng YU
- Publication Type:Journal Article
- From:
Chinese Journal of Tissue Engineering Research
2016;20(16):2369-2375
- CountryChina
- Language:Chinese
-
Abstract:
BACKGROUND:The mechanical properties of SonicFil ultrasonic resin are better than those of the traditional light-cured composite resin, but its effect on odontoblasts and dental pulp vessels is unclear.
OBJECTIVE:To study the effect of SonicFil ultrasonic resin on odontoblasts and dental pulp vessels of rats using histological methods.
METHODS:Twenty-five Wistar rats are selected for experiment. Ninety-six teeth from the first and second molars were selected and randomly divided into SonicFil ultrasound resin group and Filtek Z350 nano resin group with 48 teeth in each group. Experimental teeth in each group were equaly subdivided into 7 days group and 30 days group. Besides, randomly selected five teeth with no intervention served as normal control group. After anesthesia and disinfection, class I cavities on the occlusal surface of the maxilary first and second molars were prepared and filed with SonicFil ultrasound resin and Filtek Z350 nano resin group, respectively. The rats were sacrificed by ink perfusion method, and tooth specimens were taken to observe the changes of odontoblasts and pulp microvessels.
RESULTS AND CONCLUSION: At 7 days after filing, two groups had similar changes in the pulp presenting with mild inflammation. Besides, there were scattered inflammatory cels distributing in the cave pulp tissue, and in most of the specimens, odontoblasts arranged disorderly with little vacuoles and microvascular dilatation in the pulp. At 30 days after filing, in the SonicFil ultrasonic resin group, odontoblasts arranged orderly, inflammatory reaction and microvascular dilatation disappeared basicaly. In contrast, in the Filtek Z350 nano resin group, disordered odontoblasts decreased, inflammatory reaction weakened, as wel as microvascular dilatation became less. These results show that under the experimental condition, both of the SonicFil ultrasonic resin and Filtek SonicFil Z350 nano resin play certain roles in the formation of odontoblasts and dental pulp vessels, but over time al of these effects can automaticaly disappear.