Abstract
Aims: To evaluate the inflammatory response of the exposed pulp of incisor teeth in rats after direct pulp capping, using platelet rich plasma (PRP), enamel matrix derivate (EMD), mineral trioxide aggregate (MTA) and calcium hydroxide (Ca(OH)2). Methods: The study was conducted on 36 Wistar albino rats with a total of 144 incisor teeth. The pulps of 96 teeth of the rats were perforated and capped with different agents. Serving as the positive control group, the pulps of 24 teeth were only perforated and capped without capping agents, whereas the pulps of 24 teeth were used as the negative control group without being perforated (without any process). The research was ended with the extracting of the teeth on the 7th day-28th day. The teeth were taken to the routine and histological follows; cross sections were prepared and painted with hematoxylen & eosin. All of the sections were evaluated in terms of inflammatory reaction by histologic analysis taken by light microscope. Statistical analysis was used. The normal distribution of all data was tested with the Mann Whitney U and the differences between the groups were analyze dusing Kruskal Wallis test at 0.05 level. Results: There are no statistically significant differences in terms of inflammation type and necrosis among the treatment groups on 7 days’ post capping. However, improved inflammatory cell accumulation, hyperemia and lowest necrosis were observed from the samples treated with PRP (p emia were higher in the 28th day (p and most necrosis were seen in the EMD group. These new PRP materials might serve as pulp capping biomaterials to induce initial healing response in the future.
Highlights
Vital pulp therapy includes direct and indirect pulp-capping, pulpotomy and therapy that minimize pulpal injury by protecting the pulp from the toxic effects of chemical, bacterial, mechanical or thermal insult [1]
At all-time points the odontoblasts displayed regularly arrangement, the capillaries in the pulp tissue demonstrated no congestion, and no inflammation or calcification was observed in negative control group samples (Figure 1)
The comparison of all the samples indicated that mineral trioxide aggregate (MTA) and enamel matrix derivate (EMD) showed lower hyperemia scores platelet rich plasma (PRP) and Ca(OH)2 (p < 0.05)
Summary
Vital pulp therapy includes direct and indirect pulp-capping, pulpotomy and therapy that minimize pulpal injury by protecting the pulp from the toxic effects of chemical, bacterial, mechanical or thermal insult [1]. Vital pulp therapy is aimed at treating reversible pulpal injures by sealing the pulp and stimulating the formation of tertiary dentinal formation [2]. Conservative pulp therapy is designed to maintain viable coronal and radicular pulp tissue. Calcium hydroxide (Ca(OH)2) and Ca(OH) compounds are the gold standards used to preserve vitality through pulp capping since 1920 [3]. Numerous subsequent studies have demonstrated dentinal bridge formations in about 50% - 87% of cases capped with various Ca(OH) formulations [4,5,6]. Ca(OH) and their formulations have been known as having a limited effect on pulp tissue repair
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