Toxicidade do peróxido de carbamida 16% adicionado de nanopartículas de hidroxiapatita / Carbamide peroxide toxicity added 16% hydroxyapatite nanoparticles

O clareamento dental é um dos tratamentos mais realizados nos consultórios odontológicos a fim de melhorar a aparência do sorriso. O procedimento consiste na aplicação de um gel clareador, a base de peróxido de carbamida ou de hidrogênio, sobre os dentes a serem clareados. A sensibilidade dentária é o efeito adverso mais frequentemente relatado no clareamento dentário e é a principal causa de desmotivação dos pacientes. O mecanismo pelo qual se produz a sensibilidade após clareamento dentário ainda não foi completamente elucidado; no entanto, parece estar associado à rápida difusão dos agentes clareadores através do esmalte e dentina que, devido ao seu grau de citotoxicidade, podem agir agredindo as células pulpares, causando sensibilidade. O objetivo deste estudo foi avaliar a biocompatibilidade de nanopartícula de hidroxiapatita adicionada ao gel clareador peróxido de carbamida 16% com flúor e sem flúor e, para tanto, foram realizados testes de citotoxidade empregando MTT. Como resultados verificou-se que as nanopartículas de hidroxiapatita, quando comparadas aos géis de peróxido de carbamida a 16% com e sem flúor, foram as menos citotóxicas (p< 0.05). As diluições citotóxicas convertidas para 70% das amostras testadas também foram comparadas através do teste de Anova com tukey. Foi possível observar que as partículas de nanoHap quando adicionadas nos géis de clareamento com e sem flúor reduziu significativamento a citotoxidade. Concluímos que o novo material proposto nesta investigação apresenta melhor biocompatibilidade do que o gel sem hidroxiapatita, acompanhado da redução da citotoxidade, tais aspectos sugerem que as nanopartículas de hidroxiapatita podem ter aplicações clínicas futuras em tecidos mineralizados em procedimentos de clareamento dental, contribuindo para a redução da sensibilidade dentária.

The dental bleaching is one of the most procedures performed at dental offices to improve the appearance of the smile. The procedure consists of the application of a bleching gel, based on carbamide peroxide or hydrogen over the teeth to be whitened. Tooth sensibility is the frequently reported adverse effect on tooth whitening and is the leading cause of demotivation by the patients. The mechanism that provides the sensibility after tooth whitening has not already been fully elucidated; however, it appears to be associated with the rapid diffusion of bleaching agents through the enamel and dentin that, because of their degree of cytotoxicity, may act attacking pulp cells, causing the sensibility. The aim of this study was to evaluate the biocompatibility of hydroxyapatite nanoparticles added to whitening gel of 16% carbamide peroxide with and without fluoride and, therefore, cytotoxicity tests were performed using MTT. As a result, it was found that the hydroxyapatite nanoparticles, compared to the gels of 16 % carbamide peroxide with and without fluoride, were less cytotoxic (p <0.05). Cytotoxic dilutions converted to 70 % of the tested samples were compared using ANOVA test with Tukey. We concluded that the new material proposed in this research has a better biocompatibility in comparison with the gel without hydroxyapatite, followed by a reduction of cytotoxicity. These aspects suggest that the hydroxyapatite nanoparticles may have clinical future applications in mineralized tissues when dental bleaching procedures are performed, contributing to the reduction of tooth sensitivity. We conclude that the new material proposed in this research has a better biocompatibility of the gel without hydroxyapatite, accompanied by a reduction of cytotoxicity, these aspects suggest that the hydroxyapatite nanoparticles may have future clinical applications in mineralized tissues in dental bleaching procedures, contributing to a reduction tooth sensitivity.

Cell death induced by hydroxyapatite on L929 fibroblast cells

Biomaterials intended for end-use application as bone-graft substitutes have to undergo safety evaluation. In this study, we investigated the in vitro cytotoxic effects especially to determine the mode of death of two hydroxyapatite compounds (HA2, HA3) which were synthesized locally. The methods used for cytotoxicity was the standard MTT assay whereas AO/PI staining was performed to determine the mode of cell death in HA treated L929 fibroblasts. Our results demonstrated that both HA2 and HA3 were not significantly cytotoxic as more than 75% cells after 72 hours treatment were viable. Furthermore, we found that the major mode of cell death in HA treated cells was apoptosis. In conclusion, our results demonstrated that these hydroxyapatite compounds are not cytotoxic where the mode of death was primarily via apoptosis.

In vivo chromosome aberration test for hydroxyapetite in mice

This study evaluates the cytotoxic and mutagenic effect of synthetic hydroxyapatite granules (source: School of Material and Mineral Resources Engineering, Universiti Sains Malaysia) in the bone marrow cells of mice. Mice are exposed to synthetic hydroxyapatite granules, the bone marrow cells are collected and observed for chromosome aberrations. No chromosome aberrations were noticed in the animals exposed to distilled water (negative control) and to the test substance, synthetic hydroxyapatite granules (treatment) groups. Chromosome aberrations were observed in the animals exposed to Mitomycin C (positive control group). There was no indication of cytotoxicity due to synthetic hydroxyapatite granules in the animals as revealed by the mitotic index. Hence, synthetic hydroxyapatite granules are considered non-mutagenic under the prevailing test conditions.