ABSTRACT
Dental materials can induce local and systemic effects. The Allium cepa assay was used to evaluate the genotoxicity and/or cytotoxicity of zinc oxide and eugenol (ZOE) at different proportions. The ZOE solution was tested at the concentration of 1 drop of eugenol (in each drop of liquid, the approximate concentration of eugenol is 85%) and 1 portion of zinc oxide cement (treatment I), and twice the concentration of eugenol (treatment II) . Treated roots appeared to be yellowish-brown, fewer in number, thicker and less turgid compared with the control, suggesting a cytotoxic activity of ZOE. A significant difference was found in the root size between the control and treatment II. This treatment reduced by 79% the size of the root compared with the control, and the mitotic index was 66%, indicating a 22.4% reduction relative to the control, which in turn evidenced the cytotoxicity of ZOE. The significant increase in anaphase bridges suggests a genotoxic effect.
Materiais dentários podem induzir diversos efeitos, tanto local quanto sistêmico. Objetivou-se avaliar a ocorrência de danos genéticos e de alterações nucleares degenerativas indicativas de genotoxicidade e citotoxicidade em células de cebola em mitose, expostas a óxido de zinco e eugenol (ZOE) em diferentes proporções. Os bulbos foram postos a germinar, com a parte inferior mergulhada na solução de ZOE + água destilada. A solução de ZOE foi testada na concentração de uma gota de eugenol (aproximadamente 85%) e 1 porção do cimento de óxido de zinco (tratamento I) e o dobro da concentração do eugenol (tratamento II). As raízes do controle apresentaram coloração esbranquiçada e eram túrgidas, enquanto as raízes dos tratamentos se mostraram de cor amarela amarronzada, em menor quantidade, mais grossas e menos túrgidas, sugerindo ação citotóxica de ZOE. Houve diferença significativa do tamanho das raízes entre o controle e o tratamento II. O tratamento II reduziu 79% do tamanho da raiz e o índice mitótico foi 66%. Isto mostra redução de 22,4% quando comparado com o controle, evidenciando a ação citotóxica de ZOE. O aumento significante de pontes anafásicas sugere efeito genotóxico.
Subject(s)
Zinc Oxide-Eugenol Cement , Biomedical and Dental Materials , Mutagenesis , Onions , Cytotoxicity, ImmunologicABSTRACT
The genera Aspergillus comprises species that produce mycotoxins such as aflatoxins, ochratoxins and patulin. These are cosmopolitan species, natural contaminants of agricultural products. In coffee grains, the most important Aspergillus species in terms of the risk of presenting mycotoxins belong to the genera Aspergillus Section Circumdati and Section Nigri. The purpose of this study was to assess the occurrence of isolated ochratoxigenic fungi of coffee grains from organic and conventional cultivation from the South of Minas Gerais, Brazil, as well as to evaluate which farming system presents higher contamination risk by ochratoxin A (OTA) produced by fungi. Thirty samples of coffee grains (Coffea arabica L.) were analysed, being 20 of them of conventional coffee grains and 10 of them organic. The microbiological analysis was done with the Direct Plating Technique in a Dichloran Rose Bengal Chloramphenicol Agar (DRBC) media. The identification was done based on the macro and micro morphological characteristics and on the toxigenic potential with the Plug Agar technique. From the 30 samples analysed, 480 filamentous fungi of the genera Aspergillus of the Circumdati and Nigri Sections were isolated. The ochratoxigenic species identified were: Aspergillus auricoumus, A. ochraceus, A. ostianus, A. niger and A. niger Aggregate. The most frequent species which produces ochratoxin A among the isolated ones was A. ochraceus, corresponding to 89.55%. There was no significant difference regarding the presence of ochratoxigenic A. ochreceus between the conventional and organic cultivation systems, which suggests that the contamination risk is similar for both cultivation systems.
Subject(s)
Aspergillus/isolation & purification , Aspergillus/metabolism , Coffea/microbiology , Ochratoxins/metabolism , Seeds/microbiology , Aspergillus/classification , BrazilABSTRACT
INTRODUCTION: Since some dental materials may be aggressive to a person's body, studies involving such materials seem to be necessary. OBJECTIVE: This study was conducted to evaluate the genotoxicity of dental materials through micronucleus (MN) test. MATERIAL AND METHODS: Exfoliated buccal cells of 4-to-12 year-old children, who were on some type of dental treatment, were collected either before or after the treatment ending. Each sample was composed of 1,000 cells per patient. Student's t test was used for comparison. RESULTS: The dental materials were divided into 3 groups, as follows: cement, monomers, and their combination. Treatments using monomer + cement-based materials were found to increase significantly the number of binucleated (BN) cells, (p < 0.05) which indicate several degenerative nuclear changes. CONCLUSION: The combination of cement-based dental material with monomers increases the cytotoxic action of dental materials.