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Previous issue date: 2017-04-06 / CAPES / Corn is one of the most cultivated cereals in Brazil and it is susceptible to contamination by mycotoxins that are toxic secondary metabolites produced by fungi. An adoption of quality management systems during a corn production chain is essential to ensure food safety concerning mycotoxin contamination. However, there is a possibility that these recognized carcinogenic metabolites may already be found in the matrix. Hence the search for alternative solutions capable of reducing contamination to safe levels by the application of emerging technologies has been intense. The methods of decontamination of foods must to obey some premises as: inactivate, destroy or remove the toxins; do not produce others toxic waste; maintain the nutritional value and acceptability of the product. Ozone, which meets almost all of these characteristics, is recognized by the Food and Drug Administration as a GRAS (Generally Recognized as Safe) product for use as a sanitizer in food processing. Since then its use has been investigated in several types of food, including cereals contaminated by mycotoxins. Corn canjiquinha is a cultural food easily accessible by Brazilian consumers at low prices, as well as posing a potential risk of exposure due to contamination with aflatoxins. In this study, aliquots of canjiquinha samples were inoculated with concentrations of 106 CFU/g conidia of Aspergillus spp. and Fusarium spp. previously isolated from this food. Other aliquots were contaminated with aflatoxins B1, B2, G1 and G2 at a concentration of 50 ?g/kg for each. The application of gaseous ozone was tested in different combinations of exposure time, ozone concentration and canjiquinha mass, being these independent variables investigated. After treatment by ozonation, to evaluate the effects on aflatoxin concentrations, the samples were analyzed by high-performance liquid chromatography with fluorescence detection (HPLC-FD system) with pre-column derivatization (C18) by trifluoroacetic acid (TFA). The analytical method used in this study was optimized and parameters such as accuracy, precision, linearity, selectivity, limits of detection and limits of quantification of the analytical method were previously evaluated. Additionally, aflatoxin quantification tests were carried out on commercial samples of corn kernels. The method was adequate and presented recovery values within the range of 80-110% with a coefficient of variation of less than 15%, with detection and quantification limits equal to 0.8 and 3.6 ?g/kg, respectively, for each of the aflatoxins. Isolation of fungi was carried out according to the criteria of the Brazilian Ministry of Agriculture. Thus, the efficacy of gaseous ozonation on aflatoxin levels B1, B2, G1 and G2 and on microbial contamination of canjiquinha grains showed reductions of up to 57% in aflatoxin levels. The total fungal count had a reduction of about 3.0 log cycles UFC/g and the total counts of mesophiles were reduced to undetectable levels. These results demonstrated that ozonation is an effective alternative to reduce microbial contamination and the concentration of aflatoxins in corn kernels and, consequently, can improves the safety of this product. / O milho ? um dos cereais mais cultivados no Brasil e est? exposto ? contamina??o por micotoxinas que s?o metab?litos t?xicos secund?rios produzidos por fungos. A ado??o de sistemas de gest?o da qualidade durante a cadeia de produ??o de milho ? essencial para garantir a seguran?a do alimento quanto ? contamina??o por micotoxinas. Contudo, h? possibilidade desses metab?licos reconhecidamente carcinog?nicos j? encontrarem-se na matriz. Da? a busca por solu??es alternativas capazes de reduzir a contamina??o para n?veis seguros pela aplica??o de tecnologias emergentes tem sido intensa. Os m?todos de descontamina??o de alimento devem obedecer algumas premissas como: inativar, destruir, ou remover as toxinas; n?o produzir res?duos t?xicos; manter o valor nutricional e a aceitabilidade do produto. O oz?nio atende quase todas estas caracter?sticas, ? reconhecido pelo United States Food and Drug Administration (FDA) como uma subst?ncia GRAS (Geralmente Reconhecido como Seguro) para uso como sanitizante no processamento de alimentos. Desde ent?o sua utiliza??o tem sido pesquisada em diversos tipos de alimentos, incluindo cereais contaminados por micotoxinas. A canjiquinha de milho ? um alimento cultural de f?cil aquisi??o pelo consumidor brasileiro pelo baixo pre?o, al?m de representar um potencial risco de exposi??o por contamina??o com aflatoxinas. Neste estudo, al?quotas de amostras de canjiquinha foram inoculadas concentra??es de 106 UFC/g de con?dios de Aspergillus spp. e Fusarium spp. previamente isolados do alimento. Outras al?quotas foram contaminadas com aflatoxinas B1, B2, G1 e G2 na concentra??o de 50 ?g/kg para cada. A aplica??o de oz?nio gasoso foi testada em diferentes combina??es de tempo de exposi??o, concentra??o do oz?nio e massa de canjiquinha, sendo essas as vari?veis independentes pesquisadas. Ap?s tratamento por ozoniza??o, para avalia??o dos efeitos sobre as concentra??es de aflatoxinas, as amostras foram analisadas por cromatografia l?quida de alta efici?ncia com detec??o por fluoresc?ncia (sistema CLAE-DF) com derivatiza??o pr?-coluna (C18) por ?cido trifluoroac?tico (TFA). O m?todo anal?tico utilizado neste estudo foi otimizado e par?metros como a exatid?o, precis?o, linearidade da faixa de trabalho, seletividade, limites de detec??o e limites de quantifica??o do m?todo anal?tico foram previamente avaliados. Adicionalmente efetuaram-se ensaios para quantifica??o das aflatoxinas em amostras comerciais de canjiquinha de milho. O m?todo mostrou-se adequado e apresentando valores de recupera??o dentro da faixa de 80-110% com coeficiente de varia??o menor que 15%, sendo os limites de detec??o e quantifica??o iguais a 0,8 e 3,6 ?g/Kg, respectivamente, para cada uma das aflatoxinas. O isolamento de fungos foi realizado de acordo com as normas do Minist?rio da Agricultura. Assim a avalia??o da efic?cia da ozoniza??o gasoso sobre os n?veis de aflatoxinas B1, B2, G1 e G2 e sobre a contamina??o microbiana dos gr?os de canjiquinha apresentou redu??es de at? 57% nos n?veis de aflatoxinas. A contagem de fungos totais teve uma redu??o de cerca de 3,0 ciclos log UFC/g e a contagem total de mes?filos foram reduzidas a n?veis n?o detect?veis. Estes resultados demonstraram que a ozoniza??o ? uma alternativa eficaz para reduzir a contamina??o microbiana e a concentra??o de aflatoxinas em canjiquinha de milho e, consequentemente, melhora a seguran?a desse produto.
Identifer | oai:union.ndltd.org:IBICT/oai:localhost:jspui/2243 |
Date | 06 April 2017 |
Creators | PORTO, Yuri Duarte |
Contributors | Ascheri, Jos? Luis Ramirez, Silva, Otniel Freitas, Ascheri, Jos? Luis Ramirez, Direito, Gl?ria Maria, Castro, Izabela Miranda de |
Publisher | Universidade Federal Rural do Rio de Janeiro, Programa de P?s-Gradua??o em Ci?ncia e Tecnologia de Alimentos, UFRRJ, Brasil, Instituto de Tecnologia |
Source Sets | IBICT Brazilian ETDs |
Language | Portuguese |
Detected Language | Portuguese |
Type | info:eu-repo/semantics/publishedVersion, info:eu-repo/semantics/masterThesis |
Format | application/pdf |
Source | reponame:Biblioteca Digital de Teses e Dissertações da UFRRJ, instname:Universidade Federal Rural do Rio de Janeiro, instacron:UFRRJ |
Rights | info:eu-repo/semantics/openAccess |
Relation | ABIMILHO: Milho e suas riquezas: o cereal que enriquece a alimenta??o humana. Dispon?vel em: <http://www.abimilho.com.br/ocereal.htm>. Acesso em 18 Mai 2014. ABIMILHO: Milho e suas riquezas: Produtividade. Dispon?vel em: <http://www.abimilho.com.br/riqueza.htm>. Acesso em 18 Mai 2014. AG?NCIA NACIONAL DE VIGIL?NCIA SANIT?RIA LEGISLA??O. Resolu??o RDC 274, de 15 de outubro de 2002. Dispon?vel em: <http://www.anvisa.gov.br/legis/resol/2002/274_02rdc.htm>. Acesso em 9 de Jun 2013. ALENCAR, E.R.; FARONI, L.R.A.; SOARES, N.F.F.; SILVA, W.A.; CARVALHO, M.C.S. Efficacy of ozone as a fungicidal and detoxifying agent of aflatoxins in peanuts. Journal of the Science of Food and Agriculture, v.92, n.4, p.899?905, 2012. ALENCAR, E.R.; FARONI, L.R.A.; MARTINS, M.A.; COSTA, A.R.; CECON, P.R. Decompositon kinetics of gaseous ozone in peanuts. Journal of the Brazilian Association of Agricultural Engineering, v.31, n.5, p.930-930, 2011. AL-HADDAD, K. S. H.; AL-QASSEMI, R. A. S.; ROBINSON, R. K.The use of gaseous ozone and gas packaging to control populations of Salmonella infantis and Pseudomonas aeruginosa on the skin of chicken portions. Food Control, v. 16, n. 5, p. 405-410, 2005. ALLEN, B.; WU, J.; DOAN, H. Inactivation of fungi associated with barley grain by gaseous ozone. Journal of Environment Science, v. 38, p. 617-630, 2003. ALMEIDA, A. P.; CORR?A, B.; MALLOZZI, M. A. B.; SAWAZAKI, E.; VALENTE SOARES, L. M. Mycoflora and aflatoxin/fumonisin production by fungal isolates from freshly harvested corn hybrids. Brazilian Journal of Microbiology, v. 31, n. 4, p. 321-326, 2000. AMARAL, K. A. S.; NASCIMENTO, G. B.; SEKIYAMA, L.; JANEIRO, V.; MACHINSKI JR, M. Aflatoxinas em produtos a base de milho comercializados no Brasil e riscos para a sa?de humana. Ci?ncia e Tecnologia de Alimentos, Campinas, v. 26, p. 336-342, 2006. ALMEIDA, E. et al. Tratamento de efluentes industriais por processos oxidativosna presen?a de oz?nio. Qu?mica Nova, v. 27, n. 5, p. 818-824, 2004. AOAC. Association of Official Analytical Chemists. AOAC Guidelines for single laboratory validation of chemical methods for dietary supplements and botanicals. 2002. AOAC. Association of Official Analytical Chemists. Official methods of analysis 994.08 ? Derivatization of standards for aflatoxins, chapter 49, 2005. AOAC. Aflatoxin M1 in milk and Cheese. Method 980.21. In: Official Method of Analysis of AOAC International, 16 ed., v. 2. Food composition; additives; natural contaminants, Natural Toxins, p.37-38, 2000. APHA. American Public Health Association. Standard methods for the examination of water and wastewater. 20th ed. Washington: APHA, 1998. ARANA, S.; DAGLI, M.L.Z.; SABINO, M. et al. Evaluation of the efficacy of hydrated sodium aluminosilicate in the prevention of aflatoxin-induced hepatic cancer in rainbow trout. Pesquisa Veterin?ria Brasileira, Rio de Janeiro, v. 31, n. 9, set., 2011 . ARA?JO, A. C. P; TELLES, D. L.; ALMEIDA, M. G.; NASCIMENTO, E. S. Determinaci?n de aflatoxinas em cacahuetes comercializados em Recife-PE, Brasil. Alimentaria, v. 249, n. 1, p. 35-37, 1994. ARMOR, J.N. Striving for catalytically green processes in the 21st century. Appl. Catal., p. 189-153, 1999. ASSIRATI, D. M. Oz?nio ? usado como desinfetante de efluentes. Jornal da Unicamp, ed. 296 -8 a 14 de agosto de 2005. Dispon?vel em: <http://www.unicamp.br/unicamp/unicamp_hoje/ju/agosto2005/ju296pag08.html>. Acesso em 6 Mar 2013. BAHT, R. V.; VASANTHI. Contaminaci?n por micotoxinas de alimentos y piensos: situaci?n general, incidencia y efectos econ?micos sobre la disponibilidad de alimentos, comercio, exposici?n de los animales de granja y p?rdidas econ?micas conexas. Lista da Terceira Confer?ncia Internacional Mixta FAO/OMS/PNUMA sobre Micotoxinas. Mar. 1999. BEIR?O-DA-COSTA S.; MOURA-GUEDES M. C.; FERREIRA-PINTO M. M.; EMPIS J.; MOLD?O-MARTINS M. Alternative sanitizing methods to ensure safety and quality of fresh-cut kiwifruit. Journal of Food Processing and Preservation, v. 38, p. 1-10, 2014. BENTO L. F., CANEPPELE M. A. B., ALBUQUERQUE M. C. F. de e, KOBAYASTI L., CANEPPELE C., ANDRADE P. J. de. Ocorr?ncia de fungos e aflatoxinas em gr?os de milho. Revista Instituto Adolfo Lutz, 71(1):44-9, 2012. BENNETT, J.W.; KLICH, M. Mycotoxins. Clinical Microbiology Reviews, v.16, n.3, p.497 516, 2003. BIALKA, K. L.; DEMIRCI, A. Utilization of gaseous ozone for the decontamination of Escherichia coli O157:H7 and Salmonella on raspberries and strawberries. Journal of Food Protection, Amesterdan, v. 70, n. 5, p. 1093-1098, 2007. BITTENCOURT, A. B. F.; OLIVEIRA, C. A. F.; DILKIN, P.; CORREA, B. Mycotoxin occurrence in corn meal and flour traded in Sao Paulo, Brazil. Food Control, v. 16, n. 2, p. 117-120, 2005. BRASIL. Minist?rio do Trabalho e Emprego. Portaria MTB n? 3.214, de 08 de junho de 1978. Aprova as Normas Regulamentadoras - NR - do Cap?tulo V, T?tulo II, da Consolida??o das Leis do Trabalho, relativas ? Seguran?a e Medicina do Trabalho. NR 15 - Atividades e Opera??es Insalubre - Anexo no 11. BRASIL. ANVISA ? Ag?ncia Nacional de Vigil?ncia Sanit?ria. Resolu??o RDC n.274, de 15 de outubro de 2002. Estabelece limites de toler?ncia para aflatoxinas em amendoim, milho e derivados. Di?rio Oficial da Uni?o, Se??o I, Bras?lia, 16 de outubro de 2002. Dispon?vel em <http://www.anvisa.gov.br>. Acesso em 17 Jun 2013. BRASIL. Resolu??o de Diretoria Colegiada N? 7, de 18 de fevereiro de 2011. Limites m?ximos tolerados para micotoxinas em alimentos. Di?rio Oficial da Uni?o, Bras?lia, 09 mar. 2011. Dispon?vel em: < http://www.anvisa.gov.br/legis/index.htm>. Acesso em: 17 set. 2013. BULLERMAN, L. B.; TSAI, W. J. Incidence and levels of Fusarium moniliforme, Fusarium proliferatum and fumonisins in corn and corn-based foods and feeds. Journal of Food Protection, v. 57, n. 6, p. 541-546, 1994. CALADO, V. & MONTGOMERY, D. Planejamento de experimentos usando Statistica (1st ed.). Rio de Janeiro: E-Papers Servi?os Editoriais, 2005. CALDAS, E.D.; SILVA, S.C.; OLIVEIRA, J. Aflatoxinas e ocratoxina A em alimentos e riscos para a sa?de humana. Revista de Sa?de P?blica, v. 36, n. 3, p. 319-323, 2002. CALVET, R.M. Isolamento e Identifica??o de Fungos Tox?genos em Carcinicultura Marinha. 2008. 81 f. Disserta??o (Mestrado em Ci?ncia Animal) ? P?s Gradua??o em Ci?ncia Animal, Universidade Federal do Piau?, Teresina. CAMPOS, C. A. et al. Evaluation of ozone-slurry ice combined refrigeration system for the storage of farmed turbot (Psetta maxima). Food Chemistry, v. 97, n. 2, p. 223-230, 2006. CAMPOS, C. A.; RODRIGUEZ O.; LOSADA V.; AUBOURG S. P.; BARROSVELAZQUEZ, J. Effects of storage in ozonized slurry ice on the sensory and microbial quality of sardine (Sardine pilchardus). Journal of Food Microbiology, v. 103, p. 121-130, 2005. CARDOSO FILHO, F.C., CALVET, R.M., PEREYRA, C.M., PEREIRA, M.M.G., ROSA, C.A.R., TORRES, A.M., MURATORI, M.C.S. Ocorr?ncia de Aspergillus spp., Penicillium spp. E aflatoxinas em farinha de milho utilizadas no consumo humano, Piau?, Brasil. Arq. Inst. Biol., S?o Paulo, v.78, n.3, p.443-447, jul./set., 2011 CASTRO, M. F. P. M.; SHEPHARD, G. S.; SEWRAM, V.; VICENTE, E.; MENDON?A, T. A.; JORDAN, A. C. Fumonisins in Brazilian corn-based foods for infant consumption. Food Additives and Contaminants, v. 21, n. 7, p. 693-699, 2004. CASTRO, M. F. P. P. M; VALENTE SOARES, L. M.; FURLANI, R. P. Z. Mycoflora, aflatoxigenic species and mycotoxins in freshly harvested corn (Zea mays L.): a preliminary study. Revista de Microbiologia, v. 2, n. 4, p. 289-295, 1995. CHEN, RAN MA, FEI LI, PEI-WU ZHANG, WEN DING, XIAO-XIA ZHANG, QI LI, MIN WANG, YAN-RU XU, BAO-CHENG. Effect of ozone on aflatoxins detoxification and nutritional quality of peanuts. Food Chemistry, v. 146, p. 284-8, 2014. CHIATONE, P. V.; TORRES, L. M.; ZAMBIAZI, R. C. Aplication of ozone in industry of food. Alimentos e Nutri??o, v. 19, p. 341-349, 2008. CHOI, L. H.; NIELSEN, S. S. The effects of thermal and nonthermal processing methods on apple cider quality and consumer acceptability. Journal of Food Quality, Westport, v. 28, p. 13-29, 2005. CHIATTONE, P. Oz?nio e ?cido asc?rbico na colora??o e microbiota da carne bovina maturada. 2006. 51f. Disserta??o (Mestrado em Ci?ncia e Tecnologia Agroindustrial) ? Departamento de Ci?nciae Tecnologia Agroindustrial, Universidade Federal de Pelotas, Pelotas, 2006. CHIOTTA, M.L.; PONSONE, M.L.; COMBINA, M.; TORRES, A.M.; CHULZE, S.N. Aspergillus section Nigri species isolated from different wine-grape growing regions in Argentina. International Journal of Food Microbiology. 136, 137?141, 2009. COLA?O, W.; FERRAZ, U.; ALBUQUERQUE, L. R. Incid?ncia de aflatoxinas em amendoim e produtos derivados consumidos na cidade de Recife, no per?odo de 1989 a 1991. Revista do Instituto Adolfo Lutz, v. 54, n. 1, p. 1-4, 1994. COMISS?O EUROP?IA. Directiva 98/53/CE da Comiss?o de 17 de Julho de 1998, Anexo II. Jornal Oficial das Comunidades Europ?ias, p. 93-101, 1998. CREPPY, E. E. Update of survey, regulation and toxic effects of mycotoxins in Europe. Toxicology Letters, Amsterdam, n. 1/2, p. 1-10, Jan. 2002. CULLEN, P.J.; TIWARI, B.K.; O?DONNELL, C.P.; MUTHUKUMARAPPA, K. Modelling approaches to ozone processing of liquid foods. Trends Food Science Technology, v. 20, p. 125-136, 2009. DANTIGNY, P.; GUILMART, A.; BENSOUSSAN, M. Basis of predictive mycology. International Journal of Food Microbiology. 100, 187?196, 2005. DI BERNARDO, L.; DANTAS, A. D. B. M?todos e t?cnicas de tratamento de ?gua. S?o Carlos: Editora Rima, 2005, p. 784. DE PINHO, L. M., & CEDRAZ, L. A. A import?ncia do oz?nio e seus efeitos no ambiente: propriedades, aplicabilidades e pol?ticas ambientais, 2011. Dispon?vel em: < http://www.webartigos.com/artigos/a-importancia-do-ozonio-e-seus-efeitos-noambiente/ 61258/>. Acesso em 14 Mai 2013. DOKO, M. B.; VISCONTI, A. Occurrence of fumonisins B1 and B2 in corn and corn-based human foodstuffs in Italy. Food Additives and Contaminants, v. 11, n. 4, p. 433-439, 1994. DOLLEAR, F.G.; MANN, G.E.; CODIFER, L.P.; GARDNER, H.K.; KOTLUN, S.P.J.R.; VIX, H.L.F. Elimination of aflatoxins from peanut meal. Journal of the American Oil Chemist?s Society, v. 45, p. 862?865, 1968. DWARAKANATH, C.T.; RAYNER, E.T.; MAN, G.E.; DOLLEAR, F.G. Reduction of aflatoxin levels in cottonseed and peanut meals by ozonization. Journal of American Oil Chemist?s Society, v. 45, p. 93-95, 1968. EC. European Commission. Comission Regulation N? 401/2006 of February 2006. Laying down the methods of sampling and analysis for the official control of the levels of mycotoxins in foodstuffs. Official Journal of the European Union, 2006. EFSA ? EUROPEAN FOOD SAFETY AUTHORITY. Opinion of the scientific committee on a request from EFSA related to a harmonized approach for risk assessment of substances which are both genotoxic and carcinogenic. EFSA Journal 282: 1-31, 2005. EFSA ? EUROPEAN FOOD SAFETY AUTHORITY. Opinion of the scientific panel on contaminants in the food chain on a request from the commission related to the potential increase of consumer health risk by a possible increase of the existing maximum levels for aflatoxins in almonds, hazelnuts and pistachios and derived products. EFSA Journal 446: 1- 127, 2007. EFSA ? EUROPEAN FOOD SAFETY AUTHORITY. Micotoxins. 2012. Disponivel em: <http://www.efsa.europa.eu/en/aboutefsa.htm> Acessado em: Mai., 2013. EL-DESOUKY, T. A., A. M. A. SHAROBA, A. I. EL-DESOUKY, AND H. A. EL-MANSY. ?Effect of Ozone Gas Degradation of Aflatoxin B1 and Aspergillus Flavus Fungal.? Journal of Environmental & Analytical Toxicology 02 (02): 1?6, 2012. EMBRAPA. Oz?nio: tecnologia limpa e segura no controle de pragas em gr?os armazenados. Dispon?vel em: <http://www.agronline.com.br/agronoticias/noticia.php?id=2437>. Acesso em 2 Jun 2013. ESCRICHE, I. et al. Effect of ozone treatment and storage temperature on physicochemical properties of mushrooms (Agaricus bisporus). International Food Science Technology, v. 7, n. 3, p. 251-258, 2001. EUROPEAN COMMISSION (EC) Regulation. Commission regulation. No. 1881/2006 of 19 December 2006. Setting maximum levels for certain contaminants in foodstuffs. Official Journal of the European Communities, p. 2-25, 2006. FAO. Almacenaje. 2004. Dispon?vel em: <http://www.fao.org> Acesso em 23 Set 2013. FAO. Food and Agriculture Organization of The United Nations. 1992. Maize in human nutrition. Online. Dispon?vel em: www.fao.org FAO. Food and Agriculture Organization of The United Nations. Maize in human nutrition, 1992. Online. Available at: www.fao.org FEDDERN, V.; DORS, G.C.; TAVERNARI, F.C.; MAZZUXO, H.; CUNHA, A.; KRABBE, E.; SHEUERMANN, G.N. Aflatoxins importance on animal nutrition. In: Aflatoxins ? recente advances and future prospects, cap.8, p.171-195, 2013. FERN?NDEZ-CRUZ, M.L.; MANSILLA, M.L.; TADEO, J.L. Mycotoxins in fruits and their processed products: Analysis, occurrence and health implications. Journal of Advanced Research, 1, 113?122, 2010. FERREIRA, H.; PITTNER, E.; SANCHES, H.F. Aflatoxinas: um risco ? sa?de animal. Ambi?ncia, v.2, n.1, p.113-127, 2006. FERREIRA P.; QUEIROZ V. A. V.; CONCEI??O R. R. P. da; MIGUEL R. A. de. Incid?ncia de aflatoxinas e fumonisinas em produtos de milho consumidos no Estado de Minas Gerais. Revista Brasileira de Milho e Sorgo, v. 12, n. 1, p. 54-60, 2013. FONSECA, H. Pequeno hist?rico das micotoxinas no mundo e no Brasil. In: MOLIM, R. & VALENTINI, M. L. Simp?sio sobre Micotoxinas em Gr?os. Funda??o Cargill/Funda??o ABC, S?o Paulo. 208 p. 1999. FRANKEN, M. S. The application of ozone technology for public health and industry. 2005. Food Safety & Security at Kansas State University. Dispon?vel em: <http://www.fss.kstate. edu>. Acesso em 11 Dez 2013. FREIRE, F. C. O.; KOZAKIEWICZ, Z.; PATERSON, R. R. M. Mycoflora and mycotoxins in Brazilian black pepper, white pepper and Brazil nuts. Mycopathologia, v. 149, n. 1, p. 13- 19, 2000. FREIRE, F.C.O.; VIEIRA, I.G.P.; GUEDES, M.I.F.; MENDES, F.N.P. Micotoxinas: Import?ncia na Alimenta??o e na Sa?de Humana e Animal. Documentos 110, Embrapa ? Agroind?stria Tropical, Fortaleza, 2007. 48p. FREITAS-SILVA, O.; VEN?NCIO, A. Supress?o de Aspergillus produtores de aflatoxinas e ?cido ciclopiazonico por oz?nio. Revista Ci?ncias Vida, v. 28, p. 198-200 (Suplemento). Edi??o do XIII Encontro Nacional de Micotoxinas, Rio de Janeiro, ago. 2008. FREITAS-SILVA, O; VEN?NCIO, A. Ozone applications to preventand degrade mycotoxins: a review. Drug Metabolism Reviews, 42: 612?20, 2010. FREITAS-SILVA, O.; MORALES-VALLE, H.; VEN?NCIO, A.. Potencial of aqueous ozone to control aflatoxigenic fungi in brazil nuts. ISRN Biotecnology, v. 2013, p. 1-6, 2013a. FREITAS-SILVA, O.; SOUZA, A. M.; OLIVEIRA, E. M. M. Potencial da ozoniza??o no controle de fitopat?genos em p?s-colheita. In: Luz, W. C, da. (org.). Revis?o anual de patologia de plantas. 1 ed. Passo Fundo: Gr?fica e Editora Padre Berthier dos Mission?rios da Sagrada Fam?lia, v. 21, p.96-130, 2013b. GIMENO, A.; MARTINS, M. L. Mycotoxinas y micotoxicosis en animales y humanos. 3. ed. Miame: Special Nutrients, 2011. 129 p. GIORDANO, B. N. E. Efeito do oz?nio sobre a micoflora e aflatoxinas durante a armazenagem de castanha-do-brasil com casca (Bertholletia excelsa H. B. K.). Florian?polis: UFSC, Disserta??o, 193 p., 2009. GL?RIA, E. M.; FONSECA, H.; SOUZA, I. M. Occurrence of mycotoxins in maize delivered to the food industry in Brazil. Tropical Science, v. 37, n. 1, 107-110, 1997. GORMAN, B. M. et al. Evaluation of hand-trimming, various sanitizing agents, and hot water spray-washing as decontamination interventions for beef brisket adipose tissue. Journal Food Protection, v. 58, n. 8, p. 899-907, 1995. GON?ALVES, A. A. Ozone: an emerging technology for the seafood industry. Brazilian Archives of Biology and Technology, Curitiba, v. 52, n. 6, p. 1527-1539, 2009. GON?ALVES, R. A., DOS SANTOS J. P.; TOM? P. H. F.; PEREIRA R. G. F. A.; ASCHERI J. L. R.; DE ABREU C. M. P. Rendimento e composi??o qu?mica de cultivares de milho em moagem a seco e produ??o de grits. Revista Ci?ncia e Agroecologia, Lavras, v. 27, n. 3, p. 643-650, mai./jun., 2003. GOULART, A.C.P.; FIALHO, W.F.B. Incid?ncia e controle de Fusarium moniliforme em sementes de milho. Informativo ABRATES, v.9, p.110, 1999. GRAHAM, D. M. Use of ozone for food processing. Food Technology, Chicago, v. 51, n. 6, p. 72-75, 1997. GUZEL-SEYDIM, Z. B. et al. Efficacy of ozone to reduce bacterial populations in the presence of food components. Food Microbiology, v. 21, n. 4, p. 475-479, 2004. GUZEL-SEYDIM, Z. B.; GREENE, A. K.; SEYDIM, A. C. Use of ozone in food industry. Swiss Society of Food Science and Technology. Lebensm-Wiss.u.-Technology, v. 37, p. 453-460, 2004. GWIRTZ, J. A., and M. N. GARCIA-CASAL. 2014. ?Processing Maize Flour and Corn Meal Food Products. Annals of the New York Academy of Sciences 1312: 66?75. HASHIMOTO, E.H.; SANTOS, M.A.; ONO, E.Y.S.; HAYASHI, C.; BRACARENSE, A.P.F.R.L.; HIROOKA, E.Y. Bromatologia e contamina??o com fumonisina e aflatoxina em ra??es utilizadas na piscicultura da regi?o de Londrina, Estado do Paran?, Brasil. Semina: Ci?ncias Agr?rias, Londrina, v. 24, n. 1, p. 123-132, jan./jun. 2003. HENNIGEN, M. R.; SANCHEZ, S.; DI BENEDETTO, N. M.; LONGHI, A.; TORROBA, J. E.; VALENTE SOARES, L. M. Fumonisin levels in commercial corn products in Buenos Aires, Argentina. Food Additives and Contaminants, v. 17, n. 1, p. 55-58, 2000a. HERMANNS, G.; PINTO, F.T.; KITAZAWA, S.E.; NOLL, I.B. Fungos e fumonisinas no per?odo pr?-colheita do milho. Ci?ncia e Tecnologia Alimentos, Campinas, 26(1): 7-10, jan.- mar. 2006. HIBBEN, C.R.; STOTZKY, G. Effects of ozone on the germination of fungus spores. Canadian Journal Microbiology, v. 15, p. 1187-1196, 1969. HORV?TH, M.; BILITZKY, L.; H?TTNER, J. Bactericidal, sterilizing and other effects in lower organisms. Ozone. Budapest: Science, 1985. cap. 3, p. 69-74. HUSSEIN, S.H.; BRASEL, J.M. Toxicity, metabolism, and impact of mycotoxins on humans and animals. Toxicology, v.167, n.2, p.101-134, out., 2001. IARC, International Agency for Research on Cancer. Monograph on the evaluation of carcinogenic risk to humans, World Health Organization, some chemicals that cause tumours of the kidney or urinary bladder in rodents and some other substances. In.: Summary of data reported and evaluation, v. 73, p.131-182, Lyon, 1999. IARC, International Agency for Research on Cancer. Monograph on the evaluation of carcinogenic risk to humans, World Health Organization, some traditional herbal medicines, some mycotoxins, naphthalene and styrene. In.: Summary of data reported and evaluation, v. 82, p. 171-175. Lyon, 2002. IBANOGLU, S. Wheat washing with ozonated water: effects on selected flour properties. International Journal of Food Science and Technology, v. 37, p. 579-584, 2002. IBGE ? INSTITUTO BRASILEIRO DE GEOGRAFIA E ESTAT?STICA. Pesquisa de Or?amentos Familiares (POF) 2008 ? 2009, Rio de Janeiro, 2011. IGLESIAS, S.C. Degradation and biodebradability enhancement of nitrobenzene and 2,4- dichlorophenol by means of advanced oxidation processes based on ozone. 2002. 322f. Tese (Doutorado em Engenharia Qu?mica) Universidade de Barcelona, Barcelona, 2002. INSTITUTO ADOLFO LUTZ. M?todos f?sico-qu?micos para an?lise de alimentos. 4a ed., cap. CCIV ? Micotoxinas, p. 759-801, 2008. INMETRO - Instituto Nacional de Metrologia, Normaliza??o e Qualidade Industrial. Orienta??es sobre valida??o de m?todos de ensaios qu?micos. DOQ-CGCRE-008, mar. 2003. 35 p. IPCS. International Programme on Chemical Safety. Environmental Health Criteria 240 - Principles and methods for the Risk Assessment on Chemicals in Food. WHO Press: 2009. Dispon?vel em: http://www.who.int/ipcs/publications/ehc/en/index.html. Acesso em 16 de abril de 2017. JAKSCH, D.; MARGESIN, R.; MICOVINY, T. The effect of ozone treatment on the microbial contamination of pork meat measured by detecting the emissions using PTR-MS and by enumeration of microorganisms. International Journal Mass Spectrometry,v. 239, p. 239-214, 2004. JARDIM, A. N. O.; CALDAS, E. D. Exposi??o humana a subst?ncias qu?micas Potencialmente t?xicas na dieta e os riscos para sa?de. Qu?mica Nova, v. 32, n. 7, p. 1898? 1909, 2009. JECFA. Joint FAO/WHO expert committee on food additives - evaluation of certain food additives and contaminants: forty-ninth report of the join FAO/WHO expert committee on food additives. Geneva: WHO technical report series; n. 884, 1999. JECFA. Joint FAO/WHO Expert Commttee on Food Additives - Evaluation of certain food contaminants: sixty-fourth report of the Joint FAO/WHO Expert Committee on Food Additives. Geneva: WHO technical report series; n. 930, 2006. JEWERS, K. Mycotoxins and their effect on poultry production. Options M?diterran?ennes, S?r. A., n.7, p.196-202, 1990. KAWASHIMA, L. M.; SOARES, L. M. V. Incid?ncia de fumonisina B1, aflatoxinas B1, B2, G1 e G2, ocratoxina A e zearalenona em produtos de milho. Ci?ncias Tecnol?gica Alimentos, Campinas, v.26, n.35, p.516- 521, jul./set. 2006. KELLER, K.M; QUEIROZ, B. D.; KELLER, L. A. M.; CAVAGLIERI, L.R.; PEREYRA,M.L.G.; DALCERO, A.M.; ROSA, C.A.R. The mycobiota and toxicity of equine feeds. Veterinary Research Communications, v. 31, n. 8, p. 1037-1045, 2007. KELLS, S., MASON, L.J., MAIER, D.E., WOLOSHUK, C.P. Efficacy and fumigation characteristics of ozone in stored maize. Journal of Stored Products Research 37, 371?382, 2001. KHADRE, M. A.; YOUSEF, A. E. Decontamination of a multilaminate aseptic food packaging material and stainless steel by ozone. Journal Food Safety, v. 21, n. 1, p.1-13, 2001. KHADRE, M. A.; YOUSEF, A. E. Sporicidal action of ozone and hydrogen peroxide: a comparative study. International Journal Food Microbiology, v. 71, n. 2-3, p. 131-138, 2001. KHADRE, M.A.; YOUSEF, A.E.; KIM, J.G. Microbiological Aspects of Ozone Applications in Food: A Review. Journal of Food Science. v. 66, n.9, p. 1242-1252, nov., 2001. KIM, J.G; YOUSEF, A.E.; DAVE, S. Application of ozone for enhancing the microbiological safety and quality of foods: a review. Journal of Food Protection, v. 62, n. 9, p. 1071-1087, 1999. KLICH, M.A. Aspergillus flavus: the major producer of aflatoxin. Molecular Plant Pathology, v.8, p.713?722, 2007. KOMANAPALLI, I. R.; LAU, B. H. S. Inactivation of bacteriophage 1, Escherichia coli, and Candida albicans by ozone. Applied Microbiology and Biotechnology, Berlin, v. 49, p. 766? 769, 1998. KUIPER-GOODMAN, T. Mycotoxins: risk assessment and legislation. Toxicology Letters, v. 82/83, p. 853-859, 1995. LANGLAIS, B.; RECKHOW, D. A.; BRINK, D. R.; Ozone in Water Treatment. Application and Engineering. Lewis Publishers. Michigan: Chelsea, 1991. LAPOLLI, F.R.; SANTOS, L.F.; H?SSEMER, M.E.N.; AISSE, M.M.; PIVELI, R.P. Desinfec??o de efluentes sanit?rios por meio da ozoniza??o. In. GON?ALVES, R. F. (Coord.). Desinfec??o de efluentes sanit?rios, remo??o de organismos pat?genos e subst?ncias nocivas: aplica??o para fins produtivos como agricultura, aq?icultura e hidrop?nica, p.169- 208, 2003. LAZZARI, F. A. Umidade, fungos e micotoxinas na qualidade de sementes, gr?os e Ra??es. 2. ed. Curitiba: Ed. do Autor, 1997. LERAYER, A.; MARQUES, D. Guia do Milho: Tecnologia do campo ? mesa. Conselho de informa??es sobre Biotecnologia. Jul. 2006. Dispon?vel em: http://www.cib.org.br/pdf/guia_do_milho_CIB.pdf Acesso em: 10/05/2016. LEUNG, M. C. K.; DIAZ-LLANO, G.; SMITH, T. K. Mycotoxins in pet food: a review on worldwide prevalence and preventative strategies. Journal of Agricultural and Food Chemistry, v. 54, p. 9.623-9.635, 2006. LUO, X.; WANG, R.; WANG, L.; LI, Y.; BIAN, YUANYUAN, B.; CHEN, Z. Effect of ozone treatment on aflatoxin B1 and safety evaluation of ozonized corn. Food Control, v. 37, p. 171-76, 2014. LUO, XIAOHU, R. WANG, L. WANG, Y. LI, Y. WANG, Z. CHEN. ?Detoxification of Aflatoxin in Corn Flour by Ozone.? Journal of the Science of Food and Agriculture. 2013. MACHINSKI JR, M.; VALENTE SOARES, L. M. Fumonisins B1 and B2 in Brazilian cornbased food products. Food Additives and Contaminants, v. 17, n. 10, p. 875-879, 2000. MACHINSKI JR, M.; VALENTE SOARES, L. M.; SAWAZAKI, E.; BOLONHEZI, D.; CASTRO, J. L.; BORTOLLETO, N. Aflatoxins, ochratoxin A and zearalenone in Brazilian corn cultivars. Journal of the Science of Food and Agriculture, v. 81, n. 10, p. 1001-1007, 2001. MAGAN, N.; ALDRED, D. Post-harvest control strategies: Minimizing mycotoxins in the food chain. International Journal of Food Microbiology, v.119, p.131-139, 2007. MALLMANN C. A.; ALMEIDA C. A. A.; MOSTARDEIRO C. Automation of the analytical procedure for simultaneous determination of aflatoxins AFB1, AFB2, AFG1 and AFG2. In: Congresso Internacional de Micotoxinas e Phicotoxinas, S?o Paulo, 2000. MANCUSO, P. C.; SANTOS, H. Tecnologia de reuso de ?gua. Re?so de ?gua. Barueri, SP: Manole, 2003. p. 314-316. MANOUSARIDIS, G. A. et al. Effect of ozone on microbial, chemical and sensory attributes of shucked mussels. Food Microbiology, v. 22, n. 1, p. 1-9, 2005. MAPA. Minist?rio da Agricultura, Pecu?ria e Abastecimento do Brasil. Instru??o Normativa n? 62 de agosto de 2003, 2003. MATTOS A. ARRUDA de; ARA?JO E. S.; ARAG?O S. F.; FOOK S. M. L.; VIEIRA K. V. M.; MEIRA C. M. B. S.; SANTIAGO A. M. Qualidade dos gr?os de milho utilizados em uma ind?stria aliment?cia de Campina Grande ? PB, no per?odo de 2004-2005. Revista Brasileira de Toxicologia 22, n. 1-2 34-41, 2009. MAZIERO, M.T.; BERSOT, L.S. Micotoxinas em alimentos produzidos no Brasil. Revista Brasileira de Produtos Agroindustriais, Campina Grande, v.12, n.1, p.89-99, 2010. MCKENZIE K.S., SARR, A.; MAYURA, K.; BAILEY, R.H.; MILLER, D.R.; ROGERS, T.D.; NORRED, W.P.; VOSS, K.A.; PLATTNER, R.D.; PHILLIPS, T.D. Chemical degradation of diverse mycotoxins using a novel method of ozone production. Food Chemistry Toxicology, v. 35, p. 807?20, 1997. MCKENZIE, K. S.; KUBENA, L. F.; DENVIR, A. J.; ROGERS, T. D.; HITCHENS, G. D.; BAILEY, R. H.; HARVEY, R. B.; BUCKLEY, S. A.; PHILLIPS, T. D. Aflatoxicosis in turkey poults is prevented by treatment of naturally contaminated corn with ozone generated by electrolysis. Poultry Science, v.77, p.1094-1102, 1998. MENDEZ, F MAIER, D.E MASON, L.J WOLOSHUK, C.P. Penetration of ozone into columns of stored grains and effects on chemical composition and processing performance. Journal of Stored Products Research, v. 39 (1), p. 33-44, 2003. M?DIO, A. F.; MARTINS, D. I. Toxicologia de Alimentos. S?o Paulo: Varela, 2000. MORAES, S.G.; FREIRE, R.S.; DUR?N, N. Degradation and tocixity reduction of textile effluent by combined photocatalytic and ozonation processes. Chemosphere, v. 40, p. 369- 373, 2000. MORAES, V. B. Efeito do res?duo da moagem ? seco de milho, micropulverizado no metabolismo lip?dico, na glicemia e na composi??o corporal em ratos alimentados com dieta da cafeteria. Disserta??o (Mestrado em Ci?ncia da Nutri??o) ? Universidade Federal de Vi?osa, Vi?osa, 64 f., 2009. MORENO, E.C.; GARCIA, G.T.; ONO, M.A.; VIZONI, E.; KAWAMURA, O.; HIROOKA, E.Y.; ONO, E.Y.S. Co-occurrence of mycotoxins in corn samples from the Northern regionof Paran? State, Brazil. Food Chemistry, 116, 220?226, 2009. MURATORI, M.C.S., PEREIRA, M.M.G., COSTA, A.P.R., MACHADO JUNIOR, A.A.N., SANTOS, J.D.F., LOPES, J.B., MACHADO, F.C.F. Contamina??o f?ngica em ra??es para camar?es cultivados Comunicata Scientiae 4(1): 85-90, 2013. MYLONA K, KOGKAKI E, SULYOK M, MAGAN N. Efficacy of gaseous ozone treatment on spore germination, growth and fumonisin production by Fusarium verticillioides invitro and in situ in maize. Journal of Stored Products Research, vol. 59, pp. 178-184, 2014. NAJAFI, M. B.; KHODAPARAST, M. H. H. Efficacy of ozone to reduce microbial populations in date fruits. Food Control, Oxford, v. 20, n. 1, 27-30, 2009. NAITO, S; TAKAHARA, H. Ozone Contribution In Food Industry In Japan. Ozone: Science and Engeneering, v. 28, p. 425-429, 2006. NAMA. North American Millers Association. 2014. Corn Milling Process. Online. Dispon?vel em: www.namamillers.org/education/corn-milling-process NUNES, E.M.C.G. Microbiota F?ngica nos Ingredientes e em Ra??o para Piscicultura. 2009. 58 f. Disserta??o (Mestrado em Ci?ncia Animal) ? P?s Gradua??o em Ci?ncia Animal, Universidade Federal do Piau?, Teresina. NUSS, E. T., S. A. TANUMIHARDJO. ?Quality Protein Maize for Africa: Closing the Protein Inadequacy Gap in Vulnerable Populations.? Advances in Nutrition: An International Review Journal, 2 (3): 217?24, 2011. OGIDO, R.; OLIVEIRA, C.A.; LEDOUX, D.R. Effects of prolonged administration of aflatoxins B1 and fumonisin B1 in laying Japanese quail. Poultry Science, v.83, p.1953- 1958, 2004. OLIVEIRA, C.A.F.; SEBASTI?O, L.S.; FAGUNDES, H.; ROSIM, R.E.; FERNANDES, A.M. Determina??o de aflatoxina B1 em ra??es e aflatoxina M1 no leite de propriedades do Estado de S?o Paulo. Ci?ncia e Tecnologia de Alimentos, v.30, n.1, p.221-225, mai., 2010. OLIVEIRA, C.A.F.; SEBASTI?O, L.S.; ROSIM, R.E.; FAGUNDES, H.; FERNANDES, A.M. Ocorr?ncia simult?nea de aflatoxina e ?cido ciclopiaz?nico em ra??es para vacas leiteiras. Revista Analytica. Agosto/Setembro, 24, 88-92, 2006. OLIVEIRA, V.; MESQUITA, A. J.; SERAFINI, A. B.; RIBEIRO, J. L.; SILVA, M. R. R. Ocorr?ncia de aflatoxinas B1e B2 em amendoim comercializado em Goi?nia, GO, Brasil. Revista de Microbiologia, v. 23, n. 4, p. 319-322, 1991. OLIVEIRA T. R. de; BARANA A. C.; JACCOUD-FILHO D. de S.; NETO F. F. Avalia??o da contamina??o por aflatoxinas totais e zearalenona em variedades de milho crioulo (Zea mays L.) atrav?s do m?todo imunoenzim?tico ELISA. Revista Brasileira de Tecnologia Agroindustrial. ISSN: 1981-3686, v. 04, n. 02: p. 179-185, 2010. ORSI, R. B.; CORREA, B.; POZZI, C. R.; SCHAMMAS, A. E.; NOGUEIRA, J. R.; DIAS, S. M. C.; MALOZZI, M. A. B. Mycoflora and occurrence of fumonisins in freshly harvested and stored hybrid maize. Journal of Stored Products Research, v. 36, n. 1, p. 75-87, 2000. ORTOLAN, F.; HECKTHEUER, L.H., MIRANDA, M.Z. Efeito do armazenamento ? baixa temperatura (-4 ?C) na cor e no teor de acidez da farinha de trigo. Ci?ncia e Tecnologia de Alimentos, v. 30, n. 1, p. 55-59, 2010. PALOU, L.; SMILANICK, J.L.; CRISOSTO, C.H.; MANSOUR, M. Effect of gaseous ozone exposure on the development of green and blue moulds on cold stored citrus fruit. Plant Disease, v. 85, p. 632?638, 2001. PARK, D.L. Perspectives on mycotoxin decontamination procedures. Food Additives and Contaminants, v. 10, n. 1, p. 49-60, 1993. PATIL, S.; BOURKE, P.; FRIAS, J. M.; TIWARI, B. k.; CULLEN, P. J. Inactivation of Escherichia coli in orange juice using ozone. Innovative Food Science & Emerging Technologies, Amsterdam, v. 10, n. 4, p. 551-557, 2009. PIETSCH, C.; KERSTEN, S.; BURKHARDTHOLM, P.; VALENTA, H.; DANICKE, S. Occurrence of deoxynivalenol and zearalenone in commercial fish feed: an initial study. Toxins, v.5, p.184-192, 2013. PITT, J. I.; HOCKING, A. D. Fungi and Food Spoilage. 3. ed. New York: Springer Science + Business Media, 2009. PEREIRA, M. M. G.; CARVALHO, E.P.; PRADO, G.; ROSA, C.A.R.; VELOSO, T.; SOUZA, L.A.F.; RIBEIRO, J.M.M. Aflatoxinas em alimentos destinados a bovinos e em amostras de leite da regi?o de Lavras, Minas Gerais ? Brasil, Ci?ncia e Agrotecnologia, v. 29, n. 1, p.106-112, 2005. POHLMAN, F. W.; STIVARIUS, M.R.; MCELYEA, K.S.; JONHSON, Z.B.; JONHSON, M.G. The effects of Ozone, chlorine dioxide, cetylpyridinium chloride and trisodium phosphate as multiple antimicrobial interventions on microbiological, instrumental color, and sensory color and odor cha |
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