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References
|
Adams RP (2007). Identification of essential oils components by gás chromatography/mass spectrometry. 4. ed Carol Stream: Allured Publishing Corporation, 804. |
|
|
Al-Bayati, FA (2008). Synergistic antibacterial activity between Thymus vulgaris and Pimpinella anisum essential oils and methanol extracts. J. Ethnopharmacol. 116(3):403-406. |
|
|
Boari CA, Alves MP, Tebaldi VMR, Savian, TV, Piccoli RH (2009). Biofilm formation by Aeromonas hydrophila and Staphylococcus aureus on stainless steel using milk and different conditions of cultivation. Ciênc. Tecnol. Aliment. 29:886-895. |
|
|
Brugnera DF (2011). Ricotta: microbiological quality and use of spices in the control of Staphylococcus aureus. 106 p. Dissertation (Master's in Food Science) – University of Lavras, Lavras, Brazil. |
|
|
Ceylan E, Fung DYC (2004). Antimicrobial activity of spices. J. Rapid Methods Autom. Microbiol. 12:1-55. |
|
|
Chang ST, Chen PF, Chang SC (2001). Antibacterial activity of leaf essential oils and their constituents from Cinnamomum osmophloeum. J. Ethnopharmacol. 77:123-127. |
|
|
Chen MJ, Zhang Z, Bott TR (2005). Effects of operating conditions on the adhesive strength of Pseudomonas fluorescens biofilms in tubes. Colloids Surf. B. 43:61-71. |
|
|
Chmielewski RAN, Frank JF (2003). Biofilm formation and control in food processing facilities. Comp. Rev. Food Sci. Food Saf. 2:22-32. |
|
|
Cucarella C, Solano C, Valle J, Amorena B, Lasa I, Penades JR (2001). Bap a Staphylococcus aureus surface involved in biofilm formation. J. Bacteriol. 183:2888-2896. |
|
|
Dorman HJ, Deans SG (2000). Antimicrobial agents from plants: antibacterial activity of plant volatile oils. J. Appl. Microbiol. 2(88):308-316. |
|
|
Fabio A, Cermelli C, Fabio G, Nicoletti P, Quaglio P (2007). Screening of the antibacterial effects of a variety of essential oils on micro-organisms responsible for respiratory infections. Phytother. Res. 21(4):374-377. |
|
|
Ferreira DF (2008). SISVAR - System analysis of variance for balanced data: Program analysis statistics and design of experiments. Version 4.6. Software. Lavras: DEX/UFLA. Rev. Symp. 6:36-41. |
|
|
Flach J, Karnopp C (2005). Biofilms formed on raw materials on contact with milk: factors virulence involved. Acta Sci. Vet. 33:291-296. |
|
|
Garrett TR, Bhakoo M, Zhang, Z (2008). Bacterial adhesion and biofilms on surfaces. Prog. Nat. Sci. 18:1049-1056. |
|
|
Gilbert P, Mcbain AJ, Rickard AH (2003). Formation of microbial biofilm in hygienic situations: a problem of control. Int. Biodeterior. Biodegrad. 51:245-248. |
|
|
Gill AO, Holley RA (2006). Disruption of Escherichia coli, Listeria monocytogenes and Lactobacillus sakei cellular membranes by plant oil aromatics. Int. J. Food Microbiol. 108:1-9. |
|
|
Gobbo-Neto L, Lopes NP (2007). Medicinal plants: factors.influence on the content of secondary metabolites. Quim. Nov. 30:374 381. |
|
|
Govaris A, Solomakos N, Pexara A, Chatzopoulou PS (2010). The antimicrobial effect of oregano essential oil, nisin and their combination against Salmonella enteritidis in minced sheep meat during refrigerated storage. Int. J. Food Microbiol. 137:175-180. |
|
|
Gutierrez J, Barry-Ryan C, Bourke P (2009). Antimicrobial activity of plant essential oils using food model media: efficacy, synergistic potential and interactions with food components. Food Microbiol. 26:142-150. |
|
|
Harpaz S, Glatman L, Drabkin V, Gelman A (2003). Effects of herbal essential oils used to extend the shelf life of freshwater-reared Asian sea bass fish (Lates calcarifer). J. Food Prot. 66(3):410-417. |
|
|
Joseph B, Ottas SK, Karunasagar I (2001). Biofilm formation by Salmonella spp. On food contact surfaces and their sensitivity to sanitizers. Int. J. Food Microbiol. 64:367-372. |
|
|
Kalemba D, Kunicka A (2003). Antibacterial and antifungal proprieties of essential oils. Curr. Med. Chem. 10:813-829. |
|
|
Manfio GP (2003). Review the state of knowledge of the biological diversity of Brazil. Microbiota. Multidisciplinary Center for Chemical, Biological and Agricultural/CPQBA. Division of Microbial Resources, UNICAMP, Brazil. |
|
|
Meylheuc T, Methivier C, Renault M, Herry JM, Pradier CM, Bellon-Fontaine MN (2006). Adsorption on stainless steel surfaces of biosurfactants produced by gram-negative and gram-positive bacteria: consequence on the bioadhesive behavior of Listeria monocytogenes. Colloids Surf. B. 52:128-137. |
|
|
NCCLS, National Committee for Clinical Laboratory Standards (2003). Methods for dilution antimicrobial susceptibility tests for bacteria that grow aerobically. Approved standard M7-A6, Wayne, Pa, USA. |
|
|
Ogunwande IA, Olawore NO, Ekundayo O, Walker TM, Schmidt JM, Setzer WN (2005). Studies on the essential oils composition, antibacterial and cytotoxicity of Eugenia uniflora. L. Int. J. Aromather. 15(3):147-152. |
|
|
Oliveira MMMD, Brugnera DF, Cardoso MDG, Alves E, Piccoli RH (2010). Disinfectant action of Cymbopogon sp. essential oils in different phases of biofilm formation by Listeria monocytogenes on stainless steel surface. Food Control 21:549‑553. |
|
|
Oulahal N, Brice W, Martial A, Degraeve P (2008). Quantitative analysis of survival of Spaphylococcus aureus or Listeria innocua on two types of surfaces: Polypropylene e strainless steel in contact with three different dairy products. Food Control 19:178-185. |
|
|
R Development Core Team (2004). R: a language and environment for statistical computing. Viena: R Foundation for Statistical Computing, 2004. http://www.R-project.org. Accessed 10 Jul 2013. |
|
|
Ribeiro-Furtini LL (2005). Characterization and isolation of adhering microorganisms in dairy tubing and its behavior toward detergency. Thesis (Ph.D. in Food Science) - University of Lavras, Lavras, Brazil. 80 p. |
|
|
Rossoni EMM, Gaylarde CC (2000). Comparison of sodium hypochlorite and peracet acid as sanitising agents for stainless steel food processing surfaces using epifluorescence microscopy. Int. J. Food Microbiol. 61:81-85. |
|
|
Schaffer C, Messner P (2005). The structure of secondary cell wall polymers: how gram-positive bacteria stick their cell walls together. Microbiology 151:643-651. |
|
|
Shafahi M, Vafai K (2009). Bioï¬lm affected characteristics of porous structures. Int. J. Heat Mass Transf. 52:574-581. |
|
|
Sheng X, Ting YP, Pehkonem SO (2007). Force measurements of bacterial adhesion on metals using a cell probe atomic force microscope. J. Colloid Interface Sci. 310:661-669. |
|
|
Shi X, Zhu X (2009). Biofilm formation and food safety in food industries. Trends Food Sci. Technol. 20:407-413. |
|
|
Van der Mei HC, Van de Belt-Gritter B, Pouwels PH, Martinez B, Busscher HJ (2003). Cell surface hidrophobicity is conveyed by S-layer proteins: a study in recombinant lactobacilli. Colloids Surf. B. 28(2):127-134. |
|
|
Van Houdt R, Michiels CW (2005). Role of bacterial cell surface structure in Escherichia coli biofilm formation. Res. Microbiol. 156:626-633. |
|
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