Adhesion of Salmonella Enteritidis to stainless steel surfaces

Oliveira, Kelly Mari Pires de; Oliveira, Tereza; Teixeira, P.; Azeredo, Joana; Oliveira, Rosário

doi:10.1590/s1517-83822007000200026

Cited by 43 publications

(31 citation statements)

References 41 publications

(41 reference statements)

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“…However, for the other bacteria, no correlation was found between cell surface hydrophobicity and their ability to adhere to PS. This fact is corroborated by other studies (Oliveira et al 2007;Sousa et al 2009), likely due to the multiplicity of parameters involved in the adhesion process being influenced both by biological and environmental factors. Also, it is perceptible that the zeta potential differences do not influence the adhesion process.…”

Section: Discussionsupporting

confidence: 85%

Adhesion and biofilm formation on polystyrene by drinking water-isolated bacteria

Simões

Vieira

2010

Antonie van Leeuwenhoek

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This study was performed in order to characterize the relationship between adhesion and biofilm formation abilities of drinking water-isolated bacteria (Acinetobacter calcoaceticus, Burkholderia cepacia, Methylobacterium sp., Mycobacterium mucogenicum, Sphingomonas capsulata and Staphylococcus sp.). Adhesion was assessed by two distinct methods: thermodynamic prediction of adhesion potential by quantifying hydrophobicity and the free energy of adhesion; and by microtiter plate assays. Biofilms were developed in microtiter plates for 24, 48 and 72 h. Polystyrene (PS) was used as adhesion substratum. The tested bacteria had negative surface charge and were hydrophilic. PS had negative surface charge and was hydrophobic. The free energy of adhesion between the bacteria and PS was[ 0 mJ/m 2 (thermodynamic unfavorable adhesion). The thermodynamic approach was inappropriate for modelling adhesion of the tested drinking water bacteria, underestimating adhesion to PS. Only three (B. cepacia, Sph. capsulata and Staphylococcus sp.) of the six bacteria were non-adherent to PS. A. calcoaceticus, Methylobacterium sp. and M. mucogenicum were weakly adherent. This adhesion ability was correlated with the biofilm formation ability when comparing with the results of 24 h aged biofilms. Methylobacterium sp. and M. mucogenicum formed large biofilm amounts, regardless the biofilm age. Given time, all the bacteria formed biofilms; even those non-adherents produced large amounts of matured (72 h aged) biofilms. The overall results indicate that initial adhesion did not predict the ability of the tested drinking water-isolated bacteria to form a mature biofilm, suggesting that other events such as phenotypic and genetic switching during biofilm development and the production of extracellular polymeric substances (EPS), may play a significant role on biofilm formation and differentiation. This understanding of the relationship between adhesion and biofilm formation is important for the development of control strategies efficient in the early stages of biofilm development.

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Section: Discussionsupporting

confidence: 85%

Adhesion and biofilm formation on polystyrene by drinking water-isolated bacteria

Simões

Vieira

2010

Antonie van Leeuwenhoek

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“…In a number of experimental studies, the ability of Salmonella to form BF on a variety of materials such as concrete, glass (Prouty and Gunn, 2003), cement (Joseph et al, 2001), stainless steel (Oliveira et al, 2007), plastic (Stepanović et al, 2004;Solomon et al, 2005), granite and rubber (Arnold and Yates, 2009) was confirmed (Solano et al, 2002;Steenackers et al, 2012). Salmonella spp.…”

Section: B I O F I L M F O R M I N G C a Pa C I T Y O F Salmonella Spmentioning

confidence: 98%

Salmonella spp. in poultry: a constant challenge and new insights

Velhner

Milanov

Kozoderović

2018

J Hellenic Vet Med Soc

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ABSTRACT. The knowledge about virulence mechanisms, resistance to antimicrobial agents and the biofilm formation ability of Salmonella spp. in poultry industry has been expanded over the years. However, in spite of the research efforts and significant investments to improve management systems in poultry industry, it has become evident that none of the methods applied in all stages of food production chain are 100% effective in eliminating Salmonella spp. Different serovars are manifesting different mechanisms of invasiveness which depend on their ability to invade lower zones of the lamina propria, their ability to gain accesses to parenchymatous organs and survive in macrophages. The ubiquitous nature of Salmonella spp. due to their adaptation to animal and plant hosts, as well as their survival in hostile environments and their enhanced capacity to produce biofilms, contribute to a long lasting contamination of the environment, feed and animals. The emergency and spread of antimicrobial resistances in Salmonella spp. raise additional concerns.

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“…However, the coating of IONPs with GC enhanced water solubility, and thus, the hydrophilic nature of GC-coated IONPs may significantly contribute to their antibacterial action, as the hydrophobic interaction between a microorganism and a substrate would facilitate microbial adhesion and proliferation [22,33]. It has been well documented that the bacterial adhesion can be markedly enhanced when both bacterial and adherent surfaces are hydrophobic, but the adhesion is hindered if both surfaces are hydrophilic [32,33]. In a recent study dealing with the bacterial adhesion on hydrophobic polystyrene and hydrophilic glass surfaces, Mafu et al [34] demonstrated that the adhesions of E. coli O157:H7, S. enteritidis and S. aureus were thermodynamically favorable on the former, but not on the latter surface.…”

Section: Antibacterial Activitymentioning

confidence: 99%

Synthesis, characterization and antibacterial activity of superparamagnetic nanoparticles modified with glycol chitosan

Inbaraj

Tsai

Chen

2012

Science and Technology of Advanced Materials

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Iron oxide nanoparticles (IONPs) were synthesized by coprecipitation of iron salts in alkali media followed by coating with glycol chitosan (GC-coated IONPs). Both bare and GC-coated IONPs were subsequently characterized and evaluated for their antibacterial activity. Comparison of Fourier transform infrared spectra and thermogravimetric data of bare and GC-coated IONPs confirmed the presence of GC coating on IONPs. Magnetization curves showed that both bare and GC-coated IONPs are superparamagnetic and have saturation magnetizations of 70.3 and 59.8 emu g −1 , respectively. The IONP size was measured as ∼ 8-9 nm by transmission electron microscopy, and their crystal structure was assigned to magnetite from x-ray diffraction patterns. Both bare and GC-coated IONPs inhibited the growths of Escherichia coli ATCC 8739 and Salmonella enteritidis SE 01 bacteria better than the antibiotics linezolid and cefaclor, as evaluated by the agar dilution assay. GC-coated IONPs showed higher potency against E. coli O157:H7 and Staphylococcus aureus ATCC 10832 than bare IONPs. Given their biocompatibility and antibacterial properties, GC-coated IONPs are a potential nanomaterial for in vivo applications.

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Adhesion of Salmonella Enteritidis to stainless steel surfaces

Cited by 43 publications

References 41 publications

Adhesion and biofilm formation on polystyrene by drinking water-isolated bacteria

Adhesion and biofilm formation on polystyrene by drinking water-isolated bacteria

Salmonella spp. in poultry: a constant challenge and new insights

Synthesis, characterization and antibacterial activity of superparamagnetic nanoparticles modified with glycol chitosan

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