Effect of Different Concentrations of<i>Ortho</i>-phthalaldehyde on Biofilms Formed by<i>Pseudomonas fluorescens</i>Under Different Flow Conditions

Simões, Manuel; Vieira, M. J.

doi:10.1080/0892701031000153398

Cited by 26 publications

(38 citation statements)

References 24 publications

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“…These data suggest that while flow cell geometry affected the biofilm surface coverage and thickness of the biofilm, it also adversely affected the susceptibility of the biofilms to commonly utilized antibiotics. A study by Simo˜es et al (2003) reported that under laminar flow 722…”

Section: Discussionmentioning

confidence: 99%

The influence of flow cell geometry related shear stresses on the distribution, structure and susceptibility ofPseudomonas aeruginosa01 biofilms

2009

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The effects of non-uniform hydrodynamic conditions resulting from flow cell geometry (square and rectangular cross-section) on Pseudomonas aeruginosa 01 (PAO1) biofilm formation, location, and structure were investigated for nominally similar flow conditions using a combination of confocal scanning laser microscope (CSLM) and computational fluid dynamics (CFD). The thickness and surface coverage of PAO1 biofilms were observed to vary depending on the location in the flow cell and thus also the local wall shear stress. The biofilm structure in a 5:1 (width to height) aspect ratio rectangular flow cell was observed to consist mainly of a layer of bacterial cells with thicker biofilm formation observed in the flow cell corners. For square cross-section (1:1 aspect ratio) flow cells, generally thicker and more uniform surface coverage biofilms were observed. Mushroom shaped structures with hollow centers and wall breaks, indicative of 'seeding' dispersal structures, were found exclusively in the square cross-section tubes. Exposure of PAO1 biofilms grown in the flow cells to gentamicin revealed a difference in susceptibility. Biofilms grown in the rectangular flow cell overall exhibited a greater susceptibility to gentamicin compared to those grown in square flow cells. However, even within a given flow cell, differences in susceptibility were observed depending on location. This study demonstrates that the spanwise shear stress distribution within the flow cells has an important impact on the location of colonization and structure of the resultant biofilm. These differences in biofilm structure have a significant impact on the susceptibility of the biofilms grown within flow channels. The impact of flow modification due to flow cell geometry should be considered when designing flow cells for laboratory investigation of bacterial biofilms.

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Section: Discussionmentioning

confidence: 99%

The influence of flow cell geometry related shear stresses on the distribution, structure and susceptibility ofPseudomonas aeruginosa01 biofilms

2009

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“…Ten measurements were made (with a magnifying lens to detect the upper and lower limits of the biofilm) at random points on each coupon and the average value was determined. The dry weight of the biofilm was determined by the total volatiles solids (TVS) of the homogenised biofilm suspensions according the procedure described by Simoes et al (2003). For cell enumeration, coupons were immersed in saline solution and biofilms were scraped using a sterile scalpel and homogenized in a vortex for 1 min.…”

Section: 8mentioning

confidence: 99%

Disinfection with neutral electrolyzed oxidizing water to reduce microbial load and to prevent biofilm regrowth in the processing of fresh-cut vegetables

Machado

Meireles

Fulgêncio

et al. 2016

Food and Bioproducts Processing

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Product decontamination is one of the most important processes of the hygienic practice in food industries such as Minimally Processed Vegetables (MPV) plants and sodium hypochlorite (NaOCl) solutions are commonly used as a biocide for disinfection. Although it may be corrosive and irritating when compared to alternative biocides, this biocide is frequently applied at high concentrations. This work aims at studying the use of lower concentrations of chlorine by testing neutral electrolyzed oxidizing water (NEOW) as a chlorine-source disinfectant in fresh-cut salad processing. Assays were performed at industrial and laboratory scale. Results showed that lower doses of chlorine from NEOW (30 ppm) are as effective as higher concentrations of the traditional chlorine from NaOCl (80 ppm) in the reduction of total microbial population at industrial scale. Moreover, in laboratory studies, the NEOW chlorine was also more effective in biofilm eradication, as well as a biofilm preventive agent. NEOW can thus be a successful alternative water disinfection technique, reducing the free chlorine concentration needed to sanitize salads, also decreasing water consumption whilst taking into account environmental and food quality impacts.

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“…Consequently, the treatment of biofilm-associated infections poses severe challenges. A perhaps subtle, but nevertheless important complicating factor, as observed by several researchers, is that the development, morphology, and susceptibility of biofilms are affected by the surrounding flow environment and, in particular, the local hydrodynamic shear stresses acting on the fluid-biofilm interface (Simoes et al, 2003;Tsai, 2005;Paris et al, 2006;Salek et al, 2009a).…”

Section: Introductionmentioning

confidence: 99%

Staphylococcus aureusbiofilm formation and tolerance to antibiotics in response to oscillatory shear stresses of physiological levels

Kostenko¹,

Salek²,

Sattari³

et al. 2010

FEMS Immunol Med Microbiol

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Bacterial infections in the blood system are usually associated with blood flow oscillation generated by some cardiovascular pathologies and insertion of indwelling devices. The influence of hydrodynamically induced shear stress fluctuations on the Staphylococcus aureus biofilm morphology and tolerance to antibiotics was investigated. Fluctuating shear stresses of physiologically relevant levels were generated in wells of a six-well microdish agitated by an orbital shaker. Numerical simulations were performed to determine the spatial distribution and local fluctuation levels of the shear stress field on the well bottom. It is found that the local biofilm deposition and morphology correlate strongly with shear stress fluctuations and maximum magnitude levels. Tolerance to killing by antibiotics correlates with morphotype and is generally higher in high shear regions.

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Effect of Different Concentrations ofOrtho-phthalaldehyde on Biofilms Formed byPseudomonas fluorescensUnder Different Flow Conditions

Cited by 26 publications

References 24 publications

The influence of flow cell geometry related shear stresses on the distribution, structure and susceptibility ofPseudomonas aeruginosa01 biofilms

The influence of flow cell geometry related shear stresses on the distribution, structure and susceptibility ofPseudomonas aeruginosa01 biofilms

Disinfection with neutral electrolyzed oxidizing water to reduce microbial load and to prevent biofilm regrowth in the processing of fresh-cut vegetables

Staphylococcus aureusbiofilm formation and tolerance to antibiotics in response to oscillatory shear stresses of physiological levels

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