Control of
 Listeria monocytogenes
 biofilm on industrial surfaces by cell
 ‐
 free extracts of
 Lactobacillus plantarum

Kıran, Fadime; Akoğlu, Aylin; Çakır, İbrahim

doi:10.1111/jfpp.15042

Cited by 5 publications

(4 citation statements)

References 50 publications

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“…Chemical treatment with detergents, sanitisers, and disinfectants seems to be an effective biofilm control method [ 23 , 31 , 38 ]. Sodium hypochlorite, hydrogen peroxide, peracetic acid, and sodium hydroxide are chemical agents that have demonstrated competence in reducing biofilms [ 22 , 25 ].…”

Section: Biofilm Prevention and Control Strategies In The Food Industrymentioning

confidence: 99%

“…Biofilm tolerance against synthetic antimicrobials and the negative consumer perception towards these chemicals, in addition to their release into the environment and the high amount of water spent in cleaning, have strengthened the search for different alternatives, namely for environmentally friendly disinfection [ 25 , 32 ]. Environment-friendly biofilm control strategies include the use of enzymes, bacteriophages, natural compounds such as essential oils, and bacterial products such as bacteriocins and biosurfactants [ 31 , 38 ]. Enzymes (e.g., proteases, lipases, and polysaccharidases) are biodegradable and low-toxicity bioactive macromolecules that have shown the ability to inhibit biofilm formation.…”

Section: Biofilm Prevention and Control Strategies In The Food Industrymentioning

confidence: 99%

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Use of Probiotics to Control Biofilm Formation in Food Industries

et al. 2023

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Microorganisms tend to adhere to food contact surfaces and form biofilms, which serve as reservoirs for bacteria that can contaminate food. As part of a biofilm, bacteria are protected from the stressful conditions found during food processing and become tolerant to antimicrobials, including traditional chemical sanitisers and disinfectants. Several studies in the food industry have shown that probiotics can prevent attachment and the consequent biofilm formation by spoilage and pathogenic microorganisms. This review discusses the most recent and relevant studies on the effects of probiotics and their metabolites on pre-established biofilms in the food industry. It shows that the use of probiotics is a promising approach to disrupt biofilms formed by a large spectrum of foodborne microorganisms, with Lactiplantibacillus and Lacticaseibacillus being the most tested genera, both in the form of probiotic cells and as sources of cell-free supernatant. The standardisation of anti-biofilm assays for evaluating the potential of probiotics in biofilm control is of extreme importance, enabling more reliable, comparable, and predictable results, thus promoting significant advances in this field.

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Section: Biofilm Prevention and Control Strategies In The Food Industrymentioning

confidence: 99%

Section: Biofilm Prevention and Control Strategies In The Food Industrymentioning

confidence: 99%

Use of Probiotics to Control Biofilm Formation in Food Industries

et al. 2023

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“…The low efficacy of nisin against mature biofilms was also shown by Henriques and Fraqueza (2017) who found that nisin at the concentration of 25-400 IU/ml was not active in 5-day biofilms formed by L. monocytogenes isolated from meat products food chain and the estimated LD 90 values ranged from 1000 to 3000 IU/ml for most strains in biofilms. (Yi et al, 2018a;Qiao, Zhang, et al, 2021), Lactobacillus curvatus (Camargo et al, 2016;Melian et al, 2019), and Lactobacillus plantarum (Kıran et al, 2021;Pei et al, 2020). Winkelströter et al (2011) reported that cell counts of L. monocytogenes adhered to stainless steel (SS) coupons were decreased lower than 3.0 log CFU/cm 2 in the presence of neutralized CFS of L. sakei 1 containing sakacin 1 for 24 h. However, the authors observed re-growth of adhered cells in the presence of CFS after 48 h, possibly due to the lack of competition for nutrients or selection of bacteriocin-tolerant strains.…”

Section: Lactococcus Sppmentioning

confidence: 99%

“…Bacteriocins produced by Lactobacillus spp., known as class II bacteriocins with thermostability and activity at a wide pH range, have been frequently isolated from fermented foods (Abdulhussain Kareem & Razavi, 2020; da Silva Sabo et al., 2014). Antibiofilm activity of bacteriocins against Gram‐positive foodborne pathogens such as L. monocytogenes and S. aureus has been demonstrated among strains belonging to Lactobacillus sakei (Pérez‐Ibarreche et al., 2016; Winkelströter et al., 2011), Lactobacillus crustorum (Yi et al., 2018a; Qiao, Zhang, et al., 2021), Lactobacillus curvatus (Camargo et al., 2016; Melian et al., 2019), and Lactobacillus plantarum (Kıran et al, 2021; Pei et al., 2020). Winkelströter et al.…”

Section: Lab Bacteriocin: Classification and Mode Of Actionmentioning

confidence: 99%

Combating biofilms of foodborne pathogens with bacteriocins by lactic acid bacteria in the food industry

Pang

Song

Chen

et al. 2022

Comp Rev Food Sci Food Safe

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Most foodborne pathogens have biofilm‐forming capacity and prefer to grow in the form of biofilms. Presence of biofilms on food contact surfaces can lead to persistence of pathogens and the recurrent cross‐contamination of food products, resulting in serious problems associated with food safety and economic losses. Resistance of biofilm cells to conventional sanitizers urges the development of natural alternatives to effectively inhibit biofilm formation and eradicate preformed biofilms. Lactic acid bacteria (LAB) produce bacteriocins which are ribosomally synthesized antimicrobial peptides, providing a great source of nature antimicrobials with the advantages of green and safe properties. Studies on biofilm control by newly identified bacteriocins are increasing, targeting primarily onListeria monocytogenes, Staphylococcus aureus, Salmonella, and Escherichia coli. This review systematically complies and assesses the antibiofilm property of LAB bacteriocins in controlling foodborne bacterial‐biofilms on food contact surfaces. The bacteriocin‐producing LAB genera/species, test method (inhibition and eradication), activity spectrum and surfaces are discussed, and the antibiofilm mechanisms are also argued. The findings indicate that bacteriocins can effectively inhibit biofilm formation in a dose‐dependent manner, but are difficult to disrupt preformed biofilms. Synergistic combination with other antimicrobials, incorporation in nanoconjugates and implementation of bioengineering can help to strengthen their antibiofilm activity. This review provides an overview of the potential and application of LAB bacteriocins in combating bacterial biofilms in food processing environments, assisting in the development and widespread use of bacteriocin as a promising antibiofilm‐agent in food industries.

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Impact of lactic acid bacteria strains against Listeria monocytogenes biofilms on various food-contact surfaces

Dinçer

2024

Arch Microbiol

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Control of Listeria monocytogenes biofilm on industrial surfaces by cell ‐ free extracts of Lactobacillus plantarum

Cited by 5 publications

References 50 publications

Use of Probiotics to Control Biofilm Formation in Food Industries

Use of Probiotics to Control Biofilm Formation in Food Industries

Combating biofilms of foodborne pathogens with bacteriocins by lactic acid bacteria in the food industry

Impact of lactic acid bacteria strains against Listeria monocytogenes biofilms on various food-contact surfaces

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