Decontamination of Spores on Model Stainless-Steel Surface by Using Foams Based on Alkyl Polyglucosides

Dari, Carolina; Dallagi, Heni; Faille, Christine; Dubois, Thomas; Lemy, Christelle; Deleplace, Maureen; Abdallah, Marwan; Gruescu, Cosmin; Beaucé, Julie; Bénézech, Thierry; Fameau, Anne‐Laure

doi:10.3390/molecules28030936

Cited by 6 publications

(7 citation statements)

References 29 publications

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“…Then, the stainless-steel plates were removed, and the effect of contact with the foam was quantified by measuring the spore log reduction after 30 min, as shown in Figure 5a. The spores' log reduction was around 1.13 ± 0.14 for the water due to the hydrophilicity of the spores, as already observed previously, which could be removed by water [29]. The spores' log reduction for the pure 10-HSA dispersion was 0.92 ± 0.20, which was similar to water.…”

Section: Cleaning Of Spore Contamination On Surfaces By Foam Imbibitionsupporting

confidence: 83%

“…In our case, we assume that even if the average liquid fractions were different, they were still within the range of wet foams, and we also assume that only the bubble size had an effect on foam imbibition [32]. Moreover, by comparing the log reduction obtained for the DS foam to the log reduction obtained for foam flow in dynamic conditions using the same spore model and the same surface, we observed that the values are similar, showing that foams in static conditions are very effective for efficiently removing spore contamination, thanks to the imbibition process [29].…”

Section: Cleaning Of Spore Contamination On Surfaces By Foam Imbibitionsupporting

confidence: 52%

“…All the cleaning experiments were carried out on rectangular (45 mm × 15 mm) AISI 316 stainless-steel plates (APERAM, Isbergues, France) with a 2R factory finish. In order to have similar surface properties to those found in the food industry, the surfaces were subjected to a conditioning process that has been described previously [29]. In brief, the plates were immersed in milk at room temperature for 30 min and then they were rinsed for 5 min under osmosis water by overflow.…”

Section: Preparation Of Solid Model Surfacesmentioning

confidence: 99%

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Ultrastable and Responsive Foams Based on 10-Hydroxystearic Acid Soap for Spore Decontamination

et al. 2023

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Currently, there is renewed interest in using fatty acid soaps as surfactants. Hydroxylated fatty acids are specific fatty acids with a hydroxyl group in the alkyl chain, giving rise to chirality and specific surfactant properties. The most famous hydroxylated fatty acid is 12-hydroxystearic acid (12-HSA), which is widely used in industry and comes from castor oil. A very similar and new hydroxylated fatty acid, 10-hydroxystearic acid (10-HSA), can be easily obtained from oleic acid by using microorganisms. Here, we studied for the first time the self-assembly and foaming properties of R-10-HSA soap in an aqueous solution. A multiscale approach was used by combining microscopy techniques, small-angle neutron scattering, wide-angle X-ray scattering, rheology experiments, and surface tension measurements as a function of temperature. The behavior of R-10-HSA was systematically compared with that of 12-HSA soap. Although multilamellar micron-sized tubes were observed for both R-10-HSA and 12-HSA, the structure of the self-assemblies at the nanoscale was different, which is probably due to the fact that the 12-HSA solutions were racemic mixtures, while the 10-HSA solutions were obtained from a pure R enantiomer. We also demonstrated that stable foams based on R-10-HSA soap can be used for cleaning applications, by studying spore removal on model surfaces in static conditions via foam imbibition.

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Section: Cleaning Of Spore Contamination On Surfaces By Foam Imbibitionsupporting

confidence: 83%

Section: Cleaning Of Spore Contamination On Surfaces By Foam Imbibitionsupporting

confidence: 52%

Section: Preparation Of Solid Model Surfacesmentioning

confidence: 99%

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Ultrastable and Responsive Foams Based on 10-Hydroxystearic Acid Soap for Spore Decontamination

et al. 2023

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“…Notably, immersing the contaminated surfaces in biosurfactant alone did not have any effect on cleaning. Furthermore, recent experiments with foam flows based on alkyl polyglucosides have shown promising results in efficiently removing spores from surfaces while minimizing the environmental impact (Dari et al, 2023). The combination of the mechanical effect of air–liquid interfaces and the chemical effect of biosurfactants presents an alternative cleaning procedure that could further enhance cleaning efficiency and decrease environmental impact.…”

Section: Cleaning Methodsmentioning

confidence: 99%

Green approaches for biofilm eradication: Enhancing cleaning efficiency

Mechmechani,

Jha,

Karam

et al. 2024

Journal of Food Safety

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Cleaning up biocontamination from surfaces is a critical aspect of maintaining a hygienic environment. Traditional cleaning methods often fall short when it comes to eliminating persistent biofilms and resilient bacteria. In recent years, alternative approaches utilizing antibiofilm enzymes, bacteriophages, essential oils (EOs), antibacterial peptides, and biosurfactants have emerged as promising strategies to combat biocontamination. This article explores the efficiency of these agents in targeting and eradicating biofilms, highlighting their mechanisms of action and potential applications. By leveraging the unique properties of these materials, we can enhance cleaning practices and improve public health outcomes by effectively eliminating biocontamination from various surfaces.

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“…Alkyl polyglucoside (APG) is one of the well-known families of natural surfactants, derived from natural glucose and a fatty alcohol. It is considered as non-toxic, mild and environmentally friendly emulsifier (Dari et al, 2023). Our aim here was to study the stabilization of W/W emulsions by using LGNs based on various APGs.…”

Section: Introductionmentioning

confidence: 99%

Mixture of fatty alcohols and alkyl polyglucosides stabilizing water-in-water emulsions

Dari,

Si,

Douliez

et al. 2023

Front. Soft Matter

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The combination of surfactants and fatty alcohols leads to the formation of lamellar gel network (LGNs) which are widely used in cosmetic and pharmaceutical industries. Alkyl polyglucosides are known to stabilize oil-in-water emulsions and here, we report their use in combination with fatty alcohol for the stabilization of all-aqueous water-in-water (W/W) emulsions based on dextran-in-poly(ethylene glycol). Two different APGs were used: decyl glucoside and lauryl glucoside. We systematically studied the influence of the concentrations of APGs, and the molar ratio between the APGs and decanol as model fatty alcohol on the size and stability of the aqueous emulsion droplets with time. The self-assembled structure formed by decanol/APGs was characterized by using Small Angle X-ray Scattering and confocal microscopy, and shown to be lamellar in the bulk phase and probably also at the surface of dextran-rich droplets. We also demonstrated that the stabilization of W/W emulsions can be extended to other alkyl polyglucoside and to other fatty alcohols. In addition, we reported the production of a foam using such W/W emulsions as the continuous phase. Our results show that it is possible to stabilized W/W emulsions using LGNs based on different APGs and fatty alcohols, which will undoubtedly expand the use of W/W emulsions for various fields.

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Decontamination of Spores on Model Stainless-Steel Surface by Using Foams Based on Alkyl Polyglucosides

Cited by 6 publications

References 29 publications

Ultrastable and Responsive Foams Based on 10-Hydroxystearic Acid Soap for Spore Decontamination

Ultrastable and Responsive Foams Based on 10-Hydroxystearic Acid Soap for Spore Decontamination

Green approaches for biofilm eradication: Enhancing cleaning efficiency

Mixture of fatty alcohols and alkyl polyglucosides stabilizing water-in-water emulsions

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