The resistance of Bacillus atrophaeus spores to the bactericidal activity of peracetic acid is influenced by both the nature of the solid substrates and the mode of contamination

Grand, Isabelle; Bellon‐Fontaine, Marie‐Nöelle; Herry, Jean‐Marie; Hilaire, Didier; Moriconi, F.-X.; Naïtali, Murielle

doi:10.1111/j.1365-2672.2010.04799.x

Cited by 11 publications

(14 citation statements)

References 23 publications

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“…The microscopic method can be used to test disinfection results obtained using standard assessments on liquid-sampled cells. For example, we previously showed by such a standard assessment that the nature of the solid substrate has an influence on disinfection efficiency (13). We arrived at the same conclusion by applying the microscopic method on both glass and painted stainless steel (data not shown).…”

Section: Figsupporting

confidence: 64%

“…Three independent stock of spores of B. atrophaeus CIP 7718 (Institut Pasteur, France) were prepared as previously described (13). Briefly, after growth on a sporulation medium, the spores were collected by scraping the surface of the agar and then washed four times in 0.15 mol of NaCl liter…”

Section: Methodsmentioning

confidence: 99%

“…Studies have been performed to optimize sampling efficiency as a function of the type of material and the mode of contamination (6,11,19,22), and Sagripanti and Bonifacino (22) developed a threestep method that, according to the authors, allowed to obtained near 100% of sampling efficiency for some materials. However, most of the time, total recovery is hard to be achieved and typical sampling efficiencies range from 20 to 90% for bacterial spores (11,13,19). Efficiencies inferior to 10% have sometimes been obtained for porous substrates (21).…”

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confidence: 99%

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Possible Overestimation of Surface Disinfection Efficiency by Assessment Methods Based on Liquid Sampling Procedures as Demonstrated by In Situ Quantification of Spore Viability

Grand

Bellon-Fontaine

Herry

et al. 2011

Appl Environ Microbiol

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The standard test methods used to assess the efficiency of a disinfectant applied to surfaces are often based on counting the microbial survivors sampled in a liquid, but total cell removal from surfaces is seldom achieved. One might therefore wonder whether evaluations of microbial survivors in liquid-sampled cells are representative of the levels of survivors in whole populations. The present study was thus designed to determine the "damaged/undamaged" status induced by a peracetic acid disinfection for Bacillus atrophaeus spores deposited on glass coupons directly on this substrate and to compare it to the status of spores collected in liquid by a sampling procedure. The method utilized to assess the viability of both surface-associated and liquid-sampled spores included fluorescence labeling with a combination of Syto 61 and Chemchrome V6 dyes and quantifications by analyzing the images acquired by confocal laser scanning microscopy. The principal result of the study was that the viability of spores sampled in the liquid was found to be poorer than that of surface-associated spores. For example, after 2 min of peracetic acid disinfection, less than 17% ؎ 5% of viable cells were detected among liquid-sampled cells compared to 79% ؎ 5% or 47% ؎ 4%, respectively, when the viability was evaluated on the surface after or without the sampling procedure. Moreover, assessments of the survivors collected in the liquid phase, evaluated using the microscopic method and standard plate counts, were well correlated. Evaluations based on the determination of survivors among the liquid-sampled cells can thus overestimate the efficiency of surface disinfection procedures.The contamination by bacterial spores of liquids and surfaces is a major source of problems in numerous settings (e.g., the food industry or hospitals) and also in the context of potential bioterrorism attacks.

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Section: Figsupporting

confidence: 64%

Section: Methodsmentioning

confidence: 99%

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confidence: 99%

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Possible Overestimation of Surface Disinfection Efficiency by Assessment Methods Based on Liquid Sampling Procedures as Demonstrated by In Situ Quantification of Spore Viability

Grand

Bellon-Fontaine

Herry

et al. 2011

Appl Environ Microbiol

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“…Depending on its concentration and pH value [98] , it is effective against bacteria including H. pylori, fungi, mycobacteria, viruses including hepatitis B virus, and bacterial spores [35,66,68,[99][100][101][102][103][104][105][106][107][108][109][110][111][112] , though for specific isolates, such as Mycobacterium gordonae, the exposure time may have to be prolonged to 20 min to achieve the required efficacy [67] . However, despite its broad spectrum of antimicrobial activity it is not suitable for sterilizing surgical instruments [113] .…”

Section: Effect Of Peracetic Acid On Pathogensmentioning

confidence: 99%

Is peracetic acid suitable for the cleaning step of reprocessing flexible endoscopes?

Kampf

Fliss

Martiny

2014

WJGE

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The bioburden (blood, protein, pathogens and biofilm) on flexible endoscopes after use is often high and its removal is essential to allow effective disinfection, especially in the case of peracetic acid-based disinfectants, which are easily inactivated by organic material. Cleaning processes using conventional cleaners remove a variable but often sufficient amount of the bioburden. Some formulations based on peracetic acid are recommended by manufacturers for the cleaning step. We performed a systematic literature search and reviewed the available evidence to clarify the suitability of peracetic acid-based formulations for cleaning flexible endoscopes. A total of 243 studies were evaluated. No studies have yet demonstrated that peracetic acidbased cleaners are as effective as conventional cleaners. Some peracetic acid-based formulations have demonstrated some biofilm-cleaning effects and no biofilmfixation potential, while others have a limited cleaning effect and a clear biofilm-fixation potential. All published data demonstrated a limited blood cleaning effect and a substantial blood and nerve tissue fixation potential of peracetic acid. No evidence-based guidelines on reprocessing flexible endoscopes currently recommend using cleaners containing peracetic acid, but some guidelines clearly recommend not using them because of their fixation potential. Evidence from some outbreaks, especially those involving highly multidrug-resistant gram-negative pathogens, indicated that disinfection using peracetic acid may be insufficient if the preceding cleaning step is not performed adequately. Based on this review we conclude that peracetic acid-based formulations should not be used for cleaning flexible endoscopes. Key words: Peracetic acid; Cleaning; Flexible endoscope; Biofilm; Resistance; Bioburden; Blood; Disinfection; Reprocessing Core tip: Some formulations based on peracetic acid (PAA) are recommended by manufacturers for cleaning flexible endoscopes. We reviewed 243 studies to analyse the evidence for this recommendation. No study demonstrated that PAA-based cleaners were as effective as conventional cleaners, and some PAA-based formulations had clear biofilm-fixation potential. Dried blood and nerve tissue were substantially fixed by PAA. Some outbreaks, especially of highly multidrug-resistant gram-negative pathogens, indicated that insufficient cleaning could not be compensated for by using PAA in the disinfection step. PAA-based formulations should not be used for cleaning flexible endoscopes.

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“…Three of the most common methods of water or surface sterilization are chlorination, ozonation, and ultraviolet irradiation (3, 21). However, the reaction of chlorine with natural organic matter in water forms disinfection by-products, such as haloacetic acids and trihalomethanes (e.g., chloroform), that may be harmful to human health.Bacillus atrophaeus was used as a biological indicator to monitor sterilization processes and development of biosafety methods (10,28,35). B. atrophaeus has two forms, vegetative cell and spore.…”

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Additional Effects of Silver Nanoparticles on Bactericidal Efficiency Depend on Calcination Temperature and Dip-Coating Speed

Nagata

Aihara

et al. 2011

Appl Environ Microbiol

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There is an increasing interest in the application of photocatalytic properties for disinfection of surfaces, air, and water. Titanium dioxide is widely used as a photocatalyst, and the addition of silver reportedly enhances its bactericidal action. However, the synergy of silver nanoparticles and TiO 2 is not well understood. The photocatalytic elimination of Bacillus atrophaeus was examined under different calcination temperatures, dip-coating speeds, and ratios of TiO 2 , SiO 2 , and Ag to identify optimal production conditions for the production of TiO 2 -and/or TiO 2 /Ag-coated glass for surface disinfection. Photocatalytic disinfection of pure TiO 2 or TiO 2 plus Ag nanoparticles was dependent primarily on the calcination temperature. The antibacterial activity of TiO 2 films was optimal with a high dip-coating speed and high calcination temperature (600°C). Maximal bacterial inactivation using TiO 2 /Ag-coated glass was also observed following high-speed dip coating but with a low calcination temperature (250°C). Scanning electron microscopy (SEM) showed that the Ag nanoparticles combined together at a high calcination temperature, leading to decreased antibacterial activity of TiO 2 /Ag films due to a smaller surface area of Ag nanoparticles. The presence of Ag enhanced the photocatalytic inactivation rate of TiO 2 , producing a more pronounced effect with increasing levels of catalyst loading.Effective disinfection procedures are central to the safety of public water systems, not only for drinking and sanitation but also industrially, since biofouling is a commonplace and serious problem. Three of the most common methods of water or surface sterilization are chlorination, ozonation, and ultraviolet irradiation (3, 21). However, the reaction of chlorine with natural organic matter in water forms disinfection by-products, such as haloacetic acids and trihalomethanes (e.g., chloroform), that may be harmful to human health.Bacillus atrophaeus was used as a biological indicator to monitor sterilization processes and development of biosafety methods (10,28,35). B. atrophaeus has two forms, vegetative cell and spore. The spores of the various Bacillus species are 5 to 50 times more resistant to UV radiation than are the corresponding growing cells, and mechanisms receiving the damage by UV radiation are different between the vegetative cells and spores (29). The spore is a model for contamination of the microorganism from the environment, and vegetative cells are a model for growing bacteria. We used B. atrophaeus as the model microorganism for sterilization processes and focused on the vegetative cells as a model for growing bacteria.Advanced oxidation processes are seen as promising alternatives to traditional methods of disinfection. Several compounds have been investigated as potential photocatalytic materials for use in water purification, including

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The resistance of Bacillus atrophaeus spores to the bactericidal activity of peracetic acid is influenced by both the nature of the solid substrates and the mode of contamination

Cited by 11 publications

References 23 publications

Possible Overestimation of Surface Disinfection Efficiency by Assessment Methods Based on Liquid Sampling Procedures as Demonstrated by In Situ Quantification of Spore Viability

Possible Overestimation of Surface Disinfection Efficiency by Assessment Methods Based on Liquid Sampling Procedures as Demonstrated by In Situ Quantification of Spore Viability

Is peracetic acid suitable for the cleaning step of reprocessing flexible endoscopes?

Additional Effects of Silver Nanoparticles on Bactericidal Efficiency Depend on Calcination Temperature and Dip-Coating Speed

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