sodium-hypochlorite and 2-phenylphenol

This study aimed to evaluate the sensitivity of heat-resistant molds isolated from spoiled thermally processed foods to antimicrobial compounds used for food industry sanitation. An ortho-phenylphenol-based smoke generator sanitizer, liquid chemical sanitizers (benzalkonium chloride, biguanide, iodine, peracetic acid, and sodium hypochlorite), and acidic and alkaline electrolyzed water were used against Aspergillus australensis (MB 2579; NFF 02), Aspergillus aureoluteus (NFC1), Paecilomyces fulvus (PFF 01), Paecilomyces niveus (PNT 01; PNDC 01; PNB1 01), and Paecilomyces variotii (PV 01; PV 01; PVCH 03). The fungal strains were exposed separately to liquid sanitizers and electrolyzed water in stainless steel discs for 15 min following the European Committee for Standardization (CEN) recommendations. Moreover, the fungal strains were exposed to the smoke generator sanitizer for 7 h following French protocol NF-T-72281. The best results of fungal inactivation were achieved when the highest concentration specified in the label of these sanitizers was tested. On the opposite, the lowest concentration specified in the label should be avoided since it was ineffective in most cases (94%). The ortho-phenyphenol-based smoke generator sanitizer and peracetic acid (1%) showed the best results of spore inactivation, while iodine and benzalkonium chloride achieved satisfactory results against the strains evaluated. Sodium hypochlorite and biguanide were ineffective against most of the fungi studied at all concentrations tested. Acidic and basic electrolyzed water was also ineffective to achieve the 3-log CFU reduction required in the concentrations tested. In general, Paecilomyces spp. was more sensitive than Aspergillus spp. against all sanitizers evaluated, whereas A. aureoluteus NFC1 was resistant to all agents and concentrations tested. The heat-resistant fungal strains showed varied sensitivity against the different agents. Notably, the two most effective commercial sanitizers against the heat-resistant strains were ineffective against the filamentous fungi recommended for sanitizer testing (A. brasiliensis ATCC 16404), which demonstrates the relevance of testing fungal isolates that cause spoilage to choose the most effective compound and obtain the best results of fungal control.

Topics: Antifungal Agents; Aspergillus; Benzalkonium Compounds; Biphenyl Compounds; Colony Count, Microbial; Disinfectants; Food Microbiology; Hydrogen Peroxide; Microbial Sensitivity Tests; Paecilomyces; Peracetic Acid; Sodium Hypochlorite; Stainless Steel

An analytical method for determining the presence and levels of residual active ingredients found in neutralized suspensions of phenolic and quaternary ammonium salt-based antimicrobial products was developed using solid-phase extraction in combination with LC-tandem MS. A single-laboratory validation of the method was performed at three concentration levels for the quaternary ammonium compounds (also referred to as benzalkonium chlorides or BACs) and the phenols in the presence of letheen broth neutralizer at 2.5 and 2.75 μg/mL, respectively, as well as at dilutions of 1:10 and 1:100 in those concentrations. The method's lowest LODs were 0.005 μg/g for BACs and 0.006 μg/g for phenols. The average recovery of the fortified samples for both active ingredients ranged between 80 and 124%, and RSDs were generally <20%. In a related study, the effectiveness of letheen broth with and without sodium thiosulfate was evaluated as a neutralizer for sodium hypochlorite. The results showed that letheen broth without sodium thiosulfate neutralizes chlorine concentrations up to 60 ppm, and that 200 μg sodium thiosulfate are required to neutralize a 72 ppm concentrated chlorine solution in letheen broth.

Topics: Anti-Infective Agents; Benzalkonium Compounds; Biphenyl Compounds; Chromatography, Ion Exchange; Culture Media; Dichlorophen; Lipids; Phenols; Sodium Hypochlorite; Tandem Mass Spectrometry; Thiosulfates

Rotaviruses, which are among the most important infectious causes of acute diarrhea, frequently cause outbreaks in hospitals, daycare centers, schools, and nursing homes. These viruses can remain viable on inanimate surfaces for many days and infectious rotavirus particles have been recovered from hands and a variety of surfaces and objects. Casual contact can lead to the transfer of these viruses from contaminated to clean surfaces. Therefore, animate and inanimate surfaces may play a complementary role in the spread of these viruses.. In this study, we compared the capacity of a disinfectant spray (0.1% o-phenylphenol and 79% ethanol), a domestic bleach (6% sodium hypochlorite diluted to give 800 ppm free chlorine), a quarternary ammonium (quat)-based product (7.05% quat diluted 1:128 in tap water), and a phenol-based product (14.7% phenol diluted 1:256 in tap water) to interrupt the transfer of a human rotavirus (DS-1) from stainless steel disks to fingerpads of volunteers with a 10-second contact at a pressure of 1 kg/cm2.. Each disk received a 10 microL inoculum containing 1.0 x 10(4) to 7.0 x 10(4) plaque-forming units (PFU) of the virus suspended in 10% feces. The inoculum was dried for 1 hour and overlaid with 20 microL of either tap water or the test product.. A 10-minute exposure to tap water reduced the virus titer by 52.3% +/- 11.7%. The disinfectant spray was able to reduce virus infectivity by > 99.99% after a contact of 3 to 10 minutes. The loss in virus infectivity after a 10-minute treatment with the quat was almost the same (54.7% +/- 17.8%) as seen with tap water. The activities of the bleach and the phenolic were very similar with losses in PFU of 97.9% +/- 0.4% and 95% +/- 5.36%, respectively. No detectable virus was transferred to fingerpads from disks treated with disinfectant spray, the bleach, and the phenolic. Contact of the fingerpads with tap water- or quat-treated disks resulted in the transfer of 5.6% +/- 1.1% and 7.6% +/- 2.5% of the remaining infectious virus, respectively.. These findings emphasize the care needed in the selection of environmental surface disinfectants in preventing the spread of rotaviral infections.

Topics: Adult; Biphenyl Compounds; Disinfectants; Disinfection; Hand; Humans; Infection Control; Quaternary Ammonium Compounds; Rotavirus; Rotavirus Infections; Sodium Hypochlorite; Virology

There is a continuing concern over the potential for cross-contamination of viral infections such as AIDS by means of dental impressions. This investigation compared the effects of various viricidal agents on the accuracy of irreversible hydrocolloid and silicone impressions made of single-unit and full mandibular arch models. Measurements on casts made from the treated impressions were compared with the corresponding measurements on casts made from untreated impressions. The results of this study led to the conclusions that there was no preferred disinfectant with respect to dimensional stability for the irreversible hydrocolloid, condensation silicone, or vinyl polysiloxane impression materials tested, and there was no difference in the accuracy of the casts obtained either by spraying with or immersion in any of the disinfectants tested. Therefore using the disinfectants described with either the immersion or spray techniques will not significantly affect the dimensional accuracy of cats made from treated impressions.

Topics: Aerosols; Alginates; Biphenyl Compounds; Dental Impression Materials; Disinfectants; Formaldehyde; Glutaral; Immersion; Materials Testing; Phenol; Phenols; Polyvinyls; Silicones; Siloxanes; Sodium Hypochlorite; Surface Properties