次氯酸钠和苯扎氯铵对减少食品接触面酵母菌生物膜腐败的有效性。

IF 2.6 3区生物学 Q3 BIOTECHNOLOGY & APPLIED MICROBIOLOGY Biofouling Pub Date : 2024-11-01 Epub Date: 2024-12-03 DOI:10.1080/08927014.2024.2435021

Manuel Alejandro Palencia Díaz, María Clara Tarifa, Patricia Liliana Marucci, Diego Bautista Genovese, Lorena Inés Brugnoni

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引用次数: 0

摘要

本研究评估了次氯酸钠（NaOCl）和一种商业季铵化合物（QAC）对从澄清苹果汁生产设施的超滤模块中分离出的浮游和生物膜相关酵母（热带假丝酵母、克鲁西假丝酵母、克氏假丝酵母和粘液红霉菌）的有效性。结果表明，消毒对浮游酵母细胞的效果与对生物膜包埋细胞的效果不直接相关。QAC被证明在减少酵母生物膜方面比NaOCl更有效，细胞计数减少超过3-log10。相比之下，NaOCl即使达到食品接触表面的最大允许浓度，对生物膜的作用也有限。这两种消毒剂在防止生物膜再生方面的效果有限，表明食品加工环境中存在持续污染的可能性。此外，这两种药物都破坏了生物膜结构，其中QAC的影响比NaOCl明显更明显。

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Effectiveness of sodium hypochlorite and benzalkonium chloride in reducing spoilage yeast biofilms on food contact surfaces.

The study evaluates the effectiveness of sodium hypochlorite (NaOCl) and a commercial quaternary ammonium compound (QAC) against planktonic and biofilm-associated yeast (Candida tropicalis, C. krusei, C. kefyr, and Rhodotorula mucilaginosa) isolated from ultrafiltration modules in a clarified apple juice production facility. The results demonstrated that the efficacy of disinfection against planktonic yeast cells did not directly correlate with the effectiveness against biofilm-embedded cells. QAC proved to be more effective than NaOCl in reducing yeast biofilms, achieving a higher than 3-log₁₀ reduction in cell counts. In contrast, NaOCl, even at its maximum permissible concentration for food-contact surfaces, exhibited limited efficacy against biofilms. Both disinfectants had limited success in preventing biofilm regrowth, indicating the potential for persistent contamination in food processing environments. Furthermore, both agents compromised biofilm structure, with QAC having a significantly more pronounced impact than NaOCl.

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来源期刊

Biofouling 生物-海洋与淡水生物学

CiteScore

5.00

自引率

7.40%

发文量

审稿时长

1.7 months

期刊介绍： Biofouling is an international, peer-reviewed, multi-discliplinary journal which publishes original articles and mini-reviews and provides a forum for publication of pure and applied work on protein, microbial, fungal, plant and animal fouling and its control, as well as studies of all kinds on biofilms and bioadhesion. Papers may be based on studies relating to characterisation, attachment, growth and control on any natural (living) or man-made surface in the freshwater, marine or aerial environments, including fouling, biofilms and bioadhesion in the medical, dental, and industrial context. Specific areas of interest include antifouling technologies and coatings including transmission of invasive species, antimicrobial agents, biological interfaces, biomaterials, microbiologically influenced corrosion, membrane biofouling, food industry biofilms, biofilm based diseases and indwelling biomedical devices as substrata for fouling and biofilm growth, including papers based on clinically-relevant work using models that mimic the realistic environment in which they are intended to be used.