Cervenka L, Malíková Z, Zachová I, Vytrasová J
Department of Analytical Chemistry, University of Pardubice, 532 10 Pardubice, Czechia.
Folia Microbiol (Praha). 2004;49(1):8-12. doi: 10.1007/BF02931638.
The influence of weak organic acids and trisodium citrate in combination with a high or a reduced water activity (aw) was investigated when a population of Arcobacter butzleri was exposed to a low concentration of acetic or citric acid, and trisodium citrate combined with high (0.993) and reduced (0.977) aw in culture broth at 30 degrees C. Regardless of water activity, acetic and citric acid (> 0.2%) inhibited the growth of A. butzleri with no viable cells detected after 4-5 h of incubation. Enhanced survival was found at reduced aw with addition of acetic acid. In contrast, after exposure to citric acid in combination with reduced aw inactivation was more rapid than that after being exposed to high water activity. Incorporation of trisodium citrate in combination with reduced aw (0.977) would probably not confer any extra protection. Concentrations of organic acid widely used in meat decontamination processing represent feasible tools for reducing A. butzleri contamination and hence the risk of Arcobacter infection.
当布氏弓形杆菌菌群暴露于低浓度的乙酸或柠檬酸中时,研究了弱有机酸和柠檬酸钠在高或低水分活度(aw)条件下的联合影响,同时在30℃下,研究了柠檬酸钠与高(0.993)和低(0.977)水分活度的肉汤培养基的联合影响。无论水分活度如何,乙酸和柠檬酸(>0.2%)均抑制布氏弓形杆菌的生长,孵育4-5小时后未检测到存活细胞。添加乙酸后,在低水分活度下存活率提高。相比之下,在低水分活度条件下暴露于柠檬酸后,失活比在高水分活度条件下暴露后更快。柠檬酸钠与低水分活度(0.977)联合使用可能不会提供额外的保护。肉类去污加工中广泛使用的有机酸浓度是降低布氏弓形杆菌污染以及弓形杆菌感染风险的可行手段。