巴氏牛奶中蜡样芽孢杆菌的风险评估

为了了解巴氏牛奶中蜡样芽孢杆菌的风险状况，调查研究了北京地区乳品企业巴氏牛奶的运输和销售的总体情况以及北京地区居民牛奶消费的相关情况，结合预测微生物学的方法建立了巴氏牛奶中蜡样芽孢杆菌在流通领域的暴露评估模型。从整个评估过程来看，流通领域的温度和时间是影响巴氏奶安全性的主要因素。     

抗菌肽cp1对蜡样芽孢杆菌的抑菌作用及在巴氏杀菌乳中的应用

目的 探究抗菌肽cp1对蜡样芽孢杆菌的抑菌作用,并进一步分析抗菌肽cp1在巴氏杀菌乳中的应用。方法 以蜡样芽胞杆菌为研究对象,通过测定抑菌圈直径(diameter of inhibition zone, DIZ)、最小抑菌浓度(minimal inhibitory concentration, MIC)、最小杀菌浓度(minimum bactericidal concentration, MBC)评价抗菌肽cp1对蜡样芽胞杆菌的抑菌效果。通过分析生长曲线、细胞内三磷酸腺苷(adenosine triphosphate, ATP)、膜电位、内容物渗出和细胞形态的变化,来揭示可能的作用机制。在此基础上,并探究抗菌肽cp1在巴氏杀菌乳贮藏中的应用。结果 当抗菌肽cp1质量浓度为10μg/mL时,其对蜡样芽胞杆菌的DIZ为(16.19±1.29) mm;抗菌肽cp1对蜡样芽孢杆菌的MIC、MBC分别为4μg/mL和8μg/mL;当抗菌肽cp1质量浓度为2 MIC时,蜡样芽胞杆菌几乎不生长;抗菌肽cp1导致细胞内ATP含量降低,细胞膜超极化,细胞液(包括核酸和蛋白质)漏出,细胞形态破坏;在巴氏杀...     

The prevalence and characterization of Bacillus cereus isolated from raw and pasteurized buffalo milk in southwestern China

Bacillus cereus is an important food-borne pathogenic bacteria and a putrid microorganism in the dairy industry. Raw and pasteurized buffalo milk play important roles in the dairy market in southwestern China. However, the reports on the prevalence and characterization of B. cereus strains isolated from the above sources are lacking. In this study, 150 raw buffalo milk samples and 300 pasteurized buffalo milk samples were collected from 3 provinces in southwestern China. The genotype, virulence gene distribution, antibiotic resistance, and biofilm-forming ability of isolates were analyzed. Ninety-six B. cereus strains were isolated and identified: 50 isolates (33.3%) from buffalo raw milk and 46 isolates (15.3%) from pasteurized buffalo milk. These strains were classified into 41 sequence types (ST) and 5 groups, of which ST857 was the predominant ST. The detection rates of virulence genes nheABC cluster, hblACD cluster, cytK, bceT, entFM, hlyII, and cesB were 89.6%, 13.5%, 64.6%, 71.9%, 84.4%, 62.5%, and 6.25%, respectively. The antimicrobial susceptibility testing showed that more than 90% of the isolates were susceptible to gentamicin, chloramphenicol, ciprofloxacin, erythromycin, vancomycin, and tetracycline, as well as resistant to ampicillin, cefepime, oxacillin, and rifampin. The results of biomass biofilm evaluation of the isolates on the stainless-steel tube showed that the optical density values at a wavelength of 595 nm of all strains in group I were greater than 1, with the strongest overall biofilm-forming ability among 5 groups, and the overall biofilm-forming ability of group III was the weakest. There was a relationship between the biofilm-forming ability and phylogenetic relationship of B. cereus strains. Taken together, our findings are the first to report the contamination situation and characterization of B. cereus isolated from raw and pasteurized buffalo milk in southwestern China as well as indicate the potential risk posed by this pathogen to dairy industry and public health.     

The occurrence of Bacillus cereus, B. thuringiensis and B. mycoides in Chinese pasteurized full fat milk

In 2006, a total of 54 samples of pasteurized full fat milk packaged in cartons were collected in spring and in autumn from chain supermarkets in Wuhan, China. The samples were examined and enumerated by MPN methods strictly according to guidelines laid out in US FDA/CFSAN BAM Chapter 14. Among 102 isolated B. cereus-like bacteria, 92 isolates were identified to be B. cereus, 9 B. thuringiensis and 1 B. mycoides. It was found that the occurrences of B. cereus were 71.4% and 33.3% in spring and in autumn samples respectively and the average count among the positive samples was 11.7 MPN/ml. The PCR detection results revealed that the enterotoxin genes hblA, hblC, hblD, nheA, nheB and nheC occurred in B. cereus isolates with frequencies of 37.0%, 66.3%, 71.7%, 71.7%, 62.0% and 71.7% respectively. Nine B. thuringiensis isolates were also identified from six pasteurized milk samples, and most of them harbored six enterotoxic genes and the insecticidal toxin cry1A gene. The single B. mycoides isolate harbored nheA and nheC genes. The data provides information for further evaluating the effect of B. cereus-like bacteria on food safety of Chinese milk products.     

原料乳中蜡样芽孢杆菌的快速检测

目前原料乳中蜡样芽孢杆菌的检测方法繁琐费时耗力,针对此缺点建立一种操作简便快速检测方法,采用过滤富集菌体后PCR技术来检测原料乳中蜡样芽孢杆菌.整个过程只需6 h左右即可完成.检测灵敏度高达101 mL-1.这种方法是对传统检测方法的有效改进,并且达到了原料乳检测快速、准确、灵敏的要求.     

蜡状芽孢杆菌(Bacillus celreus)污染及其对食品安全的影响

蜡状芽孢杆菌是常见的食品污染菌，在工业化社会中正成为日益重要的食物病原菌。它能产生一种呕吐毒素和多种肠毒素，主要引发呕吐和腹泻型食物中毒。与蜡状芽孢杆菌同属的苏云金杆菌也能产生类似的肠毒素，近来发现它可能与食品中毒有关。我国应当加强对蜡状芽孢杆菌的监测和研究。     

Inhibition of Bacillus cereus by strains of Lactobacillus and Lactococcus in milk

The growth and death or survival of Bacillus cereus in sterile skimmed milk fermented with 18 different lactic acid bacteria (LAB) were investigated. B. cereus alone in milk reached about 10(7)-10(8) colony-forming units (cfu)/ml. When B. cereus was cultivated together with different Lactobacillus or Lactococcus cultures at 30 or 37 degrees C, the B. cereus counts after 72 h of fermentation ranged between < 10 cfu/ml and about 10(6) cfu/ml. The inhibition patterns for the different Lactobacillus and Lactococcus cultures varied. All the Lactococcus cultures (with one exception) reduced pH to 5.3 or lower in 7 h. After 24 h, B. cereus was not detected in any of the fast Lactococcus-fermented milk samples. After 48 h, B. cereus was not detected for 4 of the 12 Lactobacillus cultures. These cultures reduced pH to below 5.0 in 24 h. The other Lactobacillus cultures also inhibited B. cereus, but the counts of B. cereus were still 10(4)-10(6) cfu/ml after 72 h. They also reduced pH at a slower rate. Survival of B. cereus was to a variable extent linked with formation of endospores. Proteinase K did not affect the antimicrobial activity observed. Acid production with decreasing pH, particularly the initial rate of pH decrease, appears to be most important for control of B. cereus with LAB.     

Toxigenic Bacillus cereus var. fluorescens in human milk

Human milk with high bacterial load of B. cereus var. fluorescens is reported. The organism was identified by morphological, cultural, and biochemical characteristics. Lecithinase and haemolysin were produced in rabbit and bovine blood. The toxigenic nature of the organism was confirmed by production of necrosis on rabbit skin and fluid accumulation in rabbit ileal loop. An antibiotic resistogram also has been included.     

Minimizing the level of Bacillus cereus spores in farm tank milk

In a year-long survey on 24 Dutch farms, Bacillus cereus spore concentrations were measured in farm tank milk (FTM), feces, bedding material, mixed grass and corn silage, and soil from the pasture. The aim of this study was to determine, in practice, factors affecting the concentration of B. cereus spores in FTM throughout the year. In addition, the results of the survey were used in combination with a previously published modeling study to determine requirements for a strategy to control B. cereus spore concentrations in FTM below the MSL of 3 log₁₀ spores/L. The B. cereus spore concentration in FTM was 1.2 ± 0.05 log₁₀ spores/L and in none of samples was the concentration above the MSL. The spore concentration in soil (4.9 ± 0.04 log₁₀ spores/g) was more than 100-fold higher than the concentration in feces (2.2 ± 0.05 log₁₀ spores/g), bedding material (2.8 ± 0.07 log₁₀ spores/g), and mixed silage (2.4 ± 0.07 log₁₀ spores/g). The spore concentration in FTM increased between July and September compared with the rest of the year (0.5 ± 0.02 log₁₀ spores/L difference). In this period, comparable increases of the concentrations in feces (0.4 ± 0.03 log₁₀ spores/g), bedding material (0.5 ± 0.05 log₁₀ spores/g), and mixed silage (0.4 ± 0.05 log₁₀ spores/g) were found. The increased B. cereus spore concentration in FTM was not related to the grazing of cows. Significant correlations were found between the spore concentrations in FTM and feces (r = 0.51) and in feces and mixed silage (r = 0.43) when the cows grazed. The increased concentrations during summer could be explained by an increased growth of B. cereus due to the higher temperatures. We concluded that year-round B. cereus spores were predominantly transmitted from feeds, via feces, to FTM. Farmers should take measures that minimize the transmission of spores via this route by ensuring low initial contamination levels in the feeds (<3 log₁₀ spores/g) and by preventing growth of B. cereus in the farm environment. In addition, because of the extremely high B. cereus spore concentrations in soil, the contamination of teats with soil needs to be prevented.     

Occurence of potentially enterotoxigenic Bacillus cereus in infant milk powder

Considering that powdered infant milk formula effectively supports the growth of numerous pathogens, this study investigates the prevalence of potentially pathogenic Bacillus cereus in dried milk products by evaluating the occurrence of B. cereus and the presence of virulence-associated genes. The approach consisted of enriching, isolating and biochemical identifying isolates, followed by PCR assays aimed at the hbl (C, D, A, B), nhe (A, B, C) and cytK enterotoxin genes coding HBL complex, NHE complex and cytotoxin K, respectively. Among cytK-positive strains, the discrimination of two different forms for cytotoxin K, cytK-1 and cytK-2 was performed. Bacillus cereus was detected in powdered infant milk formula samples. All the strains harbored at least one gene of the cytK, HBL and NHE enterotoxins. Because of an increasing trend in invasive infections by B. cereus in infants and immunocompromised children, our PCR findings highlight the need to implement an adequate control plan in order to guarantee the health of potentially fragile consumers. From a hygiene point of view, intensive and continuous monitoring of potentially pathogenic B. cereus may be crucial for powdered infant milk formula safety and even recommended in order to assess the infant health risk, as proposed by Commission Regulation (EC) no. 1441/2007 on microbiological criteria for foodstuffs. Furthermore, the detection in this study of B. licheniformis, B. subtilis and B. mycoides strains raises significant health issues regarding Bacillus spp. in powdered infant milk formula.     

Inhibition of Bacillus cereus in milk fermented with kefir grains

The effects of kefir-fermented milk were tested against a toxigenic strain of Bacillus cereus. The incubation of milk with B. cereus spores plus 5% kefir grains prevented spore germination and growth of vegetative forms. In contrast, when 1% kefir grains was used, no effects were observed. The presence of metabolically active kefir grains diminished titers of nonhemolytic enterotoxin A, as assessed by enzyme-linked immunosorbent assay. During fermentation, kefir microorganisms produce extracellular metabolites such as organic acids, which could play a role in the inhibition of spore germination and growth of B. cereus, although the effect of other factors cannot be ruled out. Results of the present study show that kefir-fermented milk is able to antagonize key mechanisms involved in the growth of B. cereus as well as interfere with the biological activity of this microorganism.     

成都市市售食品中蜡样芽胞杆菌污染状况与毒力基因分析

目的研究成都市市售食品中蜡样芽胞杆菌毒力基因携带及对抗生素的耐药情况。方法 2014—2016年,在成都市农贸市场和路边摊点共采集食品样品330份,按照GB 4789.14—2014《食品安全国家标准食品微生物学检验蜡样芽胞杆菌检验》分离疑似菌株,应用管家基因和16S rDNA测序鉴定蜡样芽胞杆菌,并针对分离菌株携带的毒力基因及对抗生素的耐药性进行检测。结果 2014—2016年,蜡样芽胞杆菌总检出率为17.6%(58/330),不同类型食品蜡样芽胞杆菌检出率差异有统计学意义(χ~2=29.683,P0.01),不同年份的食品样品蜡样芽胞杆菌的分离率差异无统计学意义(χ~2=5.835,P0.05)。米面制品、即食凉拌类和腌卤制品是蜡样芽胞杆菌的主要污染食品。腹泻型毒素基因(hbl,nhe,bceT,cytK,entFM)的检出率远高于呕吐型毒素基因(ces和cer)。分离菌株对四环素、红霉素、克林霉素的耐药率分别为29.3%(17/58)、24.1%(14/58)和22.4%(13/58)。结论成都市市售食品中蜡样芽胞杆菌分离菌株携带毒力基因类型多样,对四环素、红霉素、克林霉素的耐药率较高,对食品安全具有潜在威胁。     

Inactivation of Bacillus cereus spores in milk by mild pressure and heat treatments

The objective of this work was to study the germination and subsequent inactivation of Bacillus cereus spores in milk by mild hydrostatic pressure treatment. In an introductory experiment with strain LMG6910 treated at 40 degrees C for 30 min at 0, 100, 300 and 600 MPa, germination levels were 1.5 to 3 logs higher in milk than in 100 mM potassium phosphate buffer (pH 6.7). The effects of pressure and germination-inducing components present in the milk on spore germination were synergistic. More detailed experiments were conducted in milk at a range of pressures between 100 and 600 MPa at temperatures between 30 and 60 degrees C to identify treatments that allow a 6 log inactivation of B. cereus spores. The mildest treatment resulting in a 6 log germination was 30 min at 200 MPa/40 degrees C. Lower treatment pressures or temperatures resulted in considerably less germination, and higher pressures and temperatures further increased germination, but a small fraction of spores always remained ungerminated. Further, not all germinated spores were inactivated by the pressure treatment, even under the most severe conditions (600 MPa/60 degrees C). Two possible approaches to achieve a 6 log spore inactivation were identified, and validated in three additional B. cereus strains. The first is a single step treatment at 500 MPa/60 degrees C for 30 min, the second is a two-step treatment consisting of pressure treatment for 30 min at 200 MPa/45 degrees C to induce spore germination, followed by mild heat treatment at 60 degrees C for 10 min to kill the germinated spores. Reduction of the pressurization time to 15 min still allows a 5 log inactivation. These results illustrate the potential of high-pressure treatment to inactivate bacterial spores in minimally processed foods.     

Comparing the mannitol-egg yolk-polymyxin agar plating method with the three-tube most-probable-number method for enumeration of Bacillus cereus spores in raw and high-temperature, short-time pasteurized milk

The U.S. Food and Drug Administration's Bacteriological Analytical Manual recommends two enumeration methods for Bacillus cereus: (i) standard plate count method with mannitol-egg yolk-polymyxin (MYP) agar and (ii) a most-probable-number (MPN) method with tryptic soy broth (TSB) supplemented with 0.1% polymyxin sulfate. This study compared the effectiveness of MYP and MPN methods for detecting and enumerating B. cereus in raw and high-temperature, short-time pasteurized skim (0.5%), 2%, and whole (3.5%) bovine milk stored at 4°C for 96 h. Each milk sample was inoculated with B. cereus EZ-Spores and sampled at 0, 48, and 96 h after inoculation. There were no differences (P > 0.05) in B. cereus populations among sampling times for all milk types, so data were pooled to obtain overall mean values for each treatment. The overall B. cereus population mean of pooled sampling times for the MPN method (2.59 log CFU/ml) was greater (P < 0.05) than that for the MYP plate count method (1.89 log CFU/ml). B. cereus populations in the inoculated milk samples ranged from 2.36 to 3.46 and 2.66 to 3.58 log CFU/ml for inoculated milk treatments for the MYP plate count and MPN methods, respectively, which is below the level necessary for toxin production. The MPN method recovered more B. cereus, which makes it useful for validation research. However, the MYP plate count method for enumeration of B. cereus also had advantages, including its ease of use and faster time to results (2 versus 5 days for MPN).     

Prevalence of Bacillus cereus in dried milk products used by Chilean School Feeding Program

The prevalence of Bacillus cereus, in a total of 381 samples of dried milk products (milk with rice, milk substitute, milk powder, milk-cereal-rice, pudding milk, flan, and mousse) used by the Chilean School Feeding Program, was investigated. The potential of 94 selected isolates of B. cereus to produce diarrhoeal enterotoxin (by the BCET-RPLA test) in BHI culture, as well as the ability of enterotoxigenic-strains to grow at psychrotrophic temperatures were also verified. B. cereus was found in 175 of 381 of the samples analysed (45.9%), reaching levels from 3.0 to 10(4) spores g(-1). As expected, the higher prevalence and counts were observed in those products that contained whole rice, cereals and pulses extruded, and food additives. Of the 94 isolates of B. cereus tested for diarrhoeal enterotoxin production, 28 (29.8%) were positive, and none of these was able to grow at < or = 7 degrees C. The prevalence of B. cereus in dried milk products analysed was fairly high, although it was present in low number. However, as they were composed to a large extent of enterotoxigenic mesophilic strains, the potential risk for the safety of reconstituted products held at improper temperature should not be neglected.     

Bacillus cereus spores in raw milk: factors affecting the contamination of milk during the grazing period

Psychrotrophic Bacillus cereus is a limiting factor for the shelf-life of pasteurized milk, particularly during the grazing season. Potential sources of contamination and factors that might affect the spore content of milk were studied in detail for a group of eight cows during three 2-wk study periods from June to September over 2 yr. The spore content of milk was strongly associated with the degree of contamination of the teats with soil. High water content of soil, low evaporation of water and dirty access alloys were the most important factors correlating with high spore concentrations. The spore content of soil varied from < 50 to 380,000/g, depending on time and sampling site. The milking equipment did not contribute significantly to the contamination. The spore contents in air during milking (< 100 cfu/m3) and in feed (silage, hay, fresh grass, and concentrates) were too low to be of importance for contamination. The spore content in dung was also low. Further support that soil was the major contamination source was found by comparison of genetic fingerprints by random amplified polymorphic DNA polymerase chain reaction of isolates of B. cereus from soil and milk and by teat cleansing experiments, which resulted in reduced contamination levels in milk.