猪肉屠宰加工过程中弯曲菌流行病学调查与分析

目的 调查分析猪肉屠宰加工过程中主要环节弯曲菌的污染现状。方法 选择两家猪肉屠宰加工企业,分别采集宰前、脱毛、取内脏、胴体修饰和预冷前后等环节样品,应用选择性CCDA平板直接计数法对弯曲菌进行定量检测。结果 150份猪肉样品检测出22份弯曲菌阳性样品,阳性率14.67%;环境样品30份,检出12份阳性样品,阳性率40.00%。所检出的弯曲菌均为结肠弯曲菌,未见其它种属弯曲菌。所监测的6个环节均存在不同程度的弯曲菌污染,阳性率呈现先升高后降低的变化趋势。其中取内脏环节弯曲菌阳性率最高,为17.50%,阳性样品弯曲菌携带量为177.14±296.73CFU/100cm2;而环境样品中取内脏环节的地面样品阳性率最高,为100%,弯曲菌携带量为588.00±307.66CFU/100cm2。结论 猪肉屠宰加工过程中存在弯曲菌污染,以取内脏环节阳性率最高,预冷后阳性率明显降低;而环境样品的高污染率对猪肉屠宰加工过程中的交叉污染构成了很大威胁。     

Effect of refrigerated and frozen storage on the survival of Campylobacter jejuni in cooked chicken meat breast

This experimental work aimed to examine the survivability of Campylobacter jejuni in cooked chicken breast under several conditions: storage for 1, 3, and 7 d at refrigerated temperatures (4 °C) and for 20 d at frozen temperatures (-18 °C). In addition, storage at ambient temperature (26 to 28 °C) was involved. Chicken samples were inoculated with a mixed culture of C. jejuni strains (ATCC: 29428 and 33219) of known concentrations (50 and 500 CFU/g). Bacterial cells were recovered and enumerated using standard procedure (Preston method). Bacteria were not detected in the majority of samples stored at ambient temperature. Refrigeration reduced survivals in 95, 90, and 77.5% for samples inoculated with 500 CFU/g and kept for 1, 3, and 7 d, respectively. The maximum reduction reached 1 log(10) cycle for all refrigeration durations. It was observed that bacteria died in 17.5% of samples kept for 7 d at 4 °C. However, survivors in samples inoculated with 50 CFU/g were not detected in 50, 65, and 55% of samples kept for 1, 3, and 7 d, respectively. Freezing rendered survivors not detectable in 70% of samples inoculated with 50 CFU/g, while survived viable counts were reduced in 92.5% of samples inoculated with 500 CFU/g. These findings suggested that C. jejuni could be killed or just sublethally injured with or without reduction in viable counts under the investigated storage temperatures, which may indicate the ability of this bacterium to survive in chicken meat stored under refrigerated and frozen conditions.     

Campylobacter jejuni: A Review of its Characteristics, Pathogenicity, Ecology, Distribution, Subspecies Characterization and Molecular Methods of Detection

Campylobacter jejuni is considered to be the leading cause of enteric illness in the United States and other industrialized nations, causing mild to severe symptoms including serious infections of the extremities and permanent neurological symptoms. The organism is a cytochrome oxidase positive, microaerophilic, curved Gram-negative rod exhibiting corkscrew motility and is carried in the intestine of many wild and domestic animals, particularly avian species including poultry, where the intestine is colonized resulting in healthy animals as carriers. Wildlife have long been considered an infectious reservoir for campylobacters because of their close association with and contamination of surface waters. This review deals with the areas of: phenotypic characteristics of C. jejuni and related human pathogenic species of Campylobacter, their ecological distribution, virulence factors, isolation of C. jejuni from foods, serotyping of Campylobacter isolates, bacteriophage typing, molecular methods of detecting and typing campylobacters, the viable but nonculturable state of campylobacters, the coccoid form of C. jejuni and immunomagnetic capture of C. jejuni.     

弯曲菌菌种冷冻保存及复苏方法的研究

目的探索一种简单、方便、有效的弯曲菌菌种保存方法。方法采用含30%甘油的脑心浸液肉汤,将实验室保存的19株弯曲菌于-30℃和-70℃分别保存,每个菌株3个菌种管。1年后,采用5%脱纤维羊血的布氏肉汤进行增菌,然后转种哥伦比亚血平板,比较存活效果。结果-30℃条件下采用多管法保存弯曲菌可以获得与-70℃条件下保存相当的效果。结论采用多管法（每株菌3个菌种管）于-30℃冷冻保存弯曲菌是一个简单、方便、有效、实用的方法。     

Citrus Extracts as Inhibitors of Quorum Sensing,Biofilm Formation and Motility of Campylobacter jejuni

Quorum Sensing (QS), a signaling system present in bacteria, influences the expression of a variety of virulence factors. This study investigated the ability of citrus extracts to inhibit the activity of AI-2 molecules that mediate QS in Campylobacter jejuni and the effects of these extracts on motility, biofilm formation and expression of flaA-B. Cultures of C. jejuni were exposed to extracts of Citrus limon, Citrus medica and Citrus aurantium peels at various concentrations. Swarm motility tests were performed in Muller Hinton agar; biofilm formation was determined colorimetrically in microtiter plates; AI-2 activity was measured with a bioluminescence assay using V. harveyi; and flaA-B expression was determined by qRT-PCR. Treatment with C. limon or C. medica peel extract reduced swarm motility 44–59%, whereas treatment with C. aurantium extract reduced swarm motility 35–40%. Biofilm formation was reduced 60–75 % by these extracts, depending on extract concentration and /or strain tested. All three citrus extracts decreased AI-2 activity by about 90 %, and at 75 % of MBC, significantly (P ≤ 0.05) reduced expression of flaA-B. These findings provide preliminary metabolic and molecular insights into the effects of edible antimicrobials on QS and virulence factors of C. jejuni.     

Survival of Campylobacter jejuni on beef and pork under vacuum packaged and retail storage conditions: examination of the role of natural meat microflora on C. jejuni survival

The ability of Campylobacter jejuni ATCC 11168 to survive on beef and pork stored under chilled, vacuum packaged and retail display conditions were examined. In addition, the effect of natural microflora on commercial beef and pork on the survival of C. jejuni under these storage conditions was examined. When sterile cores of beef and pork were inoculated with ∼10⁵ to 10⁶ cfu cm⁻²C. jejuni, and were stored under aerobic or vacuum packaged conditions at −1.5 or 4 °C, its numbers dropped significantly and C. jejuni could not be enumerated by direct plating after 21 d of the 6 wks study. In contrast, survival of C. jejuni on commercial vacuum packaged beef and pork was significantly enhanced, resulting in only 1 log cfu cm⁻² reduction at the end of 6 wks. During 7 d of display in a retail case, numbers of C. jejuni dropped quickly, but could be enumerated by direct plating even after the 7 d. The presence of high numbers of inoculated C. jejuni on beef and pork had no significant effect on the natural microflora numbers compared to uninoculated controls when the meat was stored either in vacuum or in a retail display case. These results show that natural microflora on vacuum packaged meat afford enhanced survival of C. jejuni present on the surfaces of both beef and pork when stored at refrigeration temperatures. Hence, strict hygienic practices or the implementation of decontamination technologies are recommended to ensure safety of meat with respect to this pathogen.     

空肠和结肠弯曲菌鞭毛蛋白基因fla A的检测

目的 运用一种快速、敏感、特异的检测空肠和结肠弯曲菌的方法.方法 以空肠和结肠弯曲菌所共有特异的鞭毛蛋白基因 fla A的一段高度保守序列为引物,用PCR法扩增fla A基因上的一段约1 700 bp的片断.用该引物对空肠和结肠弯曲菌的标准株、福建省的食品分离株进行PER扩增检测,并同时检测该PCR方法的敏感性.结果 扩增片断表现出极好的特异性,2株空肠和结肠弯曲菌标准菌株、8株分离自不同食品样品的空肠穹曲菌和结肠弯曲菌菌株均为阳性,且敏感性实验显示该PCR方法的反应体系最低检出菌量为6 CFU.结论 该方法快速、敏感、特异,可用于突发性食物中毒和暴发感染的调查.     

Adhesion of Campylobacter jejuni and Mycobacterium avium onto polyethylene terephtalate (PET) used for bottled waters

Adhesion of the bacteria Campylobacter jejuni and Mycobacterium avium onto polyethylene terephtalate (PET), a polymer widely used within the bottled water industry was measured in two different groundwater solutions. From this, it was found that whilst the percentage cell adhesion for a given strain did not change between groundwater types, substantial variation was obtained between the two bacterial species tested: M. avium (10-30% adhered cells) and C. jejuni (1-2%) and no major variations were measured as a function of groundwater composition for a given strain. To explain this, the interfacial electro-hydrodynamic properties of the bacteria were investigated by microelectrophoresis, with the resultant data analysed on the basis of electrokinetic theory for soft biocolloidal particles. The results obtained showed that M. avium carries a significant volume charge density and that its peripheral layer exhibits limited hydrodynamic flow permeation compared to that of C. jejuni. It was also demonstrated that steric hindrance to flow penetration and the degree of hydrophobicity within/of the outer bacterial interface are larger for M. avium cells. In line with this, the larger amount of M. avium cells deposited onto PET substrates as compared to that of C. jejuni can be explained by hydrophobic attraction and chemical binding between hydrophobic PET and outer soft surface layer of the bacteria. Hydrophobicity of PET was addressed by combining contact angle analyses and force spectroscopy using CH₃-terminated AFM tip.     

Current and future interventions for improving poultry health and poultry food safety and security: A comprehensive review

Poultry is thriving across the globe. Chicken meat is the most preferred poultry worldwide, and its popularity is increasing. However, poultry also threatens human hygiene, especially as a fomite of infectious diseases caused by the major foodborne pathogens (Campylobacter, Salmonella, and Listeria). Preventing pathogenic bacterial biofilm is crucial in the chicken industry due to increasing food safety hazards caused by recurring contamination and the rapid degradation of meat, as well as the increased resistance of bacteria to cleaning and disinfection procedures commonly used in chicken processing plants. To address this, various innovative and promising strategies to combat bacterial resistance and biofilm are emerging to improve food safety and quality and extend shelf-life. In particular, natural compounds are attractive because of their potential antimicrobial activities. Natural compounds can also boost the immune system and improve poultry health and performance. In addition to phytochemicals, bacteriophages, nanoparticles, coatings, enzymes, and probiotics represent unique and environmentally friendly strategies in the poultry processing industry to prevent foodborne pathogens from reaching the consumer. Lactoferrin, bacteriocin, antimicrobial peptides, cell-free supernatants, and biosurfactants are also of considerable interest for their prospective application as natural antimicrobials for improving the safety of raw poultry meat. This review aims to describe the feasibility of these proposed strategies and provide an overview of recent published evidences to control microorganisms in the poultry industry, considering the human health, food safety, and economic aspects of poultry production.