United States Department of Agriculture, Agricultural Research Service, U.S. Meat Animal Research Center, PO Box 165, State Spur 18D, Clay Center, NE 68933, United States.
Cargill Inc, 825 E Douglas Ave, Wichita, KS 67202, United States.
J Food Prot. 2024 Nov;87(11):100362. doi: 10.1016/j.jfp.2024.100362. Epub 2024 Sep 18.
In the United States, the Proposed Regulatory Framework to Reduce Salmonella Illnesses Attributable to Poultry published by the Food Safety and Inspection Service (FSIS) has highlighted the need for simple, rapid methods that identify poultry wing rinse samples harboring Salmonella concentrations ≥10 CFU/mL. One of eight cold-stressed and nutrient-starved Salmonella strains was inoculated into post-chill two-joint poultry wing rinses (48 turkey and 72 chicken) at levels from 0.22 to 3.79 log CFU/mL, and then measured by 3-tube Most Probable Number (MPN), BioMerieux GENE-UP QUANT, Hygiena BAX SalQuant, and novel threshold methods. The MPN lower limit of quantification (LLQ) for Salmonella was -0.96 log CFU/mL. MPN overestimated the inoculated Salmonella level by 0.05 ± 0.35 log CFU/mL. The GENE-UP QUANT Salmonella method (LLQ = 1.00 log CFU/mL) underestimated the inoculated Salmonella level by 0.05 ± 0.51 log CFU/mL. The BAX SalQuant method (LLQ = 0.00 log CFU/mL) underestimated the inoculated Salmonella level by 1.21 ± 0.78 log CFU/mL. Threshold test methods with Poisson probabilities of 0.95 (PiLOT-95), 0.86 (PiLOT-86), 0.63 (PiLOT-63), and 0.50 (PiLOT-50) were developed to identify poultry wing rinses harboring Salmonella levels ≥10 CFU. MPN was 93.1%, accurate for determining if Salmonella levels in poultry wing rinses were ≥10 CFU/mL, but MPN costs and time requirements can be prohibitive for most laboratories. GENE-UP quantification was 86.1% accurate, but the GENE-UP method requires equipment and technical expertise that some food safety laboratories may not possess. BAX quantification had the lowest accuracy; 58.4%. PiLOT threshold test accuracies ranged from 83.2% for PiLOT-50 to 93.1% for PiLOT-86. The PiLOT threshold tests are simple and can be adapted to identify many environmental or food samples containing Salmonella exceeding any user-defined concentration threshold.
在美国,食品安全检验局(FSIS)发布的《降低与家禽相关的沙门氏菌病的拟议监管框架》强调了需要简单、快速的方法来识别家禽翅片冲洗样本中沙门氏菌浓度≥10 CFU/mL。将 8 株冷应激和营养饥饿的沙门氏菌菌株中的一株接种到冷却后的两个关节家禽翅片冲洗液(48 个火鸡和 72 个鸡肉)中,接种水平为 0.22 至 3.79 log CFU/mL,然后通过 3 管最可能数(MPN)、梅里埃 GENE-UP QUANT、Hygiena BAX SalQuant 和新型阈值方法进行测量。沙门氏菌的 MPN 定量下限(LLO)为-0.96 log CFU/mL。MPN 高估了接种的沙门氏菌水平 0.05±0.35 log CFU/mL。GENE-UP QUANT 沙门氏菌方法(LLO=1.00 log CFU/mL)低估了接种的沙门氏菌水平 0.05±0.51 log CFU/mL。BAX SalQuant 方法(LLO=0.00 log CFU/mL)低估了接种的沙门氏菌水平 1.21±0.78 log CFU/mL。开发了具有泊松概率为 0.95(PiLOT-95)、0.86(PiLOT-86)、0.63(PiLOT-63)和 0.50(PiLOT-50)的阈值测试方法,以识别沙门氏菌水平≥10 CFU 的家禽翅片冲洗液。MPN 的准确率为 93.1%,可准确确定家禽翅片冲洗液中的沙门氏菌水平是否≥10 CFU/mL,但 MPN 的成本和时间要求可能对大多数实验室来说是不可行的。GENE-UP 定量的准确率为 86.1%,但 GENE-UP 方法需要一些食品安全实验室可能不具备的设备和技术专业知识。BAX 定量的准确率最低,为 58.4%。PiLOT 阈值测试的准确率范围从 PiLOT-50 的 83.2%到 PiLOT-86 的 93.1%。PiLOT 阈值测试简单,可以适应识别许多含有沙门氏菌的环境或食品样本,超过任何用户定义的浓度阈值。
