Bozkurt Hayriye, D'Souza Doris H, Davidson P Michael
Department of Food Science and Technology, The University of Tennessee, 2600 River Drive, Knoxville, TN 37996-4591, USA.
Department of Food Science and Technology, The University of Tennessee, 2600 River Drive, Knoxville, TN 37996-4591, USA.
Food Microbiol. 2014 Sep;42:212-7. doi: 10.1016/j.fm.2014.04.002. Epub 2014 Apr 16.
Human noroviruses and hepatitis A virus (HAV) are considered as epidemiologically significant causes of foodborne disease. Therefore, studies are needed to bridge existing data gaps and determine appropriate parameters for thermal inactivation of human noroviruses and HAV. The objectives of this research were to compare the thermal inactivation kinetics of human norovirus surrogates (murine norovirus (MNV-1), and feline calicivirus (FCV-F9)) and HAV in buffered medium (2-ml vials), compare first-order and Weibull models to describe the data, calculate Arrhenius activation energy for each model, and evaluate model efficiency using selected statistical criteria. The D-values calculated from the first-order model (50-72 °C) ranged from 0.21-19.75 min for FCV-F9, 0.25-36.28 min for MNV-1, and 0.88-56.22 min for HAV. Using the Weibull model, the tD = 1 (time to destroy 1 log) for FCV-F9, MNV-1 and HAV at the same temperatures ranged from 0.10-13.27, 0.09-26.78, and 1.03-39.91 min, respectively. The z-values for FCV-F9, MNV-1, and HAV were 9.66 °C, 9.16 °C, and 14.50 °C, respectively, using the Weibull model. For the first order model, z-values were 9.36 °C, 9.32 °C, and 12.49 °C for FCV-F9, MNV-1, and HAV, respectively. For the Weibull model, estimated activation energies for FCV-F9, MNV-1, and HAV were 225, 278, and 182 kJ/mol, respectively, while the calculated activation energies for the first order model were 195, 202, and 171 kJ/mol, respectively. Knowledge of the thermal inactivation kinetics of norovirus surrogates and HAV will allow the development of processes that produce safer food products and improve consumer safety.
人诺如病毒和甲型肝炎病毒(HAV)被认为是食源性疾病的重要流行病学病因。因此,需要开展研究以填补现有数据空白,并确定人诺如病毒和HAV热灭活的合适参数。本研究的目的是比较人诺如病毒替代物(鼠诺如病毒(MNV-1)和猫杯状病毒(FCV-F9))和HAV在缓冲介质(2毫升小瓶)中的热失活动力学,比较用于描述数据的一级模型和韦布尔模型,计算每个模型的阿伦尼乌斯活化能,并使用选定的统计标准评估模型效率。从一级模型计算得出的D值(50-72°C),FCV-F9为0.21-19.75分钟,MNV-1为0.25-36.28分钟,HAV为0.88-56.22分钟。使用韦布尔模型,在相同温度下,FCV-F9、MNV-1和HAV的tD = 1(破坏1个对数所需时间)分别为0.10-13.27、0.09-26.78和1.03-39.91分钟。使用韦布尔模型时,FCV-F9、MNV-1和HAV的z值分别为9.66°C、9.16°C和14.50°C。对于一级模型,FCV-F9、MNV-1和HAV的z值分别为9.36°C、9.32°C和12.49°C。对于韦布尔模型,FCV-F9、MNV-1和HAV的估计活化能分别为225、278和182 kJ/mol,而一级模型的计算活化能分别为195、202和171 kJ/mol。了解诺如病毒替代物和HAV的热失活动力学将有助于开发生产更安全食品的工艺,并提高消费者安全性。
