VS Jayamanne* and U Samarajeewa
Department of Food Science & Technology, Faculty of Agriculture, University of Ruhuna, Kamburupitiya, Sri Lanka
Abstrsact
Listeria monocytogenes, which is a food-borne pathogen often isolated from milk and milk products, causes listeriosis in pregnant women, newborns, older adults and immuno-suppressed people. Listeria is said to be more resistant to heat treatments and the present study investigated the effects of current heat treatments on inactivation of Listeria in milk. Two isolates of L. monocytogenes, namely FSTLC2 and FSTLC55, were introduced to sterilized milk at population levels of 102 and 107 cfu/ml and were subjected to various temperature-time combinations. Listeria was enumerated using the FDA Listeria Enrichment Broth (LEB; Oxoid Ltd) and Modified Oxford Agar (MOX; Oxoid Ltd) medium. The Thermal Death Time (TDT) and Thermal Death Rate (TDR) curves were also constructed using thermal resistance data. The slope of the TDT curve (z) and the slope of the TDR curve (D; Decimal Reduction Time) were also determined using the statistical software package Minitab (release 8.21). It was observed that the normal pasteurization treatments of 62.8oC for 30 min (LTLT; Low Temperature Long Time) and 71.7oC for 15sec (HTST; High Temperature Short Time) appear to be adequate to destroy a Listeria population of 102CFU/ml in milk, but not a population of 107cfu/ml. A z value of 7.6oC and a D71.7 oC value of 2.9sec were observed for L. monocytogenes in milk. The current heat treatment techniques used in the dairy industry need to be reviewed and necessary modifications introduced to ensure a complete elimination of this pathogen. Moreover, the z and D71.7 oC values observed in the present study may be used in devising sound heat treatment techniques as well as suitable Hazard Analysis Critical Control Points (HACCP) systems in the dairy industry.
Key words:Listeria monocytogenes, Thermal inactivation, Heat resistance, Pasteurization, Thermal Death Time, Thermal Death Rate
Full Text : pdf (663 kb)
* - Corresponding Author
|