Affiliation:
1. Department of Food Science (Food Microbiology), Queen's University of Belfast
2. Loughry College—The Food Centre, Department of Agriculture and Rural Development for Northern Ireland, Cookstown, County Tyrone, Northern Ireland, United Kingdom
3. Food Science Division, Department of Agriculture and Rural Development for Northern Ireland, Belfast
Abstract
ABSTRACT
Raw cows' milk naturally infected with
Mycobacterium paratuberculosis
was pasteurized with an APV HXP commercial-scale pasteurizer (capacity 2,000 liters/h) on 12 separate occasions. On each processing occasion, milk was subjected to four different pasteurization treatments, viz., 73°C for 15 s or 25 s with and without prior homogenization (2,500 lb/in
2
in two stages), in an APV Manton Gaulin KF6 homogenizer. Raw and pasteurized milk samples were tested for
M. paratuberculosis
by immunomagnetic separation (IMS)-PCR (to detect the presence of bacteria) and culture after decontamination with 0.75% (wt/vol) cetylpyridinium chloride for 5 h (to confirm bacterial viability). On 10 of the 12 processing occasions,
M. paratuberculosis
was detectable by IMS-PCR, culture, or both in either raw or pasteurized milk. Overall, viable
M. paratuberculosis
was cultured from 4 (6.7%) of 60 raw and 10 (6.9%) of 144 pasteurized milk samples. On one processing day, in particular,
M. paratuberculosis
appeared to have been present in greater abundance in the source raw milk (evidenced by more culture positives and stronger PCR signals), and on this occasion, surviving
M. paratuberculosis
bacteria were isolated from milk processed by all four heat treatments, i.e., 73°C for 15 and 25 s with and without prior homogenization. On one other occasion, surviving
M. paratuberculosis
bacteria were isolated from an unhomogenized milk sample that had been heat treated at 73°C for 25 s. Results suggested that homogenization increases the lethality of subsequent heat treatment to some extent with respect to
M. paratuberculosis
, but the extended 25-s holding time at 73°C was found to be no more effective at killing
M. paratuberculosis
than the standard 15-s holding time. This study provides clear evidence that
M. paratuberculosis
bacteria in naturally infected milk are capable of surviving commercial high-temperature, short-time pasteurization if they are present in raw milk in sufficient numbers.
Publisher
American Society for Microbiology
Subject
Ecology,Applied Microbiology and Biotechnology,Food Science,Biotechnology
Reference24 articles.
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