Resistance of Campylobacter jejuni to heat and to pulsed electric fields

The resistance of Campylobacter jejuni NCTC 11351 to heat and to pulsed electric fields (PEF) was studied at different treatment intensities (temperatures between 52 and 60 °C, and electric field strengths between 15 and 35 kV/cm, respectively). The influence of the growth phase, the pH of the treatment medium and the presence of sodium pyruvate in the recovery medium was also examined. A model based on the Weibull distribution was used to describe the inactivation curves, and times for the first decimal reduction were calculated (δ values). C. jejuni cells did not increase their resistance to heat nor to PEF upon entrance into stationary phase. The acidification of the treatment medium from 7.0 to 4.5 caused a sensitization of C. jejuni to heat (δ value at 55 °C × 1/4); on the contrary, resistance to PEF was increased (δ value at 25 kV/cm × 2.5). The absence of pyruvate in the recovery medium prevented recovery of a high percentage of heat-treated cells, but did not affect PEF survival. Whereas C. jejuni can be considered a heat sensitive organism (δ value at 55 °C and buffer of pH 7.0 of 2 min, z value 4.40 °C), it showed a relatively high resistance to PEF as compared to other vegetative cells (δ value at 25 kV/cm and buffer of pH 7.0 of 7 pulses, zPEF value 8.20 kV/cm). Results obtained in this investigation indicate that Campylobacter spp. should be taken into account for the design of PEF treatments for food hygienization.Industrial relevanceBefore PEF can be commercially implemented it is necessary to determine its efficacy on pathogenic microorganisms of interest in order to ensure safety of food. There is no data available about the resistance of C. jejuni to pulsed electric fields, although it is now recognised as the leading cause of bacterial food-borne gastroenteritis throughout the world. In this research we characterize the resistance to heat and to PEF of C. jejuni NCTC 11351. Physiological factors affecting its survival to both agents are also explored.