Destruction of Salmonella Enteriditis inoculated onto raw almonds by high hydrostatic pressure

The effects of continuous (50,000, 60,000 and 70,000 psi with holding times of 5 and 10 min) and discontinuous (oscillatory) (six cycles at 60,000 psi with a holding time of 20 s) high hydrostatic pressure (HHP) treatments on the viability of two Salmonella Enteriditis strains (FDA and PT30) inoculated onto raw almonds were evaluated at 25, 50, and 55 degrees C. Complete inactivation of the S. Enteriditis was achieved in 0.1% peptone water after continuous pressurization at 60,000 psi and 25 degrees C for 5 min. Continuous pressurization of raw almonds inoculated with S. Enteriditis at 60,000 psi and 50 degrees C for 5 min resulted in less than a log reduction (log(10) 0.83) of vegetative cells. The decimal reduction time using the continuous pressurization parameters was determined to be 9.78 min. A discontinuous process consisting of six cycles of pressurization at 60,000 psi and 50 degrees C for 20 s provided greater than a one log reduction (log(10) 1.27 for FDA and log(10) 1.16 for PT30) of the S. Enteriditis concentration. The low water activity (a,) of the almonds was found to impart baro-protective attributes on the S. Enteriditis cells. When the almonds were directly suspended in water and then pressurized, a log(10) reduction of 3.37 was achieved. HHP of certain dry foods appears to be feasible if the food is directly suspended in the pressurizing medium (water). (C) 2005 Elsevier Ltd. All rights reserved.