Potential use of 18 Tesla, static and pulsed magnetic fields on Escherichia coli and Saccharomyces cerevisiae

Escherichia coli and Saccharomyces cerevisiae were subjected to 18 T static and pulsed magnetic fields at different temperatures in either phosphate b uffer, McIlvaine buffer, or peptonated water. Colony forming units were rec orded after incubation in nutrient and Violet Red Bile agar for E. coli and potato dextrose agar for S. cerevisiae. No inactivation or cell injury was detected due to the influence of the magnetic field whether static or puls ed. As expected, at higher temperatures both inactivation and cell injury w ere increased. Although further research is needed, magnetic field technolo gy at 18 T or lower does not appear as a feasible option for processing foo ds.