Killing of microorganisms by pulsed electric fields

Lethal effects of pulsed electric fields (PEF) on suspensions of various bacteria, yeast, and spores in buffer solutions and liquid foodstuffs were examined. Living-cell counts of vegetative cell types were reduced by PEF treatment by up to more than four orders of magnitude ( > 99.99%). On the o...

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Bibliographic Details
Published in:Applied microbiology and biotechnology 1996-03, Vol.45 (1/2), p.148-157
Main Authors: Grahl, T, Markl, H
Format: Article
Language:English
Subjects:
Bacillus cereus - isolation & purification
Biological and medical sciences
Clostridium - isolation & purification
Electricity
Escherichia coli - isolation & purification
Evaluation Studies as Topic
food composition
Food engineering
Food industries
Food Microbiology
Food Preservation - instrumentation
Food Preservation - methods
food processing
food quality
Fundamental and applied biological sciences. Psychology
General aspects
Lactobacillus - isolation & purification
mathematics and statistics
Models, Biological
non-thermal food preservation
Pseudomonas fluorescens - isolation & purification
Saccharomyces cerevisiae - isolation & purification
Spores, Bacterial - isolation & purification
Spores, Fungal - isolation & purification
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Summary:Lethal effects of pulsed electric fields (PEF) on suspensions of various bacteria, yeast, and spores in buffer solutions and liquid foodstuffs were examined. Living-cell counts of vegetative cell types were reduced by PEF treatment by up to more than four orders of magnitude ( > 99.99%). On the other hand, endo- and ascospores were not inactivated or killed to any great extent. The killing of vegetative cell types depends on the electrical field strength of the pulses and on the treatment time (the product of the pulse number and the decay time constant of the pulses). For each cell type, a specific critical electric field strength (Ec) and a specific critical treatment time (tc) were determined. Above these critical values, the fractions of surviving cells were reduced drastically. The "limits" Ec and tc depend on the cell characteristics as well as on the type of medium in which the cells are suspended. Especially in acid media living-cell counts were sufficiently decreased at very low energy inputs. In addition to the inactivation of microorganisms, the effect of PEF on food components such as whey proteins, enzymes and vitamins, and on the taste of foodstuffs was studied. The degree of destruction of these food components by PEF was very low or negligible. Moreover, no significant deterioration of the taste of foodstuffs was detected after PEF treatment. Disintegration of cells by PEF treatment in order to harvest intracellular products was also studied. Yeast cells, suspended in buffer solution, were not disintegrated by electric pulses. Hence, PEF treatment is an excellent process for inactivation of microorganisms in acid and in thermosensitive media, but not for complete disintegration of microbial cells.
ISSN:0175-7598
1432-0614
DOI:10.1007/s002530050663