Rapid detection of low levels of Listeria in foods and next-day confirmation of L. monocytogenes

Abstract

Outbreaks of foodborne listeriosis caused by Listeria monocytogenes in recent years, and the high mortality rate associated with listeriosis, have raised the need for reliable and rapid detection of the pathogen. A simple, automated method was developed for the detection of Listeria organisms in foods. It consists of a 6-h pre-enrichment step followed by overnight incubation in selective broth at 35°C. Changes in light transmittance in the selective broth are registered continuously by an optical sensor of the BioSys instrument (MicroSys, Ann Arbor, MI), and recorded in the computer. Esculin hydrolysis by listeriae results in black coloration of the media that causes a sharp drop in light transmittance, whereas negative samples remain colorless. Confirmation of L. monocytogenes is carried out only on esculin-positive samples and is completed within 6 h. Detection of 10–50 cells of Listeria inoculated into 25 g of food was confirmed in shell eggs, milk and ground beef. Naturally contaminated raw and ready-to-eat foods were further screened to validate the procedure.