Characterization of Shiga-toxin producingEscherichia coliisolated from meat products sold in San Luis, Argentina

Abstract

Shiga toxin‐producing Escherichia coli (STEC) in meat products was studied by four procedures which combined enrichment, immunomagnetic separation (IMS), plating, and a stx screening polymerase chain reaction. A total of 167 samples (57 ground beef, 58 fresh sausages, and 52 precooked sausages) were collected from retail markets in San Luis, Argentina. The number of stx‐positive samples represented 11.4% of the total (19/167) distributed as follows: seven for raw ground beef (12.3%), six for precooked sausages (11.5%), and six for fresh sausages (10.3%). The stx‐positive sample rate increased when IMS was included in detection protocols. The stx₂ gene (16/19) was more frequently detected than stx₁ (4/19). The eae, rfbEO₁₅₇, and fliCh7 genes were also investigated in stx‐positive samples. Three non‐O157 STEC strains were isolated from one precooked sausage and one fresh sausage (1.2%, 2/167). Their potential pathogenicity, antimicrobial susceptibility, and genetic diversity were determined. This study highlights meat products as possible vehicles for transmission of STEC in this Argentine region. PRACTICAL APPLICATIONS: Meat products intended for human consumption can be vehicles for the transmission of Shiga toxin‐producing Escherichia coli (STEC) in this region. STEC strains isolated from sausages in this work represent a hazard for consumers. Further research to continue the STEC surveillance in meat products from this region in Argentina and to improve the STEC detection procedures in these foods and other possible transmission vehicles of this pathogen is required. Additionally, livestock control programs as well as good practices for slaughtering, processing, and manufacturing plants should be implemented to reduce STEC spreading in the food chain. Adequate cooking of ground beef and fresh and precooked sausages is recommended to consumers.