María Valeria Rumi scite author profile

Shiga toxin-producing Escherichia coli (STEC), responsible for the hemolytic uremic syndrome, is an endemic pathogen in Argentina. We studied the prevalence of STEC in fecal samples from cats and dogs of Buenos Aires city and suburbs. Cultures were used for screening stx1/stx2 and rfbO157 by multiplex PCR. All E. coli-positive colonies for these genes were further characterized for the eae gene and for serotypes. In dogs, 17 (3.7%), 19 (4.2%) and 34 (7.5%) of samples were positive for stx2, stx1 and rfb, respectively. In cats, six (4.0%) of the samples were positive for stx2, three (2.0%) for stx1 and four (2.7%) for rfbO157. In 18 (4.0%) of the dog samples, a bacteriological diagnosis was obtained by isolation. The percentage of positive isolates corresponding to the rfbO157 and to the stx2 genotypes were 2.9% and 1.1%, respectively. In four of the cat samples, the bacteriological diagnosis for stx2 (2.6% prevalence of STEC) was confirmed. Although these data suggest that the high infection index of STEC in children in Argentina does not seem to be due mainly to the role of cats and dogs, there are some strains with virulence genes in common for humans and their domestic animals.

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Co-occurrence of clinically relevant β-lactamases and MCR-1 encoding genes in Escherichia coli from companion animals in Argentina

Rumi

Mas

Elena

et al. 2019

Veterinary Microbiology

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Profile of Shiga toxin-producing Escherichia coli strains isolated from dogs and cats and genetic relationships with isolates from cattle, meat and humans

Bentancor

Rumi

Carbonari

et al. 2012

Veterinary Microbiology

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Characterization of Shiga Toxin-ProducingEscherichia coliIsolated from Ground Beef Collected in Different Socioeconomic Strata Markets in Buenos Aires, Argentina

Llorente

Barnech

Irino

et al. 2014

BioMed Research International

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Consumption of raw/undercooked ground beef is the most common route of transmission of Shiga toxin-producing E. coli (STEC). The aim of the study was to determine the STEC contamination level of the ground beef samples collected in 36 markets of different socioeconomic strata in Buenos Aires, Argentina, and the characterization of the isolated strains. Ninety-one out of 252 (36.1%) samples were stx+. Fifty-seven STEC strains were recovered. Eleven STEC strains belonged to O157 serogroup, and 46 to non-O157 serogroups. Virulence markers of the 57 STEC were stx1, 5.3% (3/57); stx2, 86.0% (49/57); stx1/stx2, 8.8% (5/57); ehxA, 61.4% (35/57); eae, 26.3% (15/57); saa, 24.6% (14/57). Shiga toxin subtypes were stx2, 31.5% (17/54); stx2c-vhb, 24.1% (13/54); stx2c-vha, 20.4% (11/54); stx2/stx2c-vha, 14.8% (8/54); stx2/stx2c-vhb, 5.6% (3/54); stx2c-vha/vhb, 3.7% (2/54). Serotypes O178:H19 and O157:H7 were prevalent. Contamination rate of STEC in all strata was high, and the highest O157 contamination was observed at low strata at several sampling rounds. Persistence of STEC was not detected. Sixteen strains (28.1%) were resistant to ampicillin, streptomycin, amikacin, or tetracycline. The STEC contamination level of ground beef could vary according to the sociocultural characteristics of the population.

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Synanthropic rodents as possible reservoirs of shigatoxigenic Escherichia coli strains

Crivelli¹,

Rumi²,

Carfagnini³

et al. 2012

Front. Cell. Inf. Microbio.

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Shigatoxigenic Escherichia coli (STEC) strains are worldwide zoonotic pathogen responsible for different cases of human disease including hemolytic uremic syndrome (HUS). Transmission of STEC to humans occurs through the consumption of food and water contaminated by faeces of carriers and by person-to-person contact. The objective of this study was two-fold: (1) to investigate whether synanthropic rodents are possible reservoirs of STEC in the urban area and (2) whether a particular genus out of synanthropic rodent is the principal carrier of STEC. One hundred and forty-five rodents were captured in Buenos Aires City. Screening for stx1/stx2 and rfbO157 was done by PCR from the confluence zone. STEC isolates were further characterized with biochemical tests by standard methods. Additional virulence factors (eae, ehxA, and saa) were also determined by PCR. Forty-one of the rodents were necropsied and sample of kidney and small and large intestine were taken for histopathological diagnosis. The samples sections were stained with hematoxylin-eosin, and observed by light microscopy to evaluate the systemic involvement of these species in natural infections. STEC was isolated from seven out of 27 suspect animals at screening. The following genotypes were found in the STEC strains: stx1/stx2/ehxA (1), stx2 (4), stx2/ehxA (1), stx2/ehxA/eae (1). Neither gross nor microscopic lesions compatible with those produced by Shiga toxin were observed in the studied organs of necropsied rodents. The bivariate analysis including the 145 rodent's data showed that the isolation of STEC is associated positively to Rattus genus. This synanthropic species may play a role in the transmissibility of the agent thus being a risk to the susceptible population. Their control should be included specifically in actions to dismiss the contamination of food and water by STEC in the urban area, as additional strategies for epidemiological control.

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