Antibiotic-Resistant in Drinking Water Samples from Rural Andean Households in Cajamarca, Peru

Overview

Journal Am J Trop Med Hyg

Specialty Tropical Medicine

Date 2019 Apr 25

PMID 31017079

Citations 11

Authors

Anika Larson

Stella Maria Hartinger

Maribel Riveros

Gabriela Salmon-Mulanovich

Jan Hattendorf

Hector Verastegui

Maria Luisa Huaylinos

Daniel Mausezahl

Affiliations

Soon will be listed here.

Abstract

Antibiotic resistance in pathogenic bacteria is a serious public health issue. The growing threat is a cause for concern and action to prevent the emergence of new resistant strains and the spread of existing ones to humans via the environment. This study aimed at identifying fecal pathogens in drinking water obtained from rural Andean households from Cajamarca, Peru, and measuring the antibiotic resistance profile of . The study was embedded within a community-randomized controlled trial among 102 communities in the northern highlands of the Cajamarca region, Peru. Of 314 samples, 55.4% (95% CI [49.7, 61.0], = 174) were identified as thermotolerant coliforms. Among the samples positive for thermotolerant coliform, was isolated in 37.3% ( = 117), spp in 8.0% ( = 25), spp in 5.1% ( = 16), and spp in 2.5% ( = 8). Of the 117 samples, 48.7% (95% CI [39.4, 58.1], = 57) showed resistance to any antibiotic. The antibiotic resistance profile showed highest resistance against tetracycline (37.6%), ampicillin (34.2%), sulfamethoxazole-trimethoprim (21.4%), and nalidixic acid (13%). Some 19.7% (95% CI [12.9, 28.0], = 23) of the isolates displayed multidrug resistance, defined as resistance to at least three classes of antibiotics. The CTX-M-3 gene, which encodes extended-spectrum resistance to beta-lactamase antibiotics, was found in one isolate. The high prevalence of fecal contamination in drinking water highlights the importance of household water treatment methods. Likewise, the high levels of antibiotic resistance found indicate a need for further research to identify the origins of potential environmental contamination, misuse, or inadequate disposal of antibiotics.

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