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Emergence of β-lactamase- and carbapenemase- producing Enterobacteriaceae at integrated fish farms
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Emergence of β-lactamase- and carbapenemase- producing Enterobacteriaceae at integrated fish farms
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Journal Article
Emergence of β-lactamase- and carbapenemase- producing Enterobacteriaceae at integrated fish farms
2020
Overview
Background
Epidemiological studies suggested that determinants for antibiotic resistance have originated in aquaculture. Recently, the integrated agriculture-aquaculture system has been implemented, where fish are raised in ponds that receive agriculture drainage water. The present study aims to investigate the occurrence of β-lactamase and carbapenemase-producing
Enterobacteriaceae
in the integrated agriculture-aquaculture and the consequent public health implication.
Methods
Samples were collected from fish, fishpond water inlets, tap water, outlet water, and workers at sites of integrated agriculture-aquacultures. Samples were also taken from inhabitants of the aquaculture surrounding areas. All samples were cultured on MacConkey agar, the
Enterobacteriaceae
isolates were tested for susceptibility to cephalosporins and carbapenems, and screened for
bla
CTX-M-15
,
bla
SHV
,
bla
OXA-1
,
bla
TEM
,
bla
PER-1
,
bla
KPC
,
bla
OXA-48
, and
bla
NDM
. Strains having similar resistance phenotype and genotype were examined for the presence of Incompatible (Inc) plasmids.
Results
A major proportion of the
Enterobacteriaceae
isolates were resistant to cephalosporins and carbapenems. Among the 66 isolates from fish, 34 were resistant to both cephalosporin and carbapenem groups, 26 to carbapenems alone, and 4 to cephalosporins alone. Of the 15 isolates from fishpond water inlets, 8 showed resistance to both groups, 1 to carbapenems alone, and 5 to cephalosporins alone. Out of the 33 isolates from tap water, 17 were resistant to both groups, and 16 to cephalosporins alone. Similarly, of the 16 outlet water isolates, 10 were resistant to both groups, and 6 to cephalosporins alone. Furthermore, of the 30 examined workers, 15 carried
Enterobacteriaceae
resistant strains, 10 to both groups, and 5 to cephalosporins alone. Similar strains were isolated from the inhabitants of the aquaculture surrounding areas. Irrespective of source of samples, strains resistant to all examined antibiotics, carried predominantly the carbapenemase gene
bla
KPC
either alone or with the β-lactamase genes (
bla
CTX-M-15
,
bla
SHV
,
bla
TEM
, and
bla
PER-1
). The isolates from fish, water, and workers harboured a wide-range of multi-drug-resistance Inc. plasmids, which were similar among all isolates.
Conclusion
The present findings suggest transmission of the resistance genes among
Enterobacteriaceae
strains from different sources. This reiterates the need for control strategies that focus on humans, animals, water, and sewage systems to solve the antibiotic resistance problem.
Publisher
BioMed Central,Springer Nature B.V,BMC
Subject
/ Animals
/ Aquaculture-agriculture-farms
/ Bacteria
/ Bacterial Proteins - genetics
/ Biomedical and Life Sciences
/ Carbapenem-Resistant Enterobacteriaceae - classification
/ Carbapenem-Resistant Enterobacteriaceae - genetics
/ Carbapenem-Resistant Enterobacteriaceae - isolation & purification
/ Egypt
/ Enterobacteriaceae - classification
/ Enterobacteriaceae - genetics
/ Enterobacteriaceae - isolation & purification
/ Enzymes
/ Humans
/ Inlets
/ Outlets
/ Plasmids
/ Sewage
/ Tilapia
