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The Rising Tide of Antibiotic Resistance: A Study on Extended‐Spectrum Beta‐Lactamase and Carbapenem‐Resistant Escherichia coli and Klebsiella pneumoniae
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ABSTRACTBackgroundThe global spread of extended‐spectrum beta‐lactamase (ESBL)‐producing and carbapenem‐resistant Enterobacterales (CRE) poses a significant concern. Acquisition of antimicrobial resistance genes leads to resistance against several antibiotics, limiting treatment options. We aimed to study ESBL‐producing and CRE transmission in clinical settings.MethodsFrom clinical samples, 227 ESBL‐producing and CRE isolates were obtained. The isolates were cultured on bacterial media and confirmed by VITEK 2. Antibiograms were tested against several antibiotics using VITEK 2. The acquired resistance genes were identified by PCR.ResultsOf the 227 clinical isolates, 145 (63.8%) were Klebsiella pneumoniae and 82 (36.1%) were Escherichia coli; 76 (33.4%) isolates were detected in urine, 57 (25.1%) in pus swabs, and 53 (23.3%) in blood samples. A total of 58 (70.7%) ESBL‐producing E. coli were resistant to beta‐lactams, except for carbapenems, and 17.2% were amikacin‐resistant; 29.2% of E. coli isolates were resistant to carbapenems. A total of 106 (73.1%) ESBL‐producing K. pneumoniae were resistant to all beta‐lactams, except for carbapenems, and 66.9% to ciprofloxacin; 38 (26.2%) K. pneumoniae were resistant to carbapenems. Colistin emerged as the most effective antibiotic against both bacterial types. Twelve (20.6%) E. coli isolates were positive for blaCTX‐M, 11 (18.9%) for blaTEM, and 8 (33.3%) for blaNDM. Forty‐six (52.3%) K. pneumoniae isolates had blaCTX‐M, 27 (18.6%) blaTEM, and 26 (68.4%) blaNDM.ConclusionThis study found a high prevalence of drug‐resistant ESBL‐producing and CRE, highlighting the need for targeted antibiotic use to combat resistance.
Title: The Rising Tide of Antibiotic Resistance: A Study on Extended‐Spectrum Beta‐Lactamase and Carbapenem‐Resistant Escherichia coli and Klebsiella pneumoniae
Description:
ABSTRACTBackgroundThe global spread of extended‐spectrum beta‐lactamase (ESBL)‐producing and carbapenem‐resistant Enterobacterales (CRE) poses a significant concern.
Acquisition of antimicrobial resistance genes leads to resistance against several antibiotics, limiting treatment options.
We aimed to study ESBL‐producing and CRE transmission in clinical settings.
MethodsFrom clinical samples, 227 ESBL‐producing and CRE isolates were obtained.
The isolates were cultured on bacterial media and confirmed by VITEK 2.
Antibiograms were tested against several antibiotics using VITEK 2.
The acquired resistance genes were identified by PCR.
ResultsOf the 227 clinical isolates, 145 (63.
8%) were Klebsiella pneumoniae and 82 (36.
1%) were Escherichia coli; 76 (33.
4%) isolates were detected in urine, 57 (25.
1%) in pus swabs, and 53 (23.
3%) in blood samples.
A total of 58 (70.
7%) ESBL‐producing E.
coli were resistant to beta‐lactams, except for carbapenems, and 17.
2% were amikacin‐resistant; 29.
2% of E.
coli isolates were resistant to carbapenems.
A total of 106 (73.
1%) ESBL‐producing K.
pneumoniae were resistant to all beta‐lactams, except for carbapenems, and 66.
9% to ciprofloxacin; 38 (26.
2%) K.
pneumoniae were resistant to carbapenems.
Colistin emerged as the most effective antibiotic against both bacterial types.
Twelve (20.
6%) E.
coli isolates were positive for blaCTX‐M, 11 (18.
9%) for blaTEM, and 8 (33.
3%) for blaNDM.
Forty‐six (52.
3%) K.
pneumoniae isolates had blaCTX‐M, 27 (18.
6%) blaTEM, and 26 (68.
4%) blaNDM.
ConclusionThis study found a high prevalence of drug‐resistant ESBL‐producing and CRE, highlighting the need for targeted antibiotic use to combat resistance.
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