Abstract

ObjectivesFosfomycin is re-evaluated as a treatment of multidrug-resistant Enterobacteriaceae infections. However, MIC differences have been described among the different susceptibility testing. The aim was to study the role of the different inoculum size used in agar dilution with respect to broth microdilution, according to CLSI, in the fosfomycin MIC discrepancies. MethodsFosfomycin MICs were determined using agar dilution (reference) and broth microdilution in 220 Escherichia coli (n=81) and Klebsiella pneumoniae (n=139) clinical isolates. Fosfomycin mutant frequencies were determined in 21 E. coli (MIC=1mg/L) and 21 K. pneumoniae (MIC=16mg/L). The emergence of resistant subpopulations of five E. coli strains (MIC=1mg/L) was monitored over the time by microdilution assay using 0, 4 and 8 mg/L of fosfomycin, and eight different inocula (5×105−3.91×103 CFU/well, 1 : 2 dilutions). ResultsFor E. coli, 86.4% of categorical agreement (CA), 9.1% very major errors (VME), 3.3% major errors (ME) and 9.9% minor errors (mE) were found. For K. pneumoniae, CA was 51.1%, VME 15.7%, ME 28.4% and mE 25.2%. Essential agreement (±1–log2) was observed in 55.45%. By microdilution, 35.9% of the MICs showed discrepancies of ≥2 dilutions. Initial inoculum used was 5.63 times higher in the microdilution method, in range with CLSI methodology for both techniques. Fosfomycin mutant frequencies were 6.05×10–5 (4×MIC) to 5.59×10–7 (256×MIC) for E. coli, and 1.49×10–4 (4×MIC) to 1.58×10–5 (16×MIC) for K. pneumoniae. Resistant subpopulations arose mainly after 8 h of incubation with inocula >3.13×104 CFU/well. ConclusionsThe higher inoculum used in the microdilution method enriched the initial inoculum with resistant subpopulations and could partially explain the fosfomycin MIC discrepancies with respect to the agar dilution method.

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