Activity of Cefepime in Combination with the Novel ß-Lactamase Inhibitor Taniborbactam (VNRX-5133) against Extended-Spectrum-ß-Lactamase-Producing Isolates in In Vitro Checkerboard Assays.

Extended-spectrum-ß-lactamase (ESBL)-producing strains are increasing worldwide, limiting therapeutic options. Taniborbactam (VNRX-5133) is a newly developed ß-lactamase inhibitor with a wide spectrum of activity covering both serine and metallo enzymes. We therefore evaluated cefepime-taniborbactam activity against ESBL-producing isolates and determined the concentrations to be used in MIC determinations in the clinical laboratory. The in vitro activity of cefepime (0.06 to 256 mg liter-1) combined with taniborbactam (0.03 to 32 mg liter-1) against 129 clinically and molecularly well-documented ESBL-producing isolates (42 Escherichia coli, 39 Klebsiella pneumoniae, 28 Pseudomonas aeruginosa, 16 Enterobacter cloacae, 2 Citrobacter freundii, and 2 Enterobacter aerogenes) was tested with a broth microdilution checkerboard method based on the ISO standard. The MICs of cefepime alone and in combination, together with percentage resistance at different concentrations of taniborbactam, were calculated for each species and resistance mechanism. The median (range)/MIC90 of cefepime was 32 (0.125 to 256)/256 mg liter-1 for all Enterobacterales isolates (n = 101), with 72% being resistant, and 32 (8 to 256)/128 mg liter-1 for the 28 P. aeruginosa isolates, with 86% being resistant. The median (range)/90th percentile concentration of taniborbactam required to restore Enterobacterales susceptibility to cefepime (MIC ≤1 mg liter-1) was 0.06 (≤0.03 to 32)/4 mg liter-1 and P. aeruginosa susceptibility to increased exposure to cefepime (MIC ≤8 mg liter-1) 1 (≤0.032 to 32)/32 mg liter-1 At a fixed concentration of 4 mg liter-1 of taniborbactam, cefepime median (range)/MIC90 were reduced to 0.125 (0.06 to 4)/1 mg liter-1 for Enterobacterales with no resistant isolates found, and to 8 (2 to 64)/16 mg liter-1 for P. aeruginosa isolates, where 36% remained resistant. The combination cefepime-taniborbactam demonstrated a potent activity against ESBL isolates, restoring susceptibility of all Enterobacterales and two-thirds of P. aeruginosa isolates.

Pharmacodynamics of imipenem in combination with ß-lactamase inhibitor MK7655 in a murine thigh model.

MK7655 is a newly developed beta-lactamase inhibitor of class A and class C carbapenemases. Pharmacokinetics (PK) of imipenem-cilastatin (IMP/C) and MK7655 were determined for intraperitoneal doses of 4 mg/kg to 128 mg/kg of body weight. MIC and pharmacodynamics (PD) studies of MK7655 were performed against several beta-lactamase producing Pseudomonas aeruginosa and Klebsiella pneumoniae strains to determine its effect in vitro and in vivo. Neutropenic mice were infected in each thigh 2 h before treatment with an inoculum of approximately 5×10(6) CFU. They were treated with IMP/C alone (every 2 hours [q2h], various doses) or in combination with MK7655 in either a dose fractionation study or q2h for 24 h and sacrificed for CFU determinations. IMP/MK7655 decreased MICs regarding IMP MIC. The PK profiles of IMP/C and MK7655 were linear over the dosing range studied and comparable with volumes of distribution (V) of 0.434 and 0.544 liter/kg and half-lives (t1/2) of 0.24 and 0.25 h, respectively. Protein binding of MK7655 was 20%. A sigmoidal maximum effect (Emax) model was fit to the PK/PD index responses. The effect of the inhibitor was not related to the maximum concentration of drug in serum (Cmax)/MIC, and model fits for T>MIC and area under the concentration-time curve (AUC)/MIC were comparable (R2 of 0.7 and 0.75), but there appeared to be no significant relationship of effect with dose frequency. Escalating doses of MK7655 and IMP/C showed that the AUC of MK7655 required for a static effect was dependent on the dose of IMP/C and the MIC of the strain, with a mean area under the concentration-time curve for the free, unbound fraction of the drug (fAUC) of 26.0 mg · h/liter. MK7655 shows significant activity in vivo and results in efficacy of IMP/C in otherwise resistant strains. The exposure-response relationships found can serve as a basis for establishing dosing regimens in humans.