1. Evaluation of Activity and Emergence of Resistance of Polymyxin B and ZTI-01 (Fosfomycin for Injection) against KPC-Producing Klebsiella pneumoniae
- Author
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Rajnikant Sharma, Cely S. Abboud, Evelyn J. Ellis-Grosse, Gauri G. Rao, and John K. Diep
- Subjects
0301 basic medicine ,medicine.drug_class ,Klebsiella pneumoniae ,030106 microbiology ,Population ,Antibiotics ,Drug resistance ,Microbial Sensitivity Tests ,Fosfomycin ,Pharmacology ,Loading dose ,beta-Lactamases ,Injections ,resistance ,03 medical and health sciences ,carbapenemase ,Bacterial Proteins ,Drug Resistance, Multiple, Bacterial ,medicine ,pharmacodynamics ,Humans ,Pharmacology (medical) ,education ,education.field_of_study ,biology ,business.industry ,polymyxin B ,biochemical phenomena, metabolism, and nutrition ,biology.organism_classification ,extended dosing ,Anti-Bacterial Agents ,Infectious Diseases ,Pharmacodynamics ,business ,Polymyxin B ,medicine.drug - Abstract
ZTI-01 (fosfomycin for injection) is a broad-spectrum antibiotic with a novel mechanism of action and is currently under development in the United States for treatment of complicated urinary tract infections. Globally, fosfomycin and polymyxin B are increasingly being used to treat multidrug-resistant Gram-negative infections. The objectives were to evaluate the pharmacodynamic activity of polymyxin B and fosfomycin alone and in combination against KPC-producing Klebsiella pneumoniae and to assess the rate and extent of emergence of resistance to different antibiotic regimens. Two clinical isolates, BRKP26 (MIC of polymyxin B[MIC PMB ], 0.5 mg/liter; MIC of fosfomycin [MIC FOF ], 32 mg/liter) and BRKP67 (MIC PMB , 8 mg/liter; MIC FOF , 32 mg/liter) at an initial inoculum of 10 7 CFU/ml, were evaluated over 168 h in a hollow-fiber infection model simulating clinically relevant polymyxin B (2.5-mg/kg loading dose as a 2 h-infusion followed by 1.5-mg/kg dose every 12 h [q12h] as a 1-h infusion) and fosfomycin (6 g q6h as a 1-h or 3-h infusion) regimens alone and in combination. Population analysis profiles (PAPs) and MIC testing were performed to assess emergence of resistance. Polymyxin B or fosfomycin monotherapy was ineffective and selected for resistance by 24 h. Polymyxin B plus a fosfomycin 1-h infusion demonstrated sustained bactericidal activity by 4 h, with undetectable colony counts beyond 144 h. Polymyxin B plus a fosfomycin 3-h infusion demonstrated bactericidal activity at 4 h, followed by regrowth similar to that of the control by 144 h. PAPs revealed resistant subpopulations by 120 h. The combination of polymyxin B and a fosfomycin 1-h infusion is a promising treatment option for KPC-producing K. pneumoniae and suppresses the emergence of resistance. Further evaluation of novel dosing strategies is warranted to optimize therapy.
- Published
- 2018