Abstract
Antimicrobial resistance seriously threatened human health. Combination therapy is generally an effective strategy to fight resistance, while some data on its effects are conflicting. To explore the reasons, the fractional inhibitory concentration indexes (FICIs) of three designed combinations against methicillin-resistant Staphylococcus aureus (MRSA) were determined using checkerboard method, and their minimal concentrations inhibiting colony formation by 99% (MIC99%s) and mutant prevention concentrations (MPCs) alone or in combinations including different proportions were first determined using agar plates. The results indicated that different proportions of a combination had presented different MPCs and mutant selection window (MSWs), and also showed that the smaller the FICIs of two agents in combinations were, the more probable their MSWs were to close each other. As two agents of a combination had different pharmacokinetic characters, the ratios of two agents in blood and infectious sites were likely different even though a specific proportion was administrated, which would lead to different effects preventing resistance. Thereby, these experimental results theoretically indicated that synergistic combination closing each other’s MSWs had a great potency to prevent resistance according to the hypotheses of MSW and MPC, and deduced that in vivo synergistic validity of a combination was likely a key to prevent resistance. Moreover, a synergistic combination of roxithromycin/doxycycline with the FICIs of 0.26–0.50 and 0.28–0.38 respectively against MRSA 01 and 02 was obtained, and the MSWs of these two agents could be simultaneously closed each other in a certain range of proportions, but for others. Meanwhile, its effect preventing resistance needs to be further verified.
Highlights
As multi-drug resistance organisms including “ESKAPE” pathogens had been spreading widely and seriously threatened human health[1,2,3], many strategies involving development of new antimicrobial agents[3], revival of old antibiotics[4], combination therapy and optimal use of clinic antimicrobial agents had been putting forward to fight or delay resistance[5]
Combination antimicrobial therapy with two or more drugs is a standard one for infections with human immunodeficiency virus and Mycobacterium tuberculosis[9,10,11]
As the development of new antimicrobial agents has been late for resistance, combination therapy had been considering as an effective strategy to prevent antimicrobial resistance[23,24], while some reports on their therapeutic effects to prevent resistance are conflicting[9]
Summary
As multi-drug resistance organisms including “ESKAPE” pathogens had been spreading widely and seriously threatened human health[1,2,3], many strategies involving development of new antimicrobial agents[3], revival of old antibiotics[4], combination therapy and optimal use of clinic antimicrobial agents had been putting forward to fight or delay resistance[5]. According to the hypotheses of mutant selection window (MSW) and mutant prevention concentration (MPC) put forward by Zhao and Drlica[15,16], maintaining drug concentrations above its MPC throughout therapy can severely restrict the acquisition of drug resistance and achieve its therapeutic effect, while this will increase the risk of adverse and toxic effects. Thereby, we may discover synergistic combination closing each other’s MSWs to avoid their drug concentrations falling into its MSW as possible as we can, and obtain content therapeutic effect with lower dose. Are there some correlations between SI and fractional inhibitory concentration index (FICI) used to evaluate the synergistic effects of antimicrobial agents in checkerboard assay? To discover synergistic combinations as quickly as possible and explore the feasibility that synergistic combination closing each other’s MSWs to prevent antimicrobial resistance, three combinations including seven proportions of each combination were selected for clarifying the correlations between SI and FICI Are there some correlations between SI and fractional inhibitory concentration index (FICI) used to evaluate the synergistic effects of antimicrobial agents in checkerboard assay? To discover synergistic combinations as quickly as possible and explore the feasibility that synergistic combination closing each other’s MSWs to prevent antimicrobial resistance, three combinations including seven proportions of each combination were selected for clarifying the correlations between SI and FICI
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