Displaying all 2 publications

Abstract:
Sort:
  1. Mohd Sazlly Lim S, Naicker S, Ayfan AK, Zowawi H, Roberts JA, Sime FB
    Int J Antimicrob Agents, 2020 Oct;56(4):106115.
    PMID: 32721600 DOI: 10.1016/j.ijantimicag.2020.106115
    Due to limited therapeutic options, combination therapy has been used empirically to treat carbapenem-resistant Acinetobacter baumannii (CRAB). Polymyxin-based combinations have been widely studied and used in the clinical setting. However, the use of polymyxins is often limited due to nephrotoxicity and neurotoxicity. This study aimed to evaluate the activity of non-polymyxin-based combinations relative to polymyxin-based combinations and to identify potential synergistic and bactericidal two-drug non-polymyxin-based combinations against CRAB. In vitro activity of 14 two-drug combinations against 50 A. baumannii isolates was evaluated using the checkerboard method. Subsequently, the two best-performing non-polymyxin-based combinations from the checkerboard assay were explored in static time-kill experiments. Concentrations of antibiotics corresponding to the fractional inhibitory concentrations (FIC) and the highest serum concentration achievable clinically were tested. The most synergistic combinations were fosfomycin/sulbactam (synergistic against 37/50 isolates; 74%), followed by meropenem/sulbactam (synergistic against 28/50 isolates; 56%). No antagonism was observed for any combination. Both fosfomycin/sulbactam and meropenem/sulbactam combinations exhibited bactericidal and synergistic activity against both isolates at the highest clinically achievable concentrations in the time-kill experiments. The meropenem/sulbactam combination displayed synergistic and bactericidal activity against one of two strains at concentrations equal to the FIC. Non-polymyxin-based combinations such as fosfomycin/sulbactam and meropenem/sulbactam may have a role in the treatment of CRAB. Further in vivo and clinical studies are required to scrutinise these activities further.
  2. Heffernan AJ, Sime FB, Lim SMS, Naicker S, Andrews KT, Ellwood D, et al.
    Drugs R D, 2021 Jun;21(2):203-215.
    PMID: 33797739 DOI: 10.1007/s40268-021-00344-5
    BACKGROUND: Even though nebulised administration of amikacin can achieve high epithelial lining fluid concentrations, this has not translated into improved patient outcomes in clinical trials. One possible reason is that the cellular and chemical composition of the epithelial lining fluid may inhibit amikacin-mediated bacterial killing.

    OBJECTIVE: The objective of this study was to identify whether the epithelial lining fluid components inhibit amikacin-mediated bacterial killing.

    METHODS: Two amikacin-susceptible (minimum inhibitory concentrations of 2 and 8 mg/L) Pseudomonas aeruginosa isolates were exposed in vitro to amikacin concentrations up to 976 mg/L in the presence of an acidic pH, mucin and/or surfactant as a means of simulating the epithelial lining fluid, the site of bacterial infection in pneumonia. Pharmacodynamic modelling was used to describe associations between amikacin concentrations, bacterial killing and emergence of resistance.

    RESULTS: In the presence of broth alone, there was rapid and extensive (> 6 - log10) bacterial killing, with emergence of resistance identified in amikacin concentrations < 976 mg/L. In contrast, the rate and extent of bacterial killing was reduced (≤ 5 - log10) when exposed to an acidic pH and mucin. Surfactant did not appreciably impact the bacterial killing or resistance emergence when compared with broth alone for either isolate. The combination of mucin and an acidic pH further reduced the rate of bacterial killing, with the maximal bacterial killing occurring 24 h following initial exposure compared with approximately 4-8 h for either mucin or an acidic pH alone.

    CONCLUSIONS: Our findings indicate that simulating the epithelial lining fluid antagonises amikacin-mediated killing of P. aeruginosa, even at the high concentrations achieved following nebulised administration.

Related Terms
Filters
Contact Us

Please provide feedback to Administrator (afdal@afpm.org.my)

External Links