Murat Cengiz; Pinar Sahinturk; Gulce Hepbostanci; Halis Akalin; Songul Sonal
Volume 13, Issue 2 , June 2022, , Pages 149-153
Abstract
Due to the high prevalence of multi-drug resistant bacteria, combination therapy is an efficient choice for treatment of infections caused by highly resistant strains. In this study, the efficacy of ceftiofur plus danofloxacin combination was investigated against resistant Escherichia coli. The interaction ...
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Due to the high prevalence of multi-drug resistant bacteria, combination therapy is an efficient choice for treatment of infections caused by highly resistant strains. In this study, the efficacy of ceftiofur plus danofloxacin combination was investigated against resistant Escherichia coli. The interaction between the two drugs was determined by checkerboard tests and time-kill assays. The combination was defined as bactericidal or bacteriostatic based on the minimum bactericidal concentration test results. Mutant prevention concentration test was used to evaluate the resistance tendency suppression potential of the combination. The combination had a synergistic effect against 83.00% of the isolates as verified by the checkerboard and time-kill assays. The combination was defined as bactericidal against all E. coli strains, since minimum bactericidal concentration: minimum inhibitory concentration ratios were below four thresholds and also markedly reduced mutant prevention concentration values of ceftiofur up to 4000-fold compared to its single use. Ceftiofur plus danofloxacin combination inhibited growth of E. coli strains which were resistant to ceftiofur or newer generation of fluoroquinolones. Our results suggest that ceftiofur plus danofloxacin combination has a bactericidal characteristic and can be an important alternative for the treatment of infections caused by resistant E. coli.
Ali Rassouli; Katayoun Kiani; Yalda Hosseizadeh Ardakani; Hamid Akbari Javar; Sakineh Khanamani Falahatipour
Volume 12, Issue 2 , June 2021, , Pages 253-257
Abstract
Sustained release drug formulations are frequently developed to reduce dosage frequency and to improve outcomes of drug therapy. This study evaluates the pharmacokinetic (PK) parameters of a novel injectable danofloxacin (DANO) formulation in comparison with a conventional product in an animal model. ...
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Sustained release drug formulations are frequently developed to reduce dosage frequency and to improve outcomes of drug therapy. This study evaluates the pharmacokinetic (PK) parameters of a novel injectable danofloxacin (DANO) formulation in comparison with a conventional product in an animal model. A recently synthesized DANO formulation, prepared by incorporation of DANO-loaded mesoporous silica nanoparticles in liposomes and integration of liposomes in chitosan and β-glycerophosphate solution (lipogel) along with the conventional DANO product were injected subcutaneously (SC) in rabbits. Blood samples were collected at specific time points and DANO concentrations in plasma samples were measured. The PK parameters including maximum concentration (Cmax), time to reach Cmax (Tmax), area under the concentrationversustime curves (AUC), area under the first moment concentration-time curve (AUMC) and mean residence time (MRT) were studied by non-compartmental analyses. The values of MRT (156.00 ± 20.00 hr), AUC (15.30 ± 3.00 µg mL-1 perhr) and Tmax (4.70 ± 1.60 hr) for lipogel formulation were higher than those of the conventional product (8.50 ± 3.60 hr, 3.70 ± 2.00 µg mL-1 per hr and 0.80 ± 0.26 hr, respectively). However, Cmax values for lipogel formulation (0.41 ± 0.15 µg mL-1) were significantly lower than those of the conventional drug product (0.68 ± 0.09 µg mL-1). It was concluded that the novel DANO lipogel effectively slowed down the drug absorption and the incorporation of liposomes in hydrogel could be a useful approach to maintain the therapeutic drug level for a longer period; however, more studies are needed in this field.