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Modified Ionic Liquid Cold-Induced Aggregation Dispersive Liquid-Liquid Microextraction Combined with Spectrofluorimetry for Trace Determination of Ofloxacin in Pharmaceutical and Biological Samples

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Author(s): M. Zeeb | M.R. Ganjali | P. Norouzi

Journal: DARU : Journal of Pharmaceutical Sciences
ISSN 1560-8115

Volume: 19;
Issue: 6;
Start page: 446;
Date: 2011;
Original page

Keywords: 1-Hexyl-3-Methylimidazolium Hexafluorophosphate | Common Ion | Real Samples

ABSTRACT
Background and the purpose of the study: Ofloxacin is a quinolone synthetic antibiotic, which acts against resistant mutants of bacteria by inhibiting DNA gyrase. This antibacterial agent is widely used in the treatment of respiratory tract, urinary tract and tissue-based infections, which are caused by Gram-positive and Gram-negative bacteria. In this work, an efficient modified ionic liquid cold-induced aggregation dispersive liquid-liquid microextraction (M-IL-CIA-DLLME) was combined with spectrofluorimetry for trace determination of ofloxacin in real samples.Methods: In this microextraction method, hydrophobic 1-hexyl-3-methylimidazolium hexafluorophosphate ([Hmim] [PF6]) ionic liquid (IL) as a microextraction solvent was dispersed into a heated sample solution containing sodium hexafluorophosphate (NaPF6) (as a common ion) and the analyte of interest. Afterwards, the resultant solution was cooled in an ice-water bath and a cloudy condition was formed due to a considerable decrease of IL solubility. After centrifuging, the enriched phase was introduced to the spectrofluorimeter for the determination of ofloxacin.Results and major conclusion: In this technique, the performance of the microextraction method was not influenced by variations in the ionic strength of the sample solution (up to 30% w/v). Furthermore, [Hmim][PF6] IL was chosen as a green microextraction phase and an alternative to traditional toxic organic solvents. Different parameters affecting the analytical performance were studied and optimized. At optimum conditions, a relatively broad linear dynamic range of 0.15-125 μg l-1 and a limit of detection (LOD) of 0.029 μg l-1 were obtained. The relative standard deviation (R.S.D.) obtained for the determination of five replicates of the 10 ml solution containing 50 μg l-1 ofloxacin was 2.7%. Finally, the combined methodology was successfully applied to ofloxacin determination in actual pharmaceutical formulations and biological samples.
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