Relationship Study Between Reversed Phase HPLC Retention and Octanol/Water Partition Among Amphoteric Compoundsw

Development of a new liquid chromatographic method for the simultaneous separation of ciprofloxacin degradation products with 5-hydroxymethyl-furfural, impurity of D-glucose, in an intravenous solution for perfusion

The place occupied by fluoroquinolones is very important clinically. Ciprofloxacin has been the most widely prescribed one which exhibits good activity against Pseudomonas aeruginosa and Acinetobacter. D-glucose is frequently used as an excipient in most formulations for perfusion solutions. Since there is much interest in pharmaceutical quality control of such formulations, separation of impurities from the main drug substances and accurate assay quantification, and since there is no reference or monograph until nowadays that has been reported for the simultaneous separation of ciprofloxacin degradation products along with 5-hydroxymethyl-furfural (5-HMF), impurity of D-glucose, classified as a high toxic substance, thus our aim of this work is to develop a new simple, sensitive and stability indicating method allowing this separation by high-performance liquid chromatography. We have started from the chromatographic conditions recommended by the British Pharmacopoeia, and by optimizing the nature of the stationary phase, the composition of the mobile phase and the injection volume. After optimisation, the retained chromatographic conditions have enabled the separation of all impurities with good resolution factor greater than 1.5 for each pair of peaks and with good symmetry peak shape. The developed method was validated according to the International Conference of Harmonisation (ICH) guidelines for specificity, detection and quantification limits, and then it was applied to stability study of the formulation subjected to different ICH prescribed stress conditions. The 5-HMF was checked to be the impurity issued from D-glucose hydrolysis by high temperature mainly after autoclaving of pharmaceuticals. The developed method was proved to be simple, specific with very low limit of quantification. Hence, it can be considered as a method for stability indicating and routine quality control analysis in pharmaceutical industries.

Pharmacokinetics of fluoroquinolones in critical care patients: A bio-analytical HPLC method for the simultaneous quantification of ofloxacin, ciprofloxacin and moxifloxacin in human plasma

A high-performance liquid chromatographic (HPLC) method with fluorescence detection was developed and validated for the simultaneous quantification of ofloxacin, ciprofloxacin and moxifloxacin in human plasma. Sarafloxacin was used as internal standard. Chromatography was carried out using a Waters XBridge C(18) HPLC column and a gradient mobile phase consisting of CH(3)CN/MeOH/0.025M TBA.Cl/TFA (eluent A at 75/25/899/1 (v/v); eluent B at 150/50/799/1 (v/v); both at pH 3.5). Excitation/emission wavelengths were 279/442nm for ciprofloxacin and 290/500nm for ofloxacin, moxifloxacin and internal standard. Prior to chromatography, plasma samples were treated with acetonitrile for protein precipitation, followed by evaporation of the liquid layer and reconstitution in eluent A. The method was validated for the three fluoroquinolones over the clinically relevant concentration range from 0.02 to 7.50mug/ml. The method showed acceptable linearity with correlation coefficients, r(2)>0.995, as well as high precision (RSD% <7% in each case), accuracy (90.4-105.4%) and selectivity. The limit of quantification for the three fluoroquinolones was established at 0.02mug/ml. Ofloxacin, ciprofloxacin and moxifloxacin were extracted from plasma with a mean recovery of 95%, 86.4% and 94.2%, respectively. During validation, the concentration of the three fluoroquinolones was found to be stable after 3 freeze-thaw cycles and for at least 15h after extraction. This bio-analytical method was finally applied to the analysis of samples which have been obtained from patients, participating in a pharmacokinetic study on moxifloxacin.