A versatile HPLC method with an isocratic single mobile phase system for simultaneous determination of anti-glaucoma formulations containing timolol.

Timolol is a non-cardioselective beta blocker and has different combined ophthalmic dosage forms for treatment of glaucoma. This research introduce an HPLC method for the separation of three drugs used in combination with timolol simultaneously by applying isocratic mobile phase system in a single run and the same detection wavelength with short time. The drugs included in the separation procedures are; dorzolamide, brinzolamide, and brimonidine. The HPLC method was carried out through a single mobile phase system, which contains acetonitrile: 0.05M phosphate buffer at the ratio of 30:70, respectively at pH 3.5 and wavelength of 220nm. The method, regarding its simplicity allows determination of the studied drugs simultaneously using single run in about 8minutes. The method was rectilinear in the ranges of concentration: 1.25-25µg/mL for timolol, 4-80µg/mL for dorzolamide, 5-50µg/mL for brinzolamide and 2-20µg/mL for brimonidine. Different factors affecting the separation are thoroughly studied. The developed method was validated based on the official guidelines and the results were compared statistically with previously published methods and showed non-significant difference.

Highly sensitive spectrofluorimetric method for rapid determination of orciprenaline in biological fluids and pharmaceuticals.

Orciprenaline sulphate (ORP) is a direct-acting sympathomimetic with mainly beta-adrenoceptor stimulant activity. It is used as a bronchodilator in the management of reversible airway obstruction. For the first time, a rapid highly sensitive spectrofluorimetric method is described that is relied on measuring the fluorescence spectra of ORP at acidic pH and without addition of any chemical reagents. The relative fluorescence intensity was measured at 310 nm and after excitation at 224 nm. ORP native fluorescence was calibrated in both water and acetonitrile as diluting solvents. The method was designed to estimate the drug in miscellaneous matrices with high accuracy and precision. Linear ranges of calibration curves were 30.0-400.0 ng/ml and 10.0-240.0 ng/ml in water and acetonitrile, respectively. The detection limits were calculated and reached as low as 3.3 and 3.1 ng/ml, respectively, representing the ultra-sensitivity of the proposed method. This result permitted application of this method for spiked human plasma and urine and was used as a preliminary investigation with good percentage recovery (89.4-106.8%). The application was further extended to analyse ORP in its pharmaceutical formulations. The method was validated in compliance with International Council of Harmonization (ICH) Guidelines.