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Electrochemical determination of the loop diuretics piretanide and furosemide in pharmaceutical formulations and urine

✍ Scribed by M.Begoña Barroso; Rosa M. Alonso; Rosa M. Jiménez

Publisher
Elsevier Science
Year
1995
Tongue
English
Weight
660 KB
Volume
305
Category
Article
ISSN
0003-2670

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✦ Synopsis

The oxidation of the loop diuretics 4-phenoxy-3-(l-pyrrolidinyl)-Ssulphamoylbenzoic acid (piretanide) and 4-chloro-2furfurylamino-Ssulphamoylbenzoic acid (fnrosemide) was studied in methanol-water (10:90) in the pH range 0.3-13

(piretanide) and OS-13 (furosemide), with 0.04 mol/l Britton-Robinson buffers as supporting electrolytes and 0.5 mol/l KC1 as ionic medium at a glassy carbon electrode. Oxidation processes have shown to be irreversible and predominantly diffusion controlled over the whole pH range studied for both diuretics. Voltammetric methods have been developed for the determination of piretanide at pH 5.0 and furosemide at pH 4.5 using differential pulse and square wave voltammetry. The peak current showed a linear relationship with concentration up to 25 mg/l(6.9 X 10m5 mol/l for piretanide and 5.5 X lo-' mol/l for furosemide) with a reproducibility in terms of standard deviation (n = 10) lower than 5.6%. A detection limit of 50 rig/l was obtained (1.38 X lo-' mol/l piretanide and 1.51 X lo-' mol/l furosemide) for both electroanalytical techniques. Methods proposed were applied to pharmaceuticals and spiked urine samples.

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