A Novel Approach of CFIA Technique for Assaying of Furosemide (Sulfa Drug) as Antibacterial Agent in Pharmaceutical and Biological Samples Using Potassium Ferricyanide as Oxidizing Agent

Main Article Content

Wasan Ajam
Bushra Basheer

Abstract

Furosemide drug determination in pharmaceutical and biological urine samples using a novel continuous flow-injection analysis technique that is simple, rapid, sensitive and economical. The complex formed by the reaction of furosemide and O-phenylenediamine with oxidative agent K3[Fe(CN)6] to produce an orange-yellow colored product at 460 nm was the basis for the proposed method.  The proposed method’s linearity ranges (3-100) μg.mL-1and (1-50) μg.mL-1 for CFIA/merging zone methods and batch .The detection limit and Limit of quantification values were 2.7502 μg.mL-1  and 9.1697 μg.mL-1 the relative standard deviation was 0.7143 %, and the average recovery is 98.80% with a verified sample throughput of 73 h-1 . The new approach was effectively employed to determination of furosemide the presence of in the pure, biological, and pharmaceutical samples.

Article Details

How to Cite
[1]
Ajam, W. and Basheer, B. 2023. A Novel Approach of CFIA Technique for Assaying of Furosemide (Sulfa Drug) as Antibacterial Agent in Pharmaceutical and Biological Samples Using Potassium Ferricyanide as Oxidizing Agent. Ibn AL-Haitham Journal For Pure and Applied Sciences. 36, 4 (Oct. 2023), 246–261. DOI:https://doi.org/10.30526/36.4.3155.
Section
Chemistry

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References

Naveed, S.; Qamar, F.; Zainab, S. Simple UV Spectrophotometric Assay of Furosemide. JIPBS 2014,3, 97-101.

Khan, T.M.; Patel, R.; Siddiqui, A.H. Furosemide. In Stat Pearls. 2020, 12.

Miles, J.A.; Hanumanthu, B.K.; Patel, K.; Chen, M.; Siegel, RM.; Kokkinos’s, D.G. Torsemide Versus Furosemide and Intermediate-Term Outcomes in Patients with Heart Failure: An Updated Meta-Analysis. Journal of Cardiovascular Medicine. 2019,20, 379-388.

Rahhal, A.; Saad, MO.; Tawengi, K.; Assi, AA.; Habra, M.; Ahmed, D. Torsemide Versus Furosemide After Acute Decompensated Heart Failure: BMC cardiovascular disorders. 2019,1.

Heidarimoghadam, R.; Farmany, A. Rapid determination of furosemide in drug and blood plasma of wrestlers by a carboxyl-MWCNT sensor. Materials Science and Engineering .2016 ,58,1242-1245. DOI: https://doi.org/10.1016/j.msec.2015.09.062

Kimura, S.; Kiriyam, A.; Nishimura, E.; Sakata, S.; Inoue, D.; Furubayashi, T.; Yutani, R.; Tanaka ,A.; Kusamori, K.; Katsumi, H.;Iga, K. Dec 1; Novel Strategy for the Systemic Delivery of Furosemide Based on a New Drug Transport Mechanism. Biological and Pharmaceutical Bulletin. 2018,41,1769-1777.

Emam, A.A.; A.; E.A.; Naguib, I.A.; Abdallah, F.F.; Ali, N.W. Successive Ratio Subtraction as a Novel Manipulation of Ratio Spectra for Quantitative Determination of a Mixture of Furosemide, Spironolactone and Canrenone. Spectrochimica Acta Part A. Molecular and Biomolecular Spectroscopy. 2018,192,427-436. DOI: https://doi.org/10.1016/j.saa.2017.11.034

Naguib, IA.; A.; EA.; Emam, AA.; Ali, NW.; Abdallah, FF. Development and Validation of HPTLC and Green HPLC Methods for Determination of Furosemide, Spironolactone and Canrenone, in Pure Forms, Tablets and Spiked human Plasma. Biomedical Chromatography. 2018,32,4304. DOI: https://doi.org/10.1002/bmc.4304

Sora, D.I.; Udrescu, S.; Albu, F.; David, V.; Medvedovici, A. Analytical Issues in HPLC/MS/MS Simultaneous Assay of Furosemide, Spironolactone and Canrenone in Human Plasma Samples. Journal of pharmaceutical and biomedical analysis. 2010, 52,734-740. DOI: https://doi.org/10.1016/j.jpba.2010.03.004

Ram, V.R.; Dave, P.N.; Joshi, H.S. Development and Validation of a Stability-Indicating HPLC Assay Method for Simultaneous Determination of Spironolactone and Furosemide in Tablet Formulation. Journal of chromatographic science. 2012,50,721-726. DOI: https://doi.org/10.1093/chromsci/bms062

Ferraro, M.C.; Castellano, P.M.; Kaufman, T.S. A Spectrophotometric-Partial Least Squares (PLS-1) Method for the Simultaneous Determination of Furosemide and Amiloride Hydrochloride in Pharmaceutical Formulations. Journal of pharmaceutical and biomedical analysis. 2001,26,443-451. DOI: https://doi.org/10.1016/S0731-7085(01)00432-0

Ali, H.; Abass, S. Use of Acidic Hydrolysis and Diazo Coupling Reaction for Spectrophotometric Determination of Furosemide in Urine and Pharmaceutical Formulation. Ibn AL-Haitham Journal for Pure and Applied Science. 2018, 24,221-234. DOI: https://doi.org/10.30526/2017.IHSCICONF.1795

Qassim, B.B.; Asmaa ,A.; Zyda. Sensitive Simultaneous Estimation of Atorvastatin. Ca in Pure and Dosage Forms Via Developed CFIA Using 1, 2 Naphthoquinone-4-Sulfonate as a Suitable Organic Agent. Indian Journal of Forensic Medicine & Toxicology .2020, 14,2161.

Kadhim, M.M. Effect of Sr/Mg Co-substitution on Corrosion Resistance Properties of Hydroxyapatite Coated on Ti–6Al–4V Dental Alloys. Journal of Physics and Chemistry of Solids .2022,161,110450.

Abdullah, H.J.; Qassim, B.B. Development and Validation CFIA/MZ System as A Green Method for Determination of Thiol Drug (D-PEN). Egyptian Journal of Chemistry. 2022,65,1-2.

Mohamed, M.R.; Qassim, B.B. A New Indirect Sensitive and Green CFIA Method for Assay of α-Cypermethrin Insecticide in Pure Form, Biological and Industrial Samples Using N-Bromo Succinamide as Oxidizing Agent in Acidic Medium. REVISTA GEINTEC-GESTAO INOVACAO E TECNOLOGIAS. 2021,11, 4033-4057.

Abdullah, H.J.; Qassim, B.B. High Throughput Flow Injection /MZ Technique for Indirect Assay of Hydrosulfurnyl Group in Tiopronin drugs and Biological Samples Using 2,2`-Dipyridyl as a Selection OAR. International Journal of Mechanical Engineering. 2022,7, 0974-5823.

18. Hamed, L.L.; Qassim, B.B. Direct and New Flow Injection method for Assay of Iron as Ferrous Sulfate in Pure and Dosage Forms Through the Complexation with 2, 2︡ Dipyridyl Reagent. International Journal of Pharmaceutical Research.2020,12,1329-1338.

Qassim, B.B.; Hamed, L.L. Simple Green Method High Throughput Flow Injection Technique for Spectrophotometry Determination of Fe (III) in Iron Drugs Through the Reaction between DPA-4-Sulfonat with Hydrogen Peroxide using a Modified Detection Unit. International Journal of Drug Delivery Technology. 2020, 10, 563-570.

Sheej, A.; O.A.; Al-Enizzi, M.S.; Saeed, A.M.. Using 9-Chloroacridine as A Chromogenic Reagent for The Detection of Tetracycline. Egyptian Journal of Chemistry .2021.

Qassim, B.B.; Zydan, A.A. Novel Approach of Oxidation-Reduction Reaction with Kmno4 for Simultaneous Determination of Simvastatin Drug in Either Pharmaceutics Preparation or Human Urine Using Homemade fia-Stopped-Flow/Merging Zone Technique. BioChem. 2020, 20.

22 Abdullah, A.I., Abass, SM. Azo Coupling Reaction for Indirect Spectrophotometric Determination of Furosemide Using Resorcinol as A Reagent. In IOP Conference Series: Materials Science and Engineering 2021, 012077,1058.

Tawfeeq, A.H.; Qassim, B.B. A Novel Method of CFIA/Merging Zones Technique for Assay of Doxycycline in Bulk and Pharmaceutical preparation Depending on Azo Dye Formation. Research Journal of Pharmacy and Technology.2021, 14, 67-74.

Qassim, B.; Alwan A.A. Indirect Way for the Assay of Captopril Drug in Dosage FormsUsing1, 10-Phenanthroline as a Selective Spectrophotometric Agent for Fe (II) Via Homemade CFIA/Merging Zones Technique. Ibn AL-Haitham Journal for Pure and Applied Science. 2018, 294-320. DOI: https://doi.org/10.30526/2017.IHSCICONF.1879

Ruzicka, J.; Hansen, E.H. Flow Injection Analysis. John Wiley & Sons. 1988.

Ellison, S.L.; Barwick,,V.J.; Farrant, T.J.D. Practical Statistics for the Analytical Scientist: A Bench Guide. Royal Society of Chemistry. 2009.

Suarez, W.T.; Madi, A.A.; Figueiredo-Filho, L.C.S.; Fatibello-Filho, O. Flow-injection Spectrophotometric System for Captopril Determination in Pharmaceuticals. Journal of the Brazilian Chemical Society. 2007, 18, 1215-1219. DOI: https://doi.org/10.1590/S0103-50532007000600016

Tzanavaras, P.D.; Suarez, W.; Cavalheiro, E.T.G.; Fatibello-Filho, O. Flow and Sequential Injection Manifolds for the Spectrophotometric Determination of Captopril Based on Its Oxidation by Fe (III). Microchimica Acta .2003, 142, 55-62. DOI: https://doi.org/10.1007/s00604-003-0952-x

Yaseen, S.M.; Qassim, B.B.; Al-Lami, N.O. Spectrophotometric Determination of Co (II) in Vitamin B12 Using 2-(biphenyl-4-yl)-3-((2-(2, 4-dinitrophenyl) hydrazono) methyl) imidazo [1, 2-a] pyridine as Ligand by Flow Injection–Merging Zone Analysis. Al-Nahrain Journal of Science. 2020, 23, 24-38.

Yaseen, S.M., Qasim, B.B.; Al-lame, N.O. Spectrophotometric Determination of Cu (+ II) by Complexation with 2-(4-biphenyl) Imidazo [1, 2-] Pyrimidine-3-Hydrazone and Studying Characteristics of prepared complex. Egyptian Journal of Chemistry. 2021, 64, 4-5 .

Alfred-Ugbenbo, D.; Zdoryk, O.A.; Georgiyants, V.A. Validation of Analytical Method for Determination of Furosemide in Extemporaneous Syrup. Medical and Clinical Chemistry. 2017,12, 7859. DOI: https://doi.org/10.11603/mcch.2410-681X.2017.v0.i2.7859