Colorimetric Determination of Salbutamol Sulfate using Spectrophotometry-Continuous Flow Injection Technique in Pure and Pharmaceutical Forms
DOI:
https://doi.org/10.31351/vol32iss1pp45-52Keywords:
Salbutamol, sulfadimidine, flow injection analysis, diazotization reactionAbstract
Simple, precise and economic batch and flow injection analysis (FIA)-spectrophotometric methods have been established for simultaneous determination of salbutamol sulfate (SLB) in bulk powder and pharmaceutical forms. Both methods based on diazotization coupling reaction of SLB with another drug compound (sulfadimidine) as a safe and green diazotization agent in alkaline medium. At 444 nm, the maximum absorption of the orange azo-dye product was observed. A thorough investigation of all chemical and physical factors was conducted for batch and FIA procedures to achieve high sensitivity. Under the optimized experimental variables, SLB obeys Beer’s law in the concentration range of 0.25-4 and 10-100 μg/mL with limits of detection of 0.09 and 2.51 μg/mL for batch and FIA procedures respectively. The low percentage relative standard deviation of less than 1% (n=5) for both methods confirmed the applicability of these methods. Using F and t tests, a statistical comparison of the recommended approaches with the standard spectrophotometric method revealed no significant differences in accuracy or precision.
References
Reynolds, J.E.F. and Martindale Eds., (The Extra Pharmacopoeia), 30th Ed., the Pharmaceutical Press: London; 2007; 1255.
Zhang, D.; Teng, Y. and Chen, K. Determination of salbutamol in human plasma and urine using liquid chromatography coupled to tandem mass spectrometry and its pharmacokinetic study. Biomed. Chromatogr. 2012, 26(10), 1176-1182.
Thuan, N. T. M. and Linh, N. T. K. Simultaneous determination of salbutamol and clenbuterol in human plasma using liquid chromatography coupled to tandem mass spectrometry. Pharm Sci Asia. 2019, 46 (2), 120-128.
Bao, Y.; Yang, F. and Yang, X. Capillary Electrophoresis Coupled with Electrochemiluminescence for the Facile Separation and Determination of Salbutamol and Clenbuterol in Urine. Electroanalysis. 2012, 24,7.
Ibrahim, A N.; Shimaa A F.; Hala E Z. and Eglal A A. High-Performance Liquid Chromatography Method for Simultaneous Determination of Guaifenesin, Salbutamol Sulfate and Guaifenesin Impurity (Guaiacol). J Chromatogr Sci.2021, 59(5), 419-424.
Selvadurai, M. and Jayaraj K. High Performance Liquid Chromatographic Method Development and Its Validation for Salbutamol. British Journal of Pharmaceutical Research. 2012, 2(4), 228-237.
Abdoon, F. and Yahyaa, S. Validated spectrophotometric approach for determination of salbutamol sulfate in pure and pharmaceutical dosage forms using oxidative coupling reaction. Journal of King Saud University. 2020, 32(1), 709-715.
Al-Abachi, M. Q. and Abed, S. Spectrophotometric determination of Phenylephrine hydrochloride and Salbutamol sulphate drugs in pharmaceutical preparations using diazotized Metoclopramide hydrochloride. Baghdad Science Journal, 2015, 12, 1.
Al-Enizzi, M. Spectrophotometric method for Assay of Salbutamol in Pharmaceutical Formulations. Basic Sciences branch. 2015, 4, 12.
Al Abachi, M. Q. and Hadi, H. Determination of Salbutamol Sulphate in Pharmaceutical Preparations Using Continuous/Stopped Flow Injection Method. International Journal of Research in Pharmaceutical and Biomedical Sciences. 2012, 3(3), 1189.
Al-Abachi, M. Q. and Subhi, S. Flow Injection- Spectrophotometric Determination of Salbutamol Sulphate and pyridoxine Hydrochloride Using 2, 4-Dinitrophenylhydrazine. Iraqi Journal of Scienc. 2013, 54(1), 6-16.
Rajaji, U.; Chinnapaiyan, S. and Alshgari, R. A. Bismuth telluride decorated on graphitic carbon nitrides based binary nanosheets: Its application in electrochemical determination of salbutamol (feed additive) in meat samples. Journal of hazardous materials. 2021, 413.
Amare, M. and Menkir, G. Differential pulse voltammetric determination of salbutamol sulfate in syrup pharmaceutical formulation using poly(4-amino-3-hydroxynaphthalene sulfonic acid) modified glassy carbon electrode. Heliyon. 2017, 3(10).
Nabeel, S. and Asaad, A. M. Spectrophotometric Determination of Salbutamol Sulphate by Coupling with Diazotized 5-Amino-2-chlorobenzotrifluoride – Application to Pharmaceutical Preparations. Raf. J. Sci. 2014, 25(3), 38-49.
Inam, A. H. and Uthman N. S. Diazotised p-nitroaniline reagent for the determination of trace amounts of salbutamol sulphate in aqueous solution: application to pharmaceutical preparations. Raf. J. Sci. 2005, 16(3), 2005, 60-67.
Isabel, D. and Moises K. Flow-injection spectrophotometric determination of salbutamol with 4-aminoantipyrine. Talanta. 2004, 64(5), 1233-1236.
Bruice, P.Y. Organic chemistry. Pearsons Prentice. 2004.
Job, P. advanced physiochemical experiments. 1964, 2nd Ed., Oliner and Boyed, Edinburgh, 54.
Levie, R. Principles of Quantitative Chemical Analysis, The Mc Graw-Hill Companies, Inc., Singapore, 1997, 498.
British Pharmacopaeia, H.M. Stationary Office, UK: London; 2019,1.
Miller, J.C. and Miller, J.N. Statistics for Analytical Chemistry, Ellis Horwood: Chichester, UK; 6th Ed., 2010.
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