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Research Article | Open Access

Spectrophotometric Determination of Etilefrine HCl, Salbutamol Sulphate and Tiemonium Methyl Sulphate Using Surface Plasmon Resonance Band of Gold Nanoparticles

Magda Mohamed AyadHisham Ezzat AbdellatefMervat Mohamed HosnyNaglaa Abdel-Sattar Kabil( )
Department of Analytical Chemistry, Faculty of Pharmacy, Zagazig University, Zagazig, Egypt
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Abstract

A simple and sensitive method was developed for spectrophotometric determination of etilefrine hydrochloride, salbutamol sulphate and tiemonium methyl sulphate in pure form and in their pharmaceutical formulations. The method was based on reduction of gold solution to gold nanoparticles by the studied drugs in presence of sodium dodecyl sulphate as stabilising agent. Gold nanoparticles (Au NPs) showed a new absorption band at 530 nm that was used for quantitative determination of the cited drugs. Different variables were examined and optimised in the experiment as gold solution concentration, type of buffer, suitable pH, stabilising agent, order of addition, time and temperature of the reaction. Under optimum conditions, the calibration curves were linear with concentration ranges of 3.0-20.0, 5.0-18.0 and 2.0-26.0 μg/mL for etilefrine Hydrochloride, salbutamol sulphate and tiemonium methyl sulphate respectively. The method was applied successfully to determine the studied drugs in pure form and in their pharmaceutical dosage forms, exhibiting good reproducibility and accuracy.

Keywords

Gold nanoparticlesEtilefrine HydrochlorideSalbutamol sulphateTiemonium methyl sulphate

References

[1]
R. Gaur, M. Azizi, J. Gan, et al., The British pharmacopoeia, Vol. Ⅱ, Ⅲ. Her Majesty's Stationery Office, 2009: 2391 (a), 5345 (b).
[2]
S.C. Sweetman, Martindale-The complete drug reference. 35 ed. The Pharmaceutical Press, 2007: 1284 (a), 1131 (b) and 1776 (c).
[3]

G.H. Ragab, M.S. Elmasry, and A.A. Kheir, Spectrophotometric determination of some phenolic drugs in pure form and in their pharmaceutical preparations. Jordan Journal of Pharmaceutical Science, 2009, 2: 66-75.
Google Scholar
[4]

A.M. Mohsen, A.M. Badawey, M.A. Shehata, et al., Development and validation of smart spectrophotometric–chemometric methods for the simultaneous determination of chlorpheniramine maleate and etilefrine hydrochloride in bulk powder and in dosage form combination. International Journal of Pharmaceutical Science, 2014, 6: 595-603.
Google Scholar
[5]

R.S. Bakry, A.F.M. El-Walily, and S.F. Belal, Spectrophotometric determination of some phenolic sympathomimetic drugs through reaction with 2, 6-dihaloquinone chlorimides. Mikrochim Acta, 1997, 127: 89-93.
Crossref Google Scholar
[6]

R.S. Bakry, A.F.M. El-Walily, and S.F. Belal, Spectrophotometric determination of etilefrine, ritodrine, isoxsuprine and salbutamol by nitration and subsequent Meisenheimer complex formation. Analytical Letter, 1995, 28: 2503-2519.
Crossref Google Scholar
[7]

M.M. Ayad, H.E. Abdellatef, M.M. Hosny, et al., Determination of etilefrine hydrochloride, fenoterol hydrobromide, salbutamol sulphate and estradiol valerate using surface plasmon resonance band of silver nanoparticles. International Journal of Pharmacy and Pharmaceutical Sciences, 2015, 7(5): 327-333.
Google Scholar
[8]

B.Q. Osso, F.C. Rodriguez, J.J.M. Domingo, et al., Flourecence quenching of etilefrine by acetate anion. Spectrochim Acta Part A, 1999, 55: 279-288.
Crossref Google Scholar
[9]

K. Kojima, M. Yamanaka, Y. Nakanishi, et al., High-performance liquid-chromatographic determination of etilefrine in human plasma using combined solid-phase and organic-solvent extraction and electrochemical detection. Journal of Chromatography Biomedical Application, 1990, 525: 210-217.
Crossref Google Scholar
[10]

S.V. Singh, P. Kabra, R. Kimbahune, et al., Spectrophotometric estimation of Ketotifen and Salbutamol by validated analytical method from tablet dosage form. Journal of Chemical and Pharmaceutical Research, 2013, 5: 123-127.
Google Scholar
[11]

D. Sharma, G. Singh, M. Singh, et al., Development and validation of spectrophotometric method for the simultaneous estimation of salbutamol sulphate and cetirizine hydrochloride in combined dosage form. International Research Journal of Pharmacy, 2012, 3: 292-296.
Google Scholar
[12]

M.M. Eswarudu, M. Sushma, M. Sushmitha, et al., Validated spectrophotmetric method for the determination of salbutamol sulphate in bulk and pharmaceutical dosage forms. International Research Journal of Pharmacy, 2012, 3: 423-425.
Google Scholar
[13]

S.A. Dhahir, New azo coupling reactions for visible spectrophotometric determination of salbutamol in bulk and pharmaceutical preparations. Dirasat: Pure Science, 2011, 38: 153-160.
Google Scholar
[14]

P.A. Patel, M.N. Dole, P.S. Shedpure, et al., Spectrophotometric simultaneous estimation of salbutamol and ambroxol in bulk and formulation. Asian Journal of Pharmaceutical and Clinical Research, 2011, 4: 42-45.
Google Scholar
[15]

P. Nagaraja, A.K. Shrestha, A. Shivakumar, et al., Use of N, N-diethyl-p-phenylenediamine sulphate for the spectrophotometric determination of some phenolic and amine drugs. Acta Pharmaceutica, 2010, 60: 217-227.
Crossref Google Scholar
[16]

N.T. Venkata, B. Gopinath, and B.V. Vijay, Development and validation of UHPLC method for simultaneous estimation of salbutamol sulphate and beclomethasone dipropionate. International Journal of Pharmaceutical and Biological Science, 2012, 2: 254-268.
Google Scholar
[17]

A.M. Elvis, M.G. Deepali, Reverse phase isocratic HPLC method for simultaneous estimation of salbutamol sulphate and beclomethasone dipropionate in rotacaps formulation dosage forms. International Journal of Pharmacy and Pharmaceutical Science, 2011, 3: 64-67.
Google Scholar
[18]

H.N. Dave, R.C. Mashru, and A.K. Patel, Thin layer chromatographic method for the determination of ternary mixture containing Salbutamol sulphate, Ambroxol hydrochloride and Theophylline. International Journal of Pharmaceutical Science, 2010, 2: 390-394.
Google Scholar
[19]

C. Chen, H. Li, and Y. Fan, Determination of salbutamol sulfate in medicaments by capillary electrophoresis with contactless conductivity detection. Sepu, 2011, 29: 137-140.
Crossref Google Scholar
[20]

A.M. Attaran, M. Javanbakht, F. Fathollahi, et al., Determination of salbutamol in pharmaceutical and serum samples by adsorptive stripping voltammetry on a carbon paste electrode modified by iron titanate nanopowders. Electroanalysis, 2012, 24: 2013-2020.
Crossref Google Scholar
[21]

M.S. Islam, M.D. Wahiduzzaman, S. Islam, et al., UV spectroscopic method for estimation of tiemonium methylsulfate 50 mg tablet in bulk and pharmaceutical preparations. International Journal of Pharmaceutical Sciences & Research, 2014, 5: 548-555.
Google Scholar
[22]

H.E. Zaazaaa, S.S. Abbasa, Z.A. EL-Sheriff, et al., Stability indicating spectrophotometric methods for determination of Tiemoniummethylsulphate in the presence of its degradation products. Journal of Applied Pharmaceutical Science, 2014, 4: 33-45.
Crossref Google Scholar
[23]

N.K. Ramadan, L.M. Halim, H.F.A. EL Sanabary, et al., Stability indicating spectrophotometric methods for the determination of tiemonium methyl sulphate. International Journal of Drug Development and Research, 2014, 6: 160-168.
Google Scholar
[24]

N.K. Ramadan, L.M. Halim, H. F.A. EL Sanabary, et al., Stability indicating chromatographic methods for the determination of tiemonium methylsulphate. International Journal of Advanced Research, 2014, 2: 366-376.
Google Scholar
[25]

M.M. Ayad, M. EL-Balkiny, M. Hosny, et al., Green validated method for determination of tiemonium methyl sulfate using reversed-phase high-performance liquid chromatography technique with stability-indicating studies. Innovare Journal of medical science, 2016, 4: 1-9.
Google Scholar
[26]

V.V. Apyari, V.V. Arkhipova, S.G. Dmitrienko, et al., Using gold nanoparticles in spectrophotometry. Journal of Analytical Chemistry, 2014, 69: 1-11.
Crossref Google Scholar
[27]

X. Qin, D. Shi, J. Gen, et al., Determination of acetamiprid by a colorimetric method based on the aggregation of gold nanoparticles. Microchim Acta, 2011, 173: 323-329
Crossref Google Scholar
Nano Biomedicine and Engineering
Volume 10 Issue 1,
March 2018
Pages 16-24
DOI: 10.5101/nbe.v10i1.p16-24
Cite this article:
Ayad MM, Abdellatef HE, Hosny MM, et al. Spectrophotometric Determination of Etilefrine HCl, Salbutamol Sulphate and Tiemonium Methyl Sulphate Using Surface Plasmon Resonance Band of Gold Nanoparticles. Nano Biomedicine and Engineering, 2018, 10(1): 16-24. https://doi.org/10.5101/nbe.v10i1.p16-24

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Received: 07 December 2017
Accepted: 25 January 2018
Published: 16 February 2018
© Magda Mohamed Ayad, Hisham Ezzat Abdellatef, Mervat Mohamed Hosny, and Naglaa Abdel-Sattar Kabil.

This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
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