DEVELOPMENT OF QUANTITATIVE HPTLC-DENSITOMETRY METHODS FOLLOWING A MODEL APPROACH FOR TRANSFER OF TLC SCREENING METHODS FOR PHARMACEUTICAL PRODUCTS OF METFORMIN HCL, POTASSIUM CLAVULANATE, CAFFEINE, FLUOXETINE HCL, AND GABAPENTIN
DOI:
https://doi.org/10.24193/subbchem.2017.2.01Keywords:
thin layer chromatography, drug analysis, metformin HCl, potassium clavulanate, gabapentin, fluoxetine HCl, caffeineAbstract
Transfer of thin-layer chromatography Global Pharma Health Fund Minilab kit protocols for detecting counterfeit drugs in pharmaceutical products in the field to quantitative high-performance TLC (HPTLC)-densitometry methods was carried out for potassium clavulanate and metformin HCl using a model process published earlier. HPTLC-densitometry methods were also developed following the model process for caffeine, fluoxetine HCl, and gabapentin, for which methods are not included in the Minilab manual. The model process involves use of EMD Millipore Premium Purity silica gel 60 F254 plates, automated sample and standard solution application with a CAMAG Linomat 4, and automated densitometry with a CAMAG Scanner 3 for determination of peak purity and identification and for quantification. Detection methods for counterfeit samples of the three drugs not covered in the Minilab manual were also developed and posted online with open access as supplemental methods for the Compendium of Unofficial Methods for Rapid Screening of Pharmaceuticals by Thin Layer Chromatography.
References
C. O’Sullivan, J. Sherma, Acta Chromatographica, 2012, 24, 241.
K. Lianza, J. Sherma, Journal of Liquid Chromatography & Related Technologies, 2013, 36, 2446.
N. Popovic, J. Sherma, Acta Chromatographica, 2014, 26, 615.
A.S. Kenyon, T.P. Layloff, http://www.pharmweb.net/pwmirror/library/tlc/tlcall.pdf
M. Nguyen, J. Sherma, Trends in Chromatography, 2013, 8, 131.
M. Nguyen, J. Sherma, Journal of Liquid Chromatography & Related Technologies, 2014, 37, 2956.
J. Strock, M. Nguyen, J. Sherma, Journal of Liquid Chromatography & Related Technologies, 2015, 38, 1126.
J. Strock, M. Nguyen, J. Sherma, Acta Chromatographica, 2016, 28, 363.
D. Zhang, J. Strock, J. Sherma, Journal of Liquid Chromatography & Related Technologies, 2016, 39, 277.
E. Armour, J. Sherma, Journal of Liquid Chromatography & Related Technologies, 2017, 40, 282.
D. Zhang, E. Armour, J. Sherma, Acta Chromatographica,
doi:10.1556/1326.2016.29409.
H. Mahgoub, R.M. Youssef, M.A. Korany, E.F. Khamis, M.F. Kamal, Drug Development and Industrial Pharmacy, 2014, 40, 1190.
D. Zhang, J. Strock, J. Sherma, Trends in Chromatography, 2016, 10, 1.
Supplement to a Compendium of Unofficial Methods for Rapid Screening of Pharmaceuticals by Thin Layer Chromatography, http://www.layloff.net.
D. Ruddy, J. Sherma, Acta Chromatographica, 2002, 12, 143.
R.B. Patel, M.R. Patel, M.B. Shankar, K.K. Bhatt, Journal of AOAC International, 2009, 92, 1082.
R.T. Sane, U. Pendse, A. Moghe, S, Khedkar, P. Patil, Indian Drugs, 2003, 40, 547.
T. Tuzimski, Selection of the Type of Mobile Phases for Analysis of Nonionic Analytes: Reversed and Normal Phase HPLC, in High Performance Liquid Chromatography in Pesticide Residue Analysis, T. Tuzimski and Joseph Sherma (Editors), CRC Press, Taylor & Francis Group, 2015, Chapter 7, pp. 174-175.
K. Ferenczi-Fodor, Z. Vegh, A. Nagy-Tuak, B. Renger, M. Zeller, Journal of AOAC International, 2001, 84, 1265.
E. Kaale, P. Risha, E. Reich, T. P. Layloff, Journal of AOAC International, 2010, 93, 1836.
Downloads
Published
How to Cite
Issue
Section
License
Copyright (c) 2017 Studia Universitatis Babeș-Bolyai Chemia
This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
