Sains Malaysiana 45(2)(2016): 237–245

Troubleshooting and Maintenance of High-Performance Liquid Chromatography during

Herbicide Analysis: An Overview

(Merumus Masalah dan Penyelenggaraan Kromatografi Cecair Berprestasi Tinggi semasa

Analisis Herbisid: Suatu Gambaran Keseluruhan)

Tayeb, M.A.¹,* Ismail, B.S¹., Khairiatul-Mardiana, J.¹ & GOH CHOO TA²

¹School of Environmental and Natural Resource Sciences, Faculty of Science and Technology,

Universiti Kebangsaan Malaysia, 43600 Bangi, Selangor Darul Ehsan, Malaysia

²Institute for Environment and Development (LESTARI), Universiti Kebangsaan Malaysia
43600 Bangi, Selangor Darul Ehsan, Malaysia

Received: 27 August 2014/Accepted: 5 August 2015

ABSTRACT

Glufosinate ammonium or ammonium salt (ammonium-(2RS)-2-amino-4- (methylphosphinato) butyric acid; C5H15N2O4P) is a commonly used polar herbicide in Malaysia and present in a variety of environmental waters at the sub-ppb level. Thus, glufosinate ammonium is analyzed in soil and water using high-performance liquid chromatography (HPLC), which is a complex yet the most powerful analysis tool. HPLC is tremendously sensitive and highly automated and HPLC instrumentation and machinery have improved over the years. However, typical problems are still encountered. HPLC users and advanced learners require help in identifying, separating and correcting typical problems. All HPLC systems consist of similar basic components. Although it is a modular system, trouble can occur in each component and change the overall performance. Resolving these problems may be expensive. This review describes the different aspects of HPLC, particularly troubleshooting, common problems and easy guidelines for maintenance.

Keywords: Glufosinate ammonium; HPLC; maintenance; troubleshoot

ABSTRAK

Ammonium glufosinate atau garam ammonium (ammonium-(2RS)-2-amino-4-(methylphosphinato) asid butirik; C5H15N2O4P) adalah herbisid berkutub yang biasa digunakan di Malaysia dan hadir di dalam persekitaran air pada kepekatan sub-ppb. Oleh itu, ammonium glufosinate dianalisis di dalam tanah dan air dengan menggunakan kromatografi cecair berprestasi tinggi (HPLC) yang merupakan alat yang kompleks namun sangat jitu dalam menganalisis herbisid ini. HPLC sangat sensitif dan automatik serta prestasinya sering dipertingkatkan dari semasa ke semasa. Walau bagaimanapun, terdapat beberapa masalah sering dihadapi pengguna. Pengguna dan pengendali HPLC pada peringkat lebih tinggi memerlukan bantuan dalam proses pengenalpastian, pengasingan dan membetulkan permasalahan yang sering berlaku. Kesemua sistem HPLC terdiri daripada komponen asas yang sama. Walaupun ia adalah satu sistem yang modular, masalah boleh berlaku dalam setiap komponen dan mengubah keseluruhan prestasi. Menyelesaikan masalah ini mungkin memerlukan kos yang tinggi. Maka, ulasan ini menerangkan pelbagai aspek HPLC, terutamanya penyelesaian masalah HPLC, masalah yang sering berlaku dan garis panduan yang mudah untuk penyelenggaraan.

Kata kunci: Ammonium glufosinate; HPLC; merumus masalah; penyelenggaraan

REFERENCES

Awis Sukarni Mohmad Sabere, Zuriati Zakaria & Ismail, B.S. 2013. Comparison of the level of organoclorine residues in paddy crops from two different cultivation practices. Sains Malaysiana 42(11): 1581–1584.

Bliesner, D. 2006. Validating Chromatographic Methods. New York: John Wiley & Sons, Inc. pp. 88-92.

Brandt, A. & Kueppers, S. 2002. Practical aspects of preparative HPLC in pharmaceutical development and production. LC/ GC North America 21(1): 14-22.

Cheng, Y.F., Walter, T.H., Lu, Z., Iraneta, P., Grassi, B., Carmody, J.L. & Gara, R.P. 2000. Hybrid organic/inorganic particle technology: Breaking through traditional barriers of HPLC separations. LC-GC 18(11): 1162-1172.

Cimadevillal, H.M., Hevia, D., Miarl, A., Juan, C.M., Lombo, F. & Sainz, R.M. 2015. Development and validation of a single HPLC method for determination of a-tocopherol in cell culture and in human or mouse biological samples. Biomedical Chromatography 29(6): 843-852.

Charde, M.S., Kumar, J., Welankiwar, A.S. & Chakole, R.D. 2013. Review: Development of forced degradation studies of drugs. International Journal of Advances in Pharmaceutics 2(3): 34-39.

Gupta, V.K., Mergua, N., Kumawata, L.K. & Singha, A.K. 2015. A reversible fluorescence “off–
on–off” sensor for sequential detection of aluminum and acetate/fluoride ions. Talanta 144: 80-89.

Hasan, N., Sher, N., Siddiqui, F.A., Ahmad, M., Shafi, N., Sial, A.A. & Baig, M.T. 2013. Novel
HPLC method for quantitative determination of cefazolin sodium in pharmaceutical formulations. Research and Reports in Medicinal Chemistry 3(3): 21-28.

Hongxia, Y., Jing, C., Cui, Y., Shang, H., Ding, Z. & Jin, H. 2004. Application of toxicity identification evaluation procedures on wastewaters and sludge from a municipal sewage treatment works with industrial inputs. Ecotoxicology and Environmental Safety 57(3): 426-430.

Ismail, B.S., Mazlinda, M. & Tayeb, M.A. 2015a. The persistence of deltamethrin in Malaysian agricultural soils. Sains Malaysiana 44(1): 83-89.

Ismail, B.S., Prayitno, S. & Tayeb, M.A., 2015b. Contamination of rice field water with sulfonylurea and phenoxy herbicides in the Muda Irrigation Scheme, Kedah, Malaysia. Environmental Monitoring and Assessment 187(7): 406-419.

Ismail, B.S., Ooi, K.E. & Tayeb, M.A. 2015c. Laboratory assessment of 14c-Phenyl Metsulfuron-Methyl degradation in an oil palm plantation soil. Journal of Oil Palm Research 27(4): 403-416.

Ismail, B.S., Ooi, K.E. & Tayeb, M.A. 2015d. Degradation of Triazine-2-14C Metsulfuron–Methyl in soil from an oil palm plantation. PLOS ONE 10(10): 1-15.

Ismail, B.S., Mazlinda, M. & Tayeb, M.A. 2013. Adsorption, desorption and mobility of cypermethrin and deltamethrin in Malaysian soils. International Journal of Plant, Animal and Environmental Sciences 3(4): 23-29.

Iqbal, M., Bhat, M.A. & Shakeel, F. 2015. Development and validation of UHPLC-MS/MS assay for rapid determination of a carvone Schiff base of isoniazid (CSB-INH) in rat plasma: Application to pharmacokinetic study. Biomedical Chromatography 29(6): 876-882.

Juan, A.D. & Tauler, R. 2003. Chemo metrics applied to unravel multicomponent processes and mixtures revisiting latest trends in multivariate resolution. Analytica Chimica Acta 500: 195–210.

Kaushal, C. & Srivastava, B. 2010. A process of method development: A chromatographic approach. Journal of Chemical and Pharmaceutical Research 2(2): 519-545.

Kima, T.H., Kima, M.G., Shinb, B.S., Kimc, K.B., Leea, J.B., Paika, S.H. & Yooa, S.D. 2015.
Simultaneous determination of phenoxyethanol and its major metabolite, phenoxyacetic acid, in rat biological matrices by LC–MS/MS with polarity switching: Application to ADME studies. Talanta 144: 29-38.

Kirkland, J.J., Henderson, J.W., Martosella, J.D., Bidlingmeyer, B.A., Vasta-Russell, J. & Adams Jr. J.B. 1999. A highly stable Alkyl-Amide silica-based column packing for reversed-phase HPLC of polar and ionizable compounds. LC-GC 17: 634.

Kirkland, J.J., Van Straten, M.A. & Claessens, H.A. 1998. Reversed-phase high-performance liquid chromatography of basic compounds at pH 11 with silica-based column packings. Journal Chromatography A 797(1-2): 111–120.

Kwok, Y.C., Hsieh, D.P.H. & Wong, P.K. 2005. Toxicity identification evaluation (TIE) of pore water of contaminated marine sediments collected from Hong Kong waters. Marin Pollution Bulletin 51: 1085-1091.

Leister, W., Strauss, K., Wisnoski, D., Zhao, Z. & Lindsley, C. 2003. Development of a custom high-throughput preparative liquid chromatography/mass spectrometer platform for the preparative purification and analytical analysis of compound libraries. Journal of Combinatorial Chemistry 5: 322-329.

Liu, Y. & Lee, L. 2006. Ultrahigh pressure liquid chromatography using elevated temperature. Journal of Chromatography 1104(1-2): 198-202.

Martin, M. & Guiochon, G. 2005. Effects of high pressures in liquid chromatography. Journal of Chromatography A 7(1-2): 16-38.

Malviya, R., Bansal, V., Pal, O.P. & Sharma, P.K. 2010. High performance liquid chromatography: A short review. Journal of Global Pharma Technology 2(5): 22-26.

Mut, L., Grobosch, T., Domaß, T.B. & Frenzel, W. 2015. Toxicological screening of human plasma by on-line SPE-HPLC-DAD: Identification and quantification of basic drugs and metabolites. Biomedical Chromatography 29(6): 935-952.

Neng, N.R., Ahmad, S.M., Gaspar, H. & Nogueira, J.M.F. 2015. Determination of mitragynine in urine matrices by bar adsorptive microextraction and HPLC analysis. Talanta 144: 105-109.

Neue, U.D., Cheng, Y.F., Lu, Z., Alden, B.A., Iraneta, P.C., Phoebe, C.H. & Tran, K. 2001a. Properties of reversed phase packings with an embedded polar group. Chromatographia 54(3-4): 169-177.

Neue, U.D., Phoebe, C.H., Tran, K., Cheng, Y.F. & Lu, Z. 2001b. Dependence of reversed-phase retention of ionizable analytes on pH, concentration of organic solvent and silanol activity. Journal of Chromatography A 925(1-2): 49-67.

Ngwa, G. 2010. Forced degradation as an integral part of HPLC stability indicating method development. Drug Delivery Technology 10(5): 56-59.

Pieter, M.M., Kesel, D., Lambert, W.E. & Stove, C.P. 2015. An optimized and validated SPE-LC–MS/MS method for the determination of caffeine and paraxanthine in hair. Talanta 144: 62-70.

Rathore, A.S. 2003. Scale-up and optimization in preparative chromatography: Principles and biopharmaceutical applications. In Chromatographic Science Vol. 88, edited by Rathore, A. New York: Marcel Dekker.

Ravisankar, M., Sereya, K., Ananda Thangadurai, S. & Ramaiah, K. 2012. A review on: Preventive maintenance and trouble shooting of HPLC. International Research Journal of Pharmacy. www.Irjponline.com. Accessed on 20th August 2013.

Stavrianidi, A., Rodin, I., Braun, A., Stekolshchikova, E. & Shpigun, O. 2015. Single-run HPLC/ESI-LITMS profiling of ginsenosides in plant extracts and ginseng based products. Biomedical Chromatography 29(6): 853-859.

Tayeb, M.A., Ismail, B.S. & Khairiatul Mardiana, J. 2015a. Comparison of four different solid phase extraction cartridges for sample clean-up in the analysis of glufosinate ammonium from aqueous samples. International Journal of Chem. Tech Research 7(6): 2612-2619.

Tayeb, M.A., Ismail, B.S., Mardiana-Jansar, K. & Goh Choo Ta. 2015b. Glufosinate ammonium clean-up procedure from water samples using SPE. AIP conference proceedings 1678: 060024(1-7).

Wiklund, A.E., Dag, B. & Brita, S. 2005. Toxicity evaluation by using intact sediments and sediment extracts. Marine Pollution Bulletin 50(6): 660-667.

Xiang, Y., Liu, Y. & Lee, M.L. 2006. Ultrahigh pressure liquid chromatography using elevated temperature. Journal of Chromatography A 1104(1-2): 198-202.

*Corresponding author; email: atayeb91@yahoo.com