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Sains Malaysiana 49(1)(2020): 49-55
http://dx.doi.org/10.17576/jsm-2020-4901-06
Simple
Extraction of Bisphenol A in Beverages and Water by
Membrane-Protected Liquid Phase Microextraction
(Pengekstrakan Mudah Bisfenol A dalam Minuman dan Air menggunakan Pengekstrakan Mikro Fasa Cecair Dilindungi Membran)
THUNG
YING LOH, WAN MOHD AFIQ WAN MOHD KHALIK & SAW HONG LOH*
Faculty
of Science and Marine Environment, Universiti Malaysia Terengganu, 21030 Kuala Terengganu, Terengganu Darul Iman, Malaysia
Diserahkan: 24
Jun 2019/Diterima: 2 Oktober 2019
ABSTRACT
Bisphenol A (BPA) is a xenoestrogen that
widely used in manufacture of
plastics. Concern is mounting up when the application of BPA is widespread. A
simple sample pre-treatment technique termed membrane-protected liquid phase microextraction (MP-LPME) combined with high performance
liquid chromatography (HPLC)-fluorescence detection (FD) was developed for the
determination of BPA in beverages and environmental water samples. The MP-LPME
technique utilized a nylon membrane to hold the extractant (1-octanol) and prevent the extractant from
dissolution into sample solution during agitation. Under optimal extraction
conditions, the MP-LPME-HPLC-FD demonstrated ultra-trace detection of BPA and
insignificant matrix effect extraction with good relative recoveries in the
range of 87.1-99.7% from spiked beverage and environmental water samples. The
membrane can be re-applied in the MP-LPME after the first usage and offered
relative recovery of > 94%. The MP-LPME technique is eco-friendly as it
consumes only minute amounts of organic solvent which is supportive to green
analysis.
Keywords: Bisphenol A; HPLC; liquid phase microextraction; nylon membrane
ABSTRAK
Bisfenol A (BPA) ialah xenoestrogen yang digunakan secara meluas dalam pembuatan plastik. Kebimbangan semakin meningkat apabila aplikasi BPA tersebar luas. Satu teknik pra-rawatan sampel yang mudahdikenali sebagaipengekstrakan mikro fasa cecair yang dilindungi membran (MP-LPME) berpasangan kromatografi cecair prestasi tinggi-pengesanan pendarfluor (HPLC-FD) telah dibangunkan untuk penentuan BPA dalam sampel minuman and air alam sekitar. Teknik MP-LPME menggunakan membran nilon untuk memegang ekstrak (1-oktanol) dan mencegah ekstrak daripada pemelarutan ke dalam larutan sampel semasa pengacauan. Di bawah keadaan pengekstrakan optimum,
MP-LPME-HPLC-FD menunjukkan pengesanan ultra surih dan pengekstrakan kesan matriks yang tidak signifikan dengan purata pemulihan semula relatif yang baik dalam linkungan 87.1-99.7% daripada sampel minuman dan air alam sekitar. Membran ini boleh digunakan semula dalam MP-LPME selepas penggunaan pertama dan menawarkan pemulihan semula relatif > 94%. Teknik MP-LPME adalah mesra alam kerana ia hanya menggunakan sedikit pelarut organik dan menyokong analisis hijau.
Kata kunci: Bisfenol A; HPLC; membran nilon; pengekstrakan mikro fasa cecair
REFERENCES
Aurand, C. 2015. Determination of Bisphenol A in Drinking
Water.
https://www.sigmaaldrich.com/technical-documents/articles/analytical/food-beverage/bisphenol-a-water.html.
Accessed on 6 October 2018.
Chong, Y.T., Mohd Ariffin, M., Mohd Tahir, N. & Loh, S.H.
2018. A green solvent holder in electro-mediated microextraction for the extraction of phenols in water. Talanta 176: 558-564.
Cox, D. 2018. Are we Poisoning our Children with Plastic? https://www.theguardian.com/lifeandstyle/2018/feb/19/are-we-poisoning-our-children-with-plastic#top.
Accessed on 18 September 2018.
Cunha, S.C. & Fernandes, J.O. 2010. Quantification of free and total bisphenol A and bisphenol B in
human urine by dispersive liquid-liquid microextraction (DLLME) and heart-cutting multidimensional gas chromatography-mass spectrometry
(MD-GC/MS). Talanta 83: 117-125.
Dulski, T.R. 2010. Trace Elemental Analysis of
Metals: Methods and Techniques. 1st ed. New York: Marcel Dekker.
Elobeid, M.A., Almarhoon,
Z.M., Virk, P., Hassan, Z.K., Omer, S.A., El Amin, M., Daghestani, M.H. &
Al Olayan, E.T. 2012. Bisphenol A detection in various brands of drinking bottled water in Riyadh, Saudi Arabia
using gas chromatography/mass spectrometer. Tropical Journal of
Pharmaceutical Research 11(3):
455-459.
He, C., Long, Y.,
Pan, J., Li, K. & Liu, F. 2007. Application of molecularly imprinted
polymers to solid-phase extraction of analytes from
real samples. Journal of Biochemical and Biophysical Methods 70(2): 133-150.
Jin, F.L., Li, X. & Park, S.J. 2015. Synthesis and
application of epoxy resins. Journal of Industrial and Engineering Chemistry 29: 1-11.
Kawaguchi, M., Ito,
R., Okanouchi, N., Saito, K. & Nakazawa, H. 2008. Miniaturized hollow fiber assisted liquid-phase microextraction with in situ derivatization and gas chromatography-mass spectrometry for analysis of bisphenol A in human urine sample. Journal of Chromatography B 870: 98-102.
Kuroda, N.,
Kinoshita, Y., Sun, Y., Wada, M., Kishikawa, N.,
Nakashima, K., Makina, T. & Nakazawa,
H. 2003. Measurement of bisphenol A levels in human
blood serum and ascitic fluid by HPLC using a
fluorescent labeling reagent. Journal of
Pharmaceutical and Biomedical Analysis 30(6): 1743-1749.
Lauritsen, F.R. 1990. A new membrane inlet for on-line
monitoring of dissolve, volatile organic compounds with mass spectrometry. International
Journal of Mass Spectrometry and Ion Processes 95(3): 259-268.
Li, C., Li, X.Y.
& Graham, N. 2005. A study of the preparation and reactivity of potassium
ferrate. Chemosphere 61(4):
537-543.
Lin, Z., Cheng, W.,
Li, Y., Liu, Z., Chen, X. & Huang, C. 2012. A novel superparamagnetic
surface molecularly imprinted nanoparticle adopting dummy template: An
efficient solid-phase extraction adsorbent for bisphenol A. Analytica Chimica Acta 720: 71-76.
Liu, S., Xie, Q., Chen, J., Sun, J., He, H. & Zhang, X. 2013.
Development and comparison of two dispersive liquid-liquid microextraction techniques coupled to high performance liquid chromatography for the rapid
analysis of bisphenol A in edible oils. Journal of
Chromatography A 1295: 16-23.
Loh, S.H., Ong, S.T., Ngu, M.L.
& Mohd Ariffin, M.
2017. Rapid extraction of bisphenol A by dispersive
liquid-liquid microextraction based on solidification
of floating organic. Sains Malaysiana 46(4):
615-621.
Mohan, A.M. 2013. Canned Foods Stocked in 98% of Americans’
Kitchens.
https://www.greenerpackage.com/cans/survey_canned_foods_stocked_98_americans_kitchens_0.
Accessed on 18 September 2018.
Niu, Y., Zhang, J., Wu, Y. & Shao, B. 2012. Analysis of bisphenol A and alkylphenols in
cereals by automated on-line solid-phase extraction and liquid chromatography
tandem mass spectrometry. Journal of Agricultural and Food Chemistry 60: 6116-6122.
Oksman, O. 2017. The BPA
Debate is Back, as Workers Exposed to Levels 70 Times the Average.
https://www.theguardian.com/sustainable-business/2017/jan/22/bpa-plastics-chemicals-safety-health-concerns.
Accessed on 18 September 2018.
Pawliszyn, J. 2012. Handbook of Solid Phase Microextraction. 1st
ed. Netherlands: Elsevier.
Psillakis, E. & Kalogerakis,
N. 2003. Developments in liquid-phase microextraction. Trends in Analytical Chemistry 22(10):
565-574.
Rocha, B.A., Da
Costa, B.R.B., De Albuquerque, N.C.P., De Oliveira, A.R.M., Souza, J.M.O., Al-Tameemi, M., Camoiglia, A.D.
& Barbosa, F. 2016. A fast method for bisphenol A
and six analogues (S, F, Z, P, AF, AP) determination in urine samples based on
dispersive liquid-liquid microextraction and liquid
chromatography-tandem mass spectrometry. Talanta 154: 511-519.
Rodriguez-Mozaz, S., de Alda, M.J.L. &
Barceló, D. 2004. Monitoring of estrogens, pesticides
and bisphenol A in natural waters and drinking water
treatment plants by solid-phase extraction-liquid chromatography-mass
spectrometry. Journal of Chromatography A 1045: 85-92.
Rykowska, I. & Wasiak,
W. 2006. Properties, threats, and methods of analysis of bisphenol A and its derivatives. Acta Chromatographica 16:
7-20.
Sanagi, M.M., Loh, S.H., Wan Ibrahim, W.A. & Hasan, M.N. 2012. Agarose film liquid phase microextraction combined with gas chromatography-mass spectrometry for the determination of polycyclic aromatic hydrocarbons in water. Journal of Chromatography A 1262: 43-48. Sanagi, M.M., See, H.H., Wan Ibrahim, W.A. & Abu Naim,
A. 2007. Determination of pesticides in water
by cone shaped membrane protected liquid phase microextraction prior
to micro-liquid chromatography. Journal
of Chromatography A 1152: 215-219. Saraji, M., Boroujeni, M.K. & Bidgoli, A.A.H. 2011. Comparison of dispersive
liquid-liquid microextraction and hollow fiber liquid-liquid-liquid microextraction for the determination of fentanyl, alfentanil, and sufentanil in water and biological fluids by
high-performance liquid chromatography. Analytical Bioanalytical Chemistry 400(7): 2149-2158.
Ullah, A., Pirzada, M., Jahan, S., Ullah, H., Shaheen, G., Rehman, H., Siddiqi, M.F. & Butt, M.A. 2018. Bisphenol A and its analogs bisphenol B, bisphenol F, and bisphenol S: Comparative in vitro and in vivo studies on the sperms and testicular tissues of rats. Chemosphere 209: 508-516.
Vial, J. & Jardy, A. 1999. Experimental comparison of the different
approaches to estimate LOD and LOQ of an HPLC Method. Analytical Chemistry 71(14): 2672-2677.
Yiantzi, E., Psillakis,
E., Tyrovola, K. & Kalogerakis,
N. 2010. Vortex-assisted liquid-liquid microextraction of octylphenol, nonylphenol and bisphenol-A. Talanta 80(5): 2057-2062.
*Pengarang untuk surat-menyurat; email: lohsh@umt.edu.my
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