Abstract
In this review, procedures based on extraction accumulation into carbon pastes as main principle of voltammetric determination of biologically active organic compounds are summarized for the first time. This combination is commonly presented as rapid, effective, and advantageous alternative to standard analytical methods based on chromatographic and spectrometric principles. However, to date, a comprehensive review focusing exclusively on different applications of extractive stripping voltammetry has not been reported yet. Herein, the main attention is paid to the principles of extraction-based methods, and all the important factors, working conditions, and parameters influencing more or less the respective analytical performance, including the task of often extraordinary selectivity and good detection capabilities. Various properties as sensitivity, experimental arrangement, scope of application, and theoretical background are also assessed and critically commented. As a point of special importance, medium-exchange procedures are surveyed and shown as effective tools offering a very high selectivity and well applicable in clinical and pharmaceutical analysis. It is assumed that presented information can contribute to a wider applicability of extractive stripping voltammetry, helping in the development of other methods based on these still nonconventional stripping voltammetric procedures. This review also contains a systematic part, in which various methods and approaches of this kind that have already been published, concerning various biologically active organic compounds, such as alkaloids, terpenoids, amino acids, hormones, fat-soluble vitamins, food additives, pesticides, and pharmaceuticals.
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References
Švancara I, Vytřas K, Kalcher K, Walcarius A, Wang J (2009) Electroanalysis 21:7
Sun D, Zhang H (2006) Anal Chim Acta 557:64
Chambers CAH, Lee JK (1967) J Electroanal Chem 14:309
Wang J, Deshmukh BK, Bonakdar M (1985) J Electroanal Chem 194:339
Wang J, Freiha BA (1984) Anal Chem 56:849
Wang J, Freiha BA (1983) Anal Chem 55:1285
Kharitonov SV (2007) Russ Chem Rev 76:361
Wang J, Luo DB (1984) J Electroanal Chem 179:251
Zoulis NE, Nikolelis DP, Efstathiou CE (1990) Analyst 115:291
Cookeas EG, Efstathiou CE (1992) Analyst 117:1329
Rosecká K, Mikysek T, Švancara I (2014) Electrochemical determination of myristicin using a carbon paste electrode. In: Navrátil T, Fojta M, Pecková K (eds) XXXIV. Moderní elektrochemické metody. Best Servis Ústí nad Labem, p 135
Nissim R, Compton RG (2015) Chem Cent J 9:41
Wang J, Bonakdar M (1985) Anal Lett 18:2569
Sýs M, Vytřas K (2016) Electrochemical study of factors affecting reproducibility of capsaicin extraction into carbon pastes. In: Fischer J, Kellner J, Vytřas K (eds), Monitorování cizorodých látek v životním prostředí XVIII. Univerzita Pardubice, p 141
Mofidi Z, Norouzi P, Seidi S, Ganjaliab MR (2017) New J Chem 41:13567
Mofidi Z, Norouzi P, Sajadian M, Ganjaliab MR (2018) J Sep Sci 41:1644
Mofidi Z, Norouzi P, Seidi S, Ganjaliab MR (2017) Anal Chim Acta 972:38
Mofidi Z, Esmaeili C, Norouzi P, Seidi S, Ganjali MR (2018) J Electrochem Soc 165:205
Tuzhi P, Zhongping Y, Rongshn L (1990) Chem J Chin U 11:1067
Radi A (1999) Anal Commun 36:43
Sýs M, Švecová B, Švancara I, Metelka R (2017) Food Chem 229:621
Sýs M, Žabčíková S, Červenka L, Vytřas K (2017) Potr S J F Sci 11:96
Hart JP, Wring SA (1989) Analyst 114:933
Ðorđević J, Papp Z, Guzsvány V, Švancara I, Trtić-Petrović T, Purenović M, Vytřas K (2012) Sensors 12:148
Radi A (2001) J Pharm Biomed Anal 24:413
Wang J, Freiha BA, Deshmukh BK (1985) Bioelectrochem Bioenerg 14:457
Vanýsek P (1995) Electrochim Acta 40:2841
Rice NM, Irving HMNH, Leonard MA (1993) Pure App Chem 65:2373
Sangster J (1989) J Phys Chem Ref Data 18:1111
Sýs M, Vytřas K (2016) Sci Pap Univ Pardubice Ser A 22:35
Ramesh P, Suresh GS, Sampath S (2004) J Electroanal Chem 561:173
Hagen WR (1989) Eur J Biochem 182:523
Moore RR, Banks CE, Compton RG (2004) Anal Chem 76:2677
Zhao Q, Gan Z, Zhuang Q (2002) Electroanalysis 14:1609
Zhang LL, Zhou R, Zhao XS (2010) J Mater Chem 20:5983
Shen L, Wang J, Xu G, Li H, Dou H, Zhang X (2015) Adv Energy Mater 5:1400977
Xu C, Cheng L, Shen P, Liu Y (2007) Electrochem Commun 9:997
Barek J, Muck A, Wang J, Zima J (2004) Sensors 4:47
Sýs M, Stočes M, Metelka R, Vytřas K (2016) Monatsh Chem 147:31
Rivas GA, Rubianes MD, Pedano ML, Ferreyra NF, Luque GL, Rodríguez MC, Miscoria SA (2007) Electroanalysis 19:823
Gasnier A, Pedano ML, Rubianes MD, Rivas GA (2013) Sens Actuators B 176:921
Švancara I, Schachl K (1999) Chem Listy 93:490
Švancara I, Konvalina J, Schachl K, Kalcher K, Vytřas K (1998) Electroanal 10:435
Mikysek T, Stočes M, Javanovski J, Sopha H, Švancara I, Ludvík J (2011) Relation between the composition and properties of carbon ionic liquid electrodes (CILEs). In: Kalcher K, Metelka R, Švancara I, Vytřas K (eds), Sensing in electroanalysis. Univerzita Pardubice, p 157
Fan K, Wu J (2013) Anal Methods–UK 5:5146
He Q, Fei J, Hu S (2003) Anal Sci 19:681
Wang A, Chung DDL (2014) Carbon 72:135
Mikysek T, Švancara I, Kalcher K, Bartoš M, Vytřas K, Ludvík J (2009) Anal Chem 81:6327
Rubianes MD, Rivas GA (2003) Electrochem Commun 5:689
Sýs M, Jashari G, Arbneshi T, Metelka R, Švancara I, Vytřas K (2017) Effect of pasting liquids on the extraction of vitamin K1. In: Navrátil T, Fojta M, Schwarzová K (eds) XXXVII Moderní elektrochemické metody Best Serviss Ústí nad Labem 197
Cross MM (1970) Polymer 11:238
Rogers KR, Becker JY, Cembrano J, Chough SH (2001) Talanta 54:1059
Almeida CMVB, Gianetti BF (2002) Electrochem Commun 4:985
Sýs M, Khaled E, Metelka R, Vytřas K (2017) J Serb Chem Soc 82:865
Kalcher K, Kaufmann JM, Wang J, Švancara I, Vytřas K, Neuhold C, Yang Z (1995) Electroanal 7:5
Dejmkova H, Zima J, Barek J, Mika J (2012) Electroanal 24:1766
Pourhossein M, Shahtaheri SJ, Mazloumi A, Rahimi-Foroushani A, Helmi-Kohneshahri M, Maleck Khani H (2018) J Anal Chem 73:966
Pogliani L (1992) J Pharm Sci 81:334
Kachoosangi RT, Wildgoose GG, Compton RG (2008) Analyst 7:888
Jain R, Yadav RK (2012) J Pharm Biomed Anal 2:123
Sýs M, Granit Jashari G, Švecová B, Arbneshi T, Metelka R (2018) J Electroanal Chem 821:10
Grundl G, Müller M, Touraud D, Kunz W (2017) J Mol Liq 236:368
Briggs SW, Comings EW (1943) Ind Eng Chem 35:411
Robinson T (1974) Science 184:430
Mantle PG, Laws I (1989) J Gen Microbiol 135:2679
Melchior C, Collins MA, Cohen G (1982) Crit Rev Toxicol 9:313
Pelletier SW (1991) Alkaloids: chemical and biological perspectives. Springer, New York
Herrera CM (1982) Am Nat 120:218
Brown AJ, Lenehan CE, Francis PS, Dunstan DE, Barnett NW (2007) Talanta 71:1951
Wu G (2009) Amino Acids 37:1
Camm EL, Towers G (1973) Phytochemistry 12:961
Louie GV, Bowman ME, Moffitt MC, Baiga TJ, Moore BS, Noel JP (2006) Chem Biol 13:1327
Rodríguez H, Landete JM, Curiel JA, de Las Rivas B, Mancheño JM, Muñoz R (2008) J Agric Food Chem 56:3068
Schwarz EL, Roberts WL, Pasquali M (2005) Clin Chim Acta 354:83
Zunić GD, Spasić S, Jelić-Ivanović Z (2012) Methods Mol Biol 828:243
Ichiyama A, Nakamura S, Kawai H, Honjo T, Nishizuka Y, Hayaishi O, Sesoh S (1964) J Biol Chem 240:740
Grimble RF (1997) Int J Vitam Nutr Res 67:312
Van Soest PJ (1994) Nutritional ecology of the ruminant. Cornell University Press, Ithaca
Britton G (1995) FASEB J 9:1551
Silverman AK, Ellis CN, Voorhees JJ (1987) J Am Acad Dermatol 16:1027
Gomis DB, Fernández MP, Gutiérrez Alvarez MD (2000) J Chromatogr A 891:109
Moreno P, Salvadó V (2000) J Chromatogr A 870:207
Salo-Väänänena P, Ollilainen V, Mattila P, Lehikoinen K, Salmela-Mölsäa E, Piironen V (2000) Food Chem 71:535
Qian H, Sheng M (1998) J Chromatogr A 825:127
Blanco M, Coello J, Iturriaga H, Maspoch S, Gómez-Cotín T, Alaoui-Ismaili S, Rovira E (1995) Fresenius J Anal Chem 351:315
Prieto P, Pineda M, Aguilar M (1999) Anal Biochem 269:337
Webster RD (2012) Chem Rec 12:188
Sýs M, Žabčíková S, Červenka L, Vytřas K (2016) Potr S J F Sci 10:260
Branen AL, Davidson PM, Salminen S, Thorngate J (2001) Food additives. Marcel Dekker, New York
Farag AS, Sýs M, Hájek T, Vytřas K (2018) Monatsh Chem 149:1945
Truitt EB, Duritz G, Ebersberger EM (1963) Exp Biol Med 112:647
Hallström H, Thuvander A (1997) Nat Toxins 5:186
Botsoglou NA, Grigoropoulou SH, Botsoglou E, Govaris A, Papageorgiou G (2003) Meat Sci 65:1193
Chow FI, Omaye ST (1983) Methods 18:837
Combs GF Jr, Scott ML (1974) J Nutr 104:1297
Norman AW, Litwack G (1997) Hormones. Elsevier Inc, USA
Scaramuzzi RJ, Campbell BK, Downing JA, Kendall NR, Khalid M, Muñoz-Gutiérrez M, Somchit A (2006) Reprod Nutr Dev 46:339
Hsu S, Raine L, Fanger H (1981) Am J Clin Pathol 75:734
Odell WD, Rayford PL, Ross GT (1967) J Lab Clin Med 70:973
Scheer FAJL, Czeisler CA (2005) Sleep Med Rev 9:5
Norman AW, Mizwicki MT, Norman DPG (2004) Nat Rev Drug Discov 3:27
Brent GA (2012) J Clin Invest 122:3035
Corbett JR (1974) The biochemical mode of action of pesticides. Academic Press Inc, London
Kumar A (2004) Advances in life sciences. A.P.H Publishing corporation, NewDelhi
Maroni M, Fanetti AC, Metruccio F (2006) Toxicol Lett 107:145
Balali-Mood M, Saber H (2012) Iran J Med Sci 37:74
Daughton CG, Ternes TA (1999) Environ Health Perspect 107:907
Liu Z, Guo F, Gu J, Wang Y, Li Y, Wang D, Liang LuL, Li D, He F (2015) Bioinformatics 31:1788
Lachman L, Roemer WC (1972) J Am Pharm Assoc 12:215
Ozkan SA (2011) Electroanalytical methods in pharmaceutical analysis and their validation. H.N.B. Publishing, New York
Ozkan SA, Kauffmann JM, Zuman P (2015) Electroanalysis in biomedical and pharmaceutical sciences: voltammetry, amperometry, biosensors, applications. Springer, Berlin
Djokić S (2016) Biomedical and pharmaceutical applications of electrochemistry. Springer, Berlin
Basile J (2004) J Clin Hypertens 6:621
Ryan ND, Puig-Antich J, Cooper T, Rabinovich H, Ambrosini P, Davies M, King J, Torres D, Fried J (1986) Acta Psychiatr Scand 73:275
Voilley N, de Weille J, Mamet J, Lazdunski M (2001) J Neurosci 21:8026
McCormack K, Urquhart E (1995) Clin Drug Invest 9:88
Villar JCC, García AC, Blanco PT (1993) Talanta 40:325
Habib IHI, Farag AB, Hassan Rabeay YAH, Hassan HNA (2007) Anal Chem Indian J 7:110
Radi A (2003) Farmaco 58:535
Khodari M, Kauffmann JM, Patriarche GJ, Ghandour MA (1989) J Pharm Biomed Anal 7:1491
Khodari M, Kauffmann JM, Patriarche GJ, Ghandour MA (1989) Electroanalysis 1:501
Khodari M (1993) Electroanalysis 5:521
Švancara I, Kalcher K (2015) Electrochemistry of Carbon Electrodes. In: Alkire RC, Bartlett PN, Lipkowski J (eds) Advances in electrochemical science and engineering 16. Wiley, Weinheim, p 386
Tasioula-Margari M, Okogeri O (2001) Food Chem 74:377
Wu H, Cheng H, Tian J, Wang X (1997) Chin J Chromatogr 15:43
Canevari TC, Cincotto FH, Landers R, Machado SAS (2014) Electrochim Acta 147:688
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The support received from the Faculty of Chemical Technology, University of Pardubice (project No. SGS-2018-001) is gratefully acknowledged.
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Sýs, M., Farag, A.S. & Švancara, I. Extractive stripping voltammetry at carbon paste electrodes for determination of biologically active organic compounds. Monatsh Chem 150, 373–386 (2019). https://doi.org/10.1007/s00706-018-2346-0
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DOI: https://doi.org/10.1007/s00706-018-2346-0