Journal : Acta Chromatographica
Article : Determination of microelements in sprouts grown on metal-enriched solutions by ion chromatography

Authors :
Kuc, J.
Cracow University of Technology Department of Chemical Engineering and Technology, Department of Analytical Chemistry Warszawska 24 31-155 Cracow Poland, jkuc@chemia.pk.edu.pl,
Grochowalski, A.
Cracow University of Technology Department of Chemical Engineering and Technology, Department of Analytical Chemistry Warszawska 24 31-155 Cracow Poland,
Mach, S.
Institute of Public Health Ostrava Centre of Hygienic Laboratories Dobrá 240 739 51 Frýdek-Místek Czech Republic,
Placha, D.
VŠB-Technical University of Ostrava Centrum Nanotechnology 17 Listopadu 15/2172 708 33 Ostrava Czech Republic,
Furusawa, N.
Osaka City University Graduate School of Human Life Science Osaka 558-8585 Japan,
Stoilova, N.
Bulgarian Food Safety Agency Central Laboratory of Veterinary Control and Ecology (CLVCE) 5 “Iskarsko shousse” str., 1528 Sofia Bulgaria, nadqstoilova@abv.bg,
Surleva, A.
University of Chemical Technology and Metallurgy Analytical Chemistry Department 8 “St. Kl. Ohridski” blvd., 1756 Sofia Bulgaria,
Stoev, G.
Bulgarian Food Safety Agency Central Laboratory of Veterinary Control and Ecology (CLVCE) 5 “Iskarsko shousse” str., 1528 Sofia Bulgaria,
Popovic, N.
Lafayette College Department of Chemistry Easton PA USA,
Sherma, J.
Lafayette College Department of Chemistry Easton PA USA, shermaj@lafayette.edu,
Dixit, S.
Yeungnam University Department of Chemistry Gyeongsan 712-749 South Korea, drdixit.shuchi@gmail.com,
Dubey, R.
riturajdubey0@gmail.com,
Bhushan, R.
Indian Institute of Technology Roorkee Department of Chemistry Roorkee 247667 India, rbushfcy@iitr.ernet.in,
Fouad, M. A.
Cairo University Pharmaceutical Chemistry Department, Faculty of Pharmacy Kasr El-Aini St. Cairo 11562 Egypt, merro911@yahoo.com,
Elkady, E. F.
Cairo University Pharmaceutical Chemistry Department, Faculty of Pharmacy Kasr El-Aini St. Cairo 11562 Egypt,
Csomor, V.
Semmelweis University Department of Pharmacodynamics Budapest Hungary,
Laufer, R.
Semmelweis University Department of Pharmacodynamics Budapest Hungary,
Pöstényi, Z.
Semmelweis University Department of Pharmacology and Pharmacotherapy Budapest Hungary,
Kalász, H.
Semmelweis University Department of Pharmacology and Pharmacotherapy Budapest Hungary, huba.kalasz@gmail.com,
Adeghate, E.
United Arab Emirates University Department of Anatomy Al Ain UAE,
Nurulain, S. M.
United Arab Emirates University Department of Pharmacology and Therapeutics Al Ain UAE,
Tekes, K.
Semmelweis University Department of Pharmacodynamics Budapest Hungary,
Adem, A.
United Arab Emirates University Department of Pharmacology and Therapeutics Al Ain UAE,
Kwiecień, A.
Jagiellonian University Medical College, Faculty of Pharmacy Department of Inorganic and Analytical Chemistry 9 Medyczna Street 30-688 Kraków Poland,
Krzek, J.
Jagiellonian University Medical College, Faculty of Pharmacy Department of Inorganic and Analytical Chemistry 9 Medyczna Street 30-688 Kraków Poland, jankrzek@cm-uj.krakow.pl,
Gądek, M.
Jagiellonian University Medical College, Faculty of Pharmacy Department of Inorganic and Analytical Chemistry 9 Medyczna Street 30-688 Kraków Poland,
Kuźma, Ł.
Medical University of Łódź Department of Biology and Pharmaceutical Botany Muszyńskiego 1 st. 90-151 Łódź Poland, lukasz.kuzma@umed.lodz.p,
Wysokińska, H.
Medical University of Łódź Department of Biology and Pharmaceutical Botany Muszyńskiego 1 st. 90-151 Łódź Poland,
Dong, H.
Harbin Engineering University Polymer Materials Research Center, Key Laboratory of Superlight Materials and Surface Technology Ministry of Education. College of Material Science and Chemical Engineering Harbin 150001 China, hongxingd6@yahoo.com.cn,
Wang, Y.
Harbin Engineering University Polymer Materials Research Center, Key Laboratory of Superlight Materials and Surface Technology Ministry of Education. College of Material Science and Chemical Engineering Harbin 150001 China,
Ou, Y.
Harbin Engineering University Polymer Materials Research Center, Key Laboratory of Superlight Materials and Surface Technology Ministry of Education. College of Material Science and Chemical Engineering Harbin 150001 China,
She, J.
Harbin Engineering University Polymer Materials Research Center, Key Laboratory of Superlight Materials and Surface Technology Ministry of Education. College of Material Science and Chemical Engineering Harbin 150001 China,
Shen, X.
Harbin Engineering University Polymer Materials Research Center, Key Laboratory of Superlight Materials and Surface Technology Ministry of Education. College of Material Science and Chemical Engineering Harbin 150001 China,
Li, J.
Harbin Engineering University Polymer Materials Research Center, Key Laboratory of Superlight Materials and Surface Technology Ministry of Education. College of Material Science and Chemical Engineering Harbin 150001 China,
Zhang, C.
Harbin Engineering University Polymer Materials Research Center, Key Laboratory of Superlight Materials and Surface Technology Ministry of Education. College of Material Science and Chemical Engineering Harbin 150001 China,
Liu, L.
Harbin Engineering University Polymer Materials Research Center, Key Laboratory of Superlight Materials and Surface Technology Ministry of Education. College of Material Science and Chemical Engineering Harbin 150001 China,
Xiong, W.
Tianjin University of Traditional Chinese Medicine Tianjin State Key Laboratory of Modern Chinese Medicine 300193 Tianjin PR China,
Yan, R. Q.
Tianjin University of Traditional Chinese Medicine Tianjin State Key Laboratory of Modern Chinese Medicine 300193 Tianjin PR China,
Liu, Y. N.
Tianjin University of Traditional Chinese Medicine Tianjin State Key Laboratory of Modern Chinese Medicine 300193 Tianjin PR China,
Peng, S. W.
Tianjin University of Traditional Chinese Medicine Tianjin State Key Laboratory of Modern Chinese Medicine 300193 Tianjin PR China,
Jiang, Z. Z.
Tianjin University of Traditional Chinese Medicine Tianjin State Key Laboratory of Modern Chinese Medicine 300193 Tianjin PR China,
Chai, X.
Tianjin University of Traditional Chinese Medicine Tianjin State Key Laboratory of Modern Chinese Medicine 300193 Tianjin PR China,
Qi, A. D.
Tianjin University of Traditional Chinese Medicine Tianjin State Key Laboratory of Modern Chinese Medicine 300193 Tianjin PR China,
Wang, Y. F.
Tianjin University of Traditional Chinese Medicine Tianjin State Key Laboratory of Modern Chinese Medicine 300193 Tianjin PR China, wangyuefei_2006@hotmail.com,
Li, J. R.
Chinese Academy of Sciences Chengdu Institute of Biology Chengdu 610041 PR China,
Li, D. X.
Sichuan Academy of Chinese Medicine Sciences Sichuan Key Laboratory of Quality and Innovation Research of Chinese Materia Medica Chengdu 610041 PR China,
Li, L.
Waters China Limited Block 41, 1387 Zhangdong Road, Pudong New District Shanghai 201203 PR China,
Deng, W. L.
Sichuan Academy of Chinese Medicine Sciences Sichuan Key Laboratory of Quality and Innovation Research of Chinese Materia Medica Chengdu 610041 PR China,
Ding, L. S.
Chinese Academy of Sciences Chengdu Institute of Biology Chengdu 610041 PR China,
Xu, H. X.
Shanghai University of Traditional Chinese Medicines Shanghai 201203 PR China,
Zhou, Y.
Chinese Academy of Sciences Chengdu Institute of Biology Chengdu 610041 PR China, zhouyan@cib.ac.cn,
Yang, H.
Zhejiang Chinese Medical University College of Pharmaceutical Sciences Hangzhou, Zhejiang China,
Yin, H.
Zhejiang Chinese Medical University College of Pharmaceutical Sciences Hangzhou, Zhejiang China, maryyinhua@163.com,
Wang, Z.
Zhejiang Chinese Medical University Traumatology Institute Hangzhou, Zhejiang China,
Fan, L.
Zhejiang Chinese Medical University College of Pharmaceutical Sciences Hangzhou, Zhejiang China,
Li, Q.
Zhejiang Chinese Medical University College of Pharmaceutical Sciences Hangzhou, Zhejiang China,
Zhu, X.
Zhejiang Chinese Medical University College of Pharmaceutical Sciences Hangzhou, Zhejiang China,
Blicharska, E.
Medical University of Lublin Department of Analytical Chemistry, Faculty of Pharmacy Chodzki 4a 20-093 Lublin Poland, bayrena@tlen.pl,
Komsta, Ł.
Medical University of Lublin Department of Medicinal Chemistry, Faculty of Pharmacy Jaczewskiego 4 20-090 Lublin Poland,
Kocjan, R.
Medical University of Lublin Department of Analytical Chemistry, Faculty of Pharmacy Chodzki 4a 20-093 Lublin Poland,
Gumieniczek, A.
Medical University of Lublin Department of Medicinal Chemistry, Faculty of Pharmacy Jaczewskiego 4 20-090 Lublin Poland,
Kloc, A.
Medical University of Lublin Department of Analytical Chemistry, Faculty of Pharmacy Chodzki 4a 20-093 Lublin Poland,
Kaźmierczak, J.
Silesian Medical University Department of Hygiene, Bioanalysis, and Environmental Protections Kasztanowa 3a 41-200 Sosnowiec Poland,
Abstract : The paper discusses a possibility to grow seeds on solutions of microelements and application of sprouts enriched in such a way as an alternative to commercial dietary supplements. It contains a short review of the approaches reported till now and a systematic experimental study, carried on the most frequently used seeds (Lens culinaris, Helianthus annuus, Vigna radiata, Glycine max, and Lepidium sativum).Seven metals (Fe, Cu, Zn, Ni, Co, Cd, and Mn) were studied. Seeds were grown on cellulose in 20°C temperature using deionized water enriched with metals in concentrations: 100, 50, 25, 12.5, 6.25, and 3.125 mg/L in a period of 4 days. The reference samples were the seeds grown on pure deionized water. Sprouts were mineralized by microwave radiation, and the metal content was quantified by ion chromatography with on-line post-column derivatization and spectrophotometric detection.The conclusions can be treated as general recommendations, which seeds should be grown and what concentrations of metals in solutions should be applied to provide good enrichment and to avoid risk of microelement overdose.

Keywords : sprouts, microelements, metals, dietary supplements,
Publishing house : University of Silesia in Katowice
Publication date : 2014
Number : Vol. 26, no. 4
Page : 739 – 747

Bibliography
: 1 P. Lewicki, Food. Science Technology. Quality, 17, 18 (2010).
2 M.W. Conner, P.M. Newberne, Fundamental and Applied Toxicology, 4, S341 (1984).
3 N.N. Popov, N.P. Mashev, Fiziologija Na Rastenijata, 5, 90 (1979).
4 J.H. Freeland-Graves, M.L. Ebangit, P.W. Bodzy, Journal of the American Dietetic Association, 77, 648 (1980).
5 R.L. Bansal, N.G. Zyrin, Moscow University Soil Science Bulletin (English Translation of Vestnik Moskovskogo Universiteta, 38, 50 (1983).
6 R.B.H. Wills, A.W.K. Wong, F.M. Scriven, H. Greenfield, J. Agric. Food Chem., 32, 413 (1984).
7 S.S. Kadam, D.K. Salunkhe, Critical reviews in food science and nutrition, 22, 1 (1985).
8 R.M. Goodrich, R.S. Parker, D.J. Lisk, G.S. Stoewsand, Food Chem., 27, 141 (1988).
9 H.-O. Leh, Nachr. Bl. Dtsch. Pflanzenschutz Dients., 40, 106 (1988).
10 J.R. Lujan, D.W. Darnall, P.C. Stark, G.D. Rayson, J.L. Gardea-Torresdey, Solvent Extr. Ion Exch., 12, 803 (1994).
11 qR. Metz, J. Dorn, B.M. Wilke, Verhandlungen der Gesellschaft fur Okologie, 28, 465 (1997).
12 M. Laric, N. Filipovic, N. Hladni, O. Grujic, Acta Alimentaria, 27, 21 (1998).
13 A. Bibak, S. Storup, L. Knudsen, V. Gundersen, Commun. Soil Sci. Plant Anal., 30, 2409 (1999).
14 A. Elik, M. Akcay, M. Sokmen, Int. J. Environ. Anal. Chem., 77, 133 (2000).
15 T. Cinar, A. Elik, Int. J. Environ. Anal. Chem., 82, 321 (2002).
16 Z. En, A. Vasidov, V.V. Tsipin, T. Tillaev, G.I. Jumaniyazova, Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 505, 462 (2003).
17 A. Saiki, R. Hirasawa, C. Sadayasu, S. Yamashiro, M. Tominaga, K. Sato, J. Nutr. Sci. Vitaminol., 50, 286 (2004).
18 S. Inaba, C. Takenaka, Environment International, 31, 603 (2005).
19 H. Zielinski, J. Frias, M.K. Piskula, H. Kozlowska, C. Vidal-Valverde, Eur. Food Res. Technol., 221, 78 (2005).
20 G. Urbano, M. Lopez-Jurado, C. Aranda, A. Vilchez, L. Cabrera, J.M. Porres, P. Aranda, Int. J. Food Sci. Technol., 41, 618 (2006).
21 M.A. Sulieman, M.M. ElTyeb, M.A. Abbass, E.E.A. Ibrahim, E.E. Babiker, A.H. ElTinay, Journal of Biological Sciences, 7, 776 (2007).
22 X.-H. Zeng, Y.-Z. Zhang, K.-R. Wang, X.-X. Li, Y.-H. Duan, J.-H. Xie, Y.-P. Zhang, N.-M. Tu, Chinese Journal of Applied Ecology, 18, 1665 (2007)
DOI :
Qute : Kuc, J. ,Grochowalski, A. ,Mach, S. ,Placha, D. ,Furusawa, N. ,Stoilova, N. ,Surleva, A. ,Stoev, G. ,Popovic, N. ,Sherma, J. ,Dixit, S. ,Dubey, R. ,Bhushan, R. ,Fouad, M. A. ,Elkady, E. F. ,Csomor, V. ,Laufer, R. ,Pöstényi, Z. ,Kalász, H. ,Adeghate, E. ,Nurulain, S. M. ,Tekes, K. ,Adem, A. ,Kwiecień, A. ,Krzek, J. ,Gądek, M. ,Kuźma, Ł. ,Wysokińska, H. ,Dong, H. ,Wang, Y. ,Ou, Y. ,She, J. ,Shen, X. ,Li, J. ,Zhang, C. ,Liu, L. ,Xiong, W. ,Yan, R. Q. ,Liu, Y. N. ,Peng, S. W. ,Jiang, Z. Z. ,Chai, X. ,Qi, A. D. ,Wang, Y. F. ,Li, J. R. ,Li, D. X. ,Li, L. ,Deng, W. L. ,Ding, L. S. ,Xu, H. X. ,Zhou, Y. ,Yang, H. ,Yin, H. ,Wang, Z. ,Fan, L. ,Li, Q. ,Zhu, X. ,Blicharska, E. ,Komsta, Ł. ,Kocjan, R. ,Gumieniczek, A. ,Kloc, A. ,Kaźmierczak, J. ,Kaźmierczak, J. , Determination of microelements in sprouts grown on metal-enriched solutions by ion chromatography. Acta Chromatographica Vol. 26, no. 4/2014
facebook