Removal of iron by chelation with molecularly imprinted supermacroporous cryogel

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Abstract

Iron chelation therapy can be used for the selective removal of Fe3+ ions from spiked human plasma by ion imprinting. N-Methacryloyl-(L)-glutamic acid (MAGA) was chosen as the chelating monomer. In the first step, MAGA was complexed with the Fe3+ ions to prepare the precomplex, and then the ion-imprinted poly(hydroxyethyl methacrylate-N-methacryloyl-(L)-glutamic acid) [PHEMAGA-Fe3+] cryogel column was prepared by cryo-polymerization under a semi-frozen temperature of − 12°C for 24 h. Subsequently, the template, of Fe3+ ions was removed from the matrix by using 0.1 M EDTA solution. The values for the specific surface area of the imprinted PHEMAGA-Fe3+ and non-imprinted PHEMAGA cryogel were 45.74 and 7.52 m2/g respectively, with a pore size in the range of 50–200 μm in diameter. The maximum Fe3+ adsorption capacity was 19.8 μmol Fe3+/g cryogel from aqueous solutions and 12.28 μmol Fe3+/g cryogel from spiked human plasma. The relative selectivity coefficients of ion-imprinted cryogel for Fe3+/Ni2+ and Fe3+/Cd2+ were 1.6 and 4.2-fold greater than the non-imprinted matrix, respectively. It means that the PHEMAGA-Fe3+ cryogel possesses high selectivity to Fe3+ ions, and could be used many times without significantly decreasing the adsorption capacity.

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Çimen, D., Göktürk, I., & Yılmaz, F. (2016). Removal of iron by chelation with molecularly imprinted supermacroporous cryogel. Artificial Cells, Nanomedicine and Biotechnology, 44(4), 1158–1166. https://doi.org/10.3109/21691401.2015.1011810

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