Towards the development of a benzylpiperazine specific molecular imprinted polymer

Wright, Kathleen

Title: Towards the development of a benzylpiperazine specific molecular imprinted polymer
Creator: Wright, Kathleen
Relation: University of Newcastle Research Higher Degree Thesis
Resource Type: thesis
Date: 2010
Description: Research Doctorate - Doctor of Philosophy (PhD)
Description: Molecular imprinting has proved to be an effective technique for the creation of artificial recognition sites within a polymer matrix. These synthetic receptors known as MIPs, are cheap, are relatively simple to prepare and can be tailor made for potentially any target including large molecular-weight molecules. Two approaches, non-covalent (self assembly) and semi-covalent, have been employed to prepare MIPs for benzylpiperazine (BZP), a dominant bioactive compound in a new class of piperazine-base designer drugs. To the best of my knowledge, this is the first report on the synthesis of BZP MIPs via either approach. Non-covalent MIPs were prepared in 1:1, 1:2 and 1:4 template:monomer ratios employing itaconic acid (IA), methacrylic acid (MAA) and acrylic acid (AA), identified through molecular modelling and NMR spectroscopy studies as favourable functional monomers, with two cross-linkers, ethyleneglycol dimethacrylate (EGDMA) and trimethylolpropane trimethacrylate (TRIM), shown to exhibit the lowest affinity to BZP, and using acetonitrile (AN) and chloroform (CHCl₃) as porogens. Of the 30 polymer formulations assessed, only MIPs prepared with MAA in 1:1 and 1:2 ratios in CHCl3 exhibited moderate to impressive imprinting (I > 2). The novel synthesis of benzylpiperazine (4-vinylphenyl) carbamate was required for the preparation of the semi-covalent MIPs. This was obtained through the multi-step synthesis of 4-vinylphenol with thiophosgene, the product of which was reacted with BZP, neat. Two polymers were prepared in CHCl₃ using EGDMA and TRIM as cross-linker. The semi-covalent MIPs exhibited higher imprinting effect than the non-covalent MIPs. The highest imprinting factor obtained for the non-covalent polymers was 7.7 for the BZP:MAA 1:2 TRIM polymer bound in CHCl₃ while the semi-covalent polymer prepared with TRIM gave an imprinting factor of 28. For both non- and semi-covalent systems, BZP binding equilibrium was established with two hours or less. Rapid BZP up-take was observed for all polymers, with more than 80% of the equilibrium up-take occurring prior to 10 minutes. Quantitative analysis of the binding isotherm, Scatchard and Langmuir plots, showed the semi-covalent polymers to exhibit a stronger affinity to BZP and more homogeneous binding sites than the non-covalent polymers. Cross-reactivity and selectivity experiments were carried out in non-competitive and binary competitive environments with morphine (MO), cocaine (CO), ephedrine (EHP) and phenylpiperazine (PHP). Low affinity was observed for MO and CO analytes, with high selectivity for BZP in these systems. For PHP an equivalent affinity was observed, while the polymers had a greater affinity for EPH. No selectivity was observed for EPH in the competitive system. Both non-covalent and semi-covalent MIPs exhibited high selectivity towards BZP in the presence of MO and CO analytes but equivalent affinity towards PHP and EPH.
Subject: benzylpiperazine; molecular imprinted polymers; NMR titration; BZP; semi-covalent; selectivity; molecular modelling; synthesis
Identifier: uon:6804
Identifier: http://hdl.handle.net/1959.13/805174
Language: eng
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