Synthesis & characterization of novel MIP with RAFT polymerization of (2-hydroxy ethyl methacrylate)/chitosan as a nanocarrier for drug delivery applications

The primary function of the drug delivery system is to transfer various drugs to certain parts of the body. The drug is transferred reliably in the molecularity imprinted system, based on adjusting the drug release mechanism to control the drug amount and treatment duration. Molecular Imprinting Technology can provide an efficient polymer system to detect bioactive molecules and has high adsorption capacity as drug delivery carriers. This study developed a nanocarrier of molecular imprinted polymer (MIP) of poly (2-hydroxy ethyl methacrylate)/ chitosan nanocomposite and also evaluated their performance for drug loading and release in the buffer blood medium. Nanocarriers were prepared based on the RAFT polymerization technique, and cefixime was applied to evaluate the load and release of drugs in nanocarriers. Crucial parameters such as the ratio of imprinted to functional monomer and also the ratio of functional monomer to cross-link should be assessed to obtain the best performance of the MIP. Each of these parameters was studied for four different ratios. TEM analysis showed that the particle size of optimum MIP was between 15 and 20 nm. The specific surface area of CH-CEMIP (chitosancefixime MIP) and CEMIP (cefixime MIP) samples were 7.53 and 6.32 m2/g, respectively. Comparing these amounts and the specific surface area of the (Non-Imprinted) NIP sample (1.87 m2/g) indicated that special diagnostic pores were generated. In the drug loading process, the CH-CEMIP sample with 82 mg/g could link to the drug more than CEMIP and NIP samples due to its high selectivity property. Furthermore, according to the drug release experiments, the CH-CEMIP sample performed better in 250 h as 84 % of cefixime in this duration was released slowly and steadily.