Synthesis of Monodisperse Chitosan Nanoparticles and in Situ Drug Loading Using Active Microreactor

摘要

Chitosan nanoparticles are promising drug delivery vehicles. However, the conventional method of unregulated mixing during ionic gelation limits their application because of heterogeneity in size and physicochemical properties. Therefore, a detailed theoretical analysis of conventional and active microreactor models was simulated. This led to design and fabrication of a polydimethylsiloxane microreactor with magnetic micro needles for the synthesis of monodisperse chitosan nanoparticles. Chitosan nanoparticles synthesized conventionally, using 0.5 mg/mL chitosan, were 250 +/- 27 nm with +29.8 +/- 8 mV charge. Using similar parameters, the microreactor yielded small size particles (154 +/- 20 nm) at optimized flow rate of 400 mu L/min. Further optimization at 0.4 mg/mL chitosan concentration yielded particles (130 +/- 9 nm) with higher charge (+39.8 +/- 5 mV). The well-controlled microreactor-based mixing generated highly monodisperse particles with tunable properties including antifungal drug entrapment (80%), release rate, and effective activity (MIC, 1 mu g/mL) against Candida.