Engineering polymeric Janus particles for drug delivery using microfluidic solvent dissolution approach (original) (raw)
2018, Chemical Engineering Science
Here we present the microfluidic approach to engineer polymeric Janus particles using solvent dissolution for potential drug delivery applications. Unlike the polymerization based particle generation techniques, this method does not suffer from potential toxicity concerns for drug delivery. This technique is based on dissolving away the solvent in the solution droplets containing designed concentration distribution of drug and polymer while preserving the concentration distribution during the transition of the droplet into a particle. We investigated the kinetics of solidification and concentration evolution in the droplets under different operational conditions. Our investigation demonstrated that the designed biphasic concentration of a drug surrogate introduced into two hemispheres of the droplets can be preserved in solidified particles. We conclude with practical guidelines for generating polymeric Janus particles using the dissolution technique. Highlights Monodisperse droplet generation regime for partially miscible liquids containing surfactants was experimentally evaluated. Experimental master curve for dissolution rate of solvent from a solidifying droplet in a rectangular channel was obtained. Micro Janus particle generation was achieved using microfluidic dissolution technique. The method is suitable for targeted drug delivery since it overcomes the liability of polymerization based techniquesnamely potential toxicity of residual monomers and degradation of the active drug
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