Sustainable Production of Drug-Loaded Particles by Membrane Emulsification

Abstract

As the field of drug delivery is expanding into consumer products, it is essential to advance in the development of efficient synthesis technologies while preserving, at the same time, human health and the environment for future generations. Here, the sustainable development of polymeric particles for drug delivery is described. Poly(ethylene glycol) methyl ether-block-poly(lactide-co-glycolide) based particles containing dexamethasone were produced by membrane emulsification-solvent diffusion methods. The ability of the synthesis process to control particle-size distribution and morphology and its green impactful (energy consumption, simple (sEF) and complete (cEF) E factor) were evaluated. Particles with sufficiently narrow distribution in their droplet size and mean diameter similar to the membrane pore diameter were produced by increasing the dispersed phase flux to 12.84 L h–1 m–2, minimizing the maximum shear stress to 1.12 Pa and the energy consumption to 3.96 × 105 J m–3. The impact of the solvent...