AI Article Synopsis
- Modern material engineering focuses on effectively converting raw materials into functional products, with this study exploring zein (plant protein) and lipids from egg yolk to create drug-loaded nanoparticles.
- The researchers developed hybrid nanoparticles (HNPs) using modified coaxial electrospraying and compared them to traditional monolithic nanocomposites (MNCs) made with Tamoxifen citrate, an anticancer drug.
- HNPs exhibited superior drug release characteristics, maintaining a sustained release of the drug compared to MNCs, due to their unique core-shell structure and the influence of the lipid shell on release dynamics.
Article Abstract
The reasonable selection and elaborate conversion of raw materials into desired functional products represent a main topic in modern material engineering. In this study, zein (a plant protein) and lipids (extracted from egg yolk) are converted into a new type of drug-polymer@lipid hybrid nanoparticles (HNPs) via modified coaxial electrospraying. Tamoxifen citrate (TC) is used as a model anticancer drug to prepare TC-zein monolithic nanocomposites (MNCs) via traditional blended electrospraying; these MNCs are then used for comparison. Modified coaxial electrospraying is a continuous and robust process for the preparation of solid particles because of the action of unsolidifiable shell lipid solutions. HNPs have a round morphology with clear core-shell nanostructures, whereas MNCs have an indented flat morphology. Although both hold the drug in an amorphous state because of the fine compatibility of TC and zein, HNPs demonstrate a better sustained release of TC compared with MNCs in terms of retarding initial burst release (6.7 %±2.9 % vs. 37.2 %±4.3 %) and prolonged linear release period (20.47 h vs. 4.97 h for releasing 90 % of the loaded drug). Mechanisms by which the shell's lipid layer adjusts the release behavior of TC molecules are proposed. The present protocol based on coaxial electrospraying shows a new strategy of combining edible protein and lipids to fabricate advanced functional nanomaterials.
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| http://dx.doi.org/10.1016/j.colsurfb.2021.111629 | DOI Listing |
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