Electrospun Bioscaffold Based on Cellulose Acetate and Dendrimer-modified Cellulose Nanocrystals for Controlled Drug Release

Side effects of high concentration of drug, related to high initial burst release still are major challenges of pharmacotherapy. This field demands novel drug release control methods. In this research, cellulose nanocrystals were modified via physical adsorption of polyamidoamine and used as an additive into electrospun cellulose acetate matrix. Characterizations confirmed successful modification of CNC, intactness of crystallinity, and perfect antibacterial activity. Zeta potential of the nanoparticles shifted from -12 eV to +23 eV. The modified CNC demonstrated 17800 cm(-1) Stocks shift. The addition of modified CNC to cellulose acetate reduced the nanofiber diameter up to 75% and improved mechanical properties. Electrospun cellulose acetate containing modified CNC perfectly controlled the release rate of tranexamic acid and improved the ultimate release amount of the gatifloxacin. The results of this work pave the way for preparing safe clinically applicable antibacterial bioscaffolds with controlled drug release, without needing any toxic reagent and chemical reaction.

Automated summary

This research successfully addresses the side effects of high drug concentration and demonstrates controlled drug release using modified cellulose nanocrystals. The addition of modified nanocrystals improves the mechanical properties and release effectiveness of the cellulose acetate material.