Abstract

AbstractIn recent years, much effort has been devoted to designing nanoparticle drug delivery systems and improving the efficacy of anticancer drugs. This study focused on the preparation of a novel biocompatible nanocarrier based on bacterial cellulose (BC) in the presence of exosome (Exo) for the controlled release of 5‐fluorouracil (5‐FU), known as 5‐FU.Exo@BC. The physicochemical properties of 5‐FU.Exo@BC were thoroughly characterized using field emission scanning electron microscopy (FESEM), differential scanning calorimetry (DSC), Fourier‐transform infrared spectroscopy (FTIR), and X‐ray diffraction (XRD). These results confirmed the successful preparation of 5‐FU.Exo@BC. The release behavior of 5‐FU.Exo@BC compared with 5‐FU and 5‐FU@BC demonstrated a significant sustained release over 162 h. The release mechanism of the above three systems followed Korsmeyer‐Peppas with non‐Fickian diffusion for 5‐FU@BC and 5‐FU.Exo@BC. Furthermore, the viability of HT‐29 cells (human colon cancer cell lines) against BC, 5‐FU@BC and 5‐FU.Exo@BC indicated that 5‐FU has promising efficacy in 5‐FU.Exo@BC system. Subsequently, the prepared bio‐nanocomposite could be suggested as a potential drug delivery system with an effective controlled‐release function.

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