Preparation, characterization and application of curcumin based polymeric bio-composite for efficient removal of endotoxins and bacterial cells from therapeutic preparations.

Polymer science offers a great insight and a new research dimension for biomedical applications. The synthesis of polymeric materials by the physical ways provides several advantages over the conventional chemical methods. It is though expansive but less toxic, stable, and efficiently reproducible. In the present report, electrospinning was used for bio-composite preparation. The bio-composite was developed using polyvinyl alcohol (PVA) and curcumin. The electrospun fiber bio-composite were analyzed for antibacterial activity, bacterial filtration capability, and endotoxin elimination. The bio-composite was analyzed for physical structure and properties using Scanning Electron Microscopy (SEM), Energy Dispersive X-ray analysis (EDX), and Fourier Transform Infra-Red spectroscopy (FT-IR). PVA solely was not able to exhibit any of the antibacterial or endotoxin removal properties. However, the curcumin-based bio-composite was found to be bactericidal and endotoxin eliminator. The bio-composite was able to remove 100% of endotoxin and nearly 100% of the bacterial cells. The endotoxin removal properties of bio-composite were found to be excellent fit under Langmuir curve with a R2 value of 0.98. Additionally, the effect of bio-composite was also studied over protein content in the sample and L-asparaginase activity. However, the effect observed was negligible.