Curcumin-Enclosed Nanoparticles for Cancer Therapy

Abstract

Abstract: Cancer is the greatest cause of mortality worldwide, and it is distinguished by the unrestrained proliferation of a group of aberrant cells, the random division of cells, and the invasiveness of genetically organized cells. At present, there are various strategies for curing of cancer-based on the type & severity. In the earlier two decades, curcumin has received huge attention in pharmacological, biological, and nutraceutical research. In addition to triggering apoptosis in cancer cells, curcumin also inhibits cancer cell invasion and proliferation by stifling cellular signaling pathways. The lower water solubility of curcumin decreases the oral bioavailability, absorption into the systemic circulation, and chemical stability and finally bound the activity of curcumin as an anticancer agent. The pharmacology of curcumin, as well as its derivatives with relation to its anticancer potential, primary modes of action, & cellular target, has been summarised in this article along with a list of the numerous curcumin enclosing nanoformulations. Multiple methods of administration have been developed for curcumin to boost its specificity. Encapsulation and other formulation processing techniques have been found to enhance both the solubility and bioavailability of curcumin. The nanoparticles' size, shape, surface characteristics, and targeting ligand are all factors that nanoformulation designers must think about when working to increase the efficacy and cellular targeting of anticancer treatments.