Toxicity and anti-diabetic effectiveness of polymeric nanoparticles containing natural compounds

Abstract

Objective: To develop the nanoparticle formulations, characterization and evaluation of safety and in vivo anti diabetic potential by using experimental animal model.
 Methods: Different nano formulations such as Cur-nanoparticles, Pip-nanoparticles as well as Cur-Pip dual drug loaded nanoparticles were developed by nano co-precipitation method. The developed formulations were subjected for FT-IR analysis to determine the drug-drug and drug-polymer interaction. The Differential Scanning Colorimetric (DSC) study was carried out to observe the glass transition. Surface topography of nano formulations were carried out by Scanning Electron Microscopy (SEM). X-ray diffraction study was carried out to determine the crystalline properties of different formulations. Particle size of the polymeric nanoparticles was evaluated by Zeta sizer of nanoseries. Toxicity of nanoformulation was evaluated as per OECD guideline-407. For evaluation of therapeutic effectiveness, in-vivo anti-diabetic potential of nano formulations, the Streptozotocin (STZ) induced diabetes model was considered.
 Results: The developed formulations were spherical in shape and smooth surfaced. There were no interaction between the drugs and polymers. The result of toxicity study revealed that, there were no changes in behavior, food intake; hematology as well as biochemical parameters were observed that indicates the developed formulation is completely safe. The anti-diabetic effect of different formulations was screened against Streptozotocin induced diabetes in experimental animals. All the formulations were proved as effective in restoring blood glucose level however, Cu+Pi NP (184.15) group showed highest anti diabetic activity in comparison to control group (207.93)
 Conclusions: From this study, it was observed that, Curcumin-Piperine dual drug loaded nanoparticles exhibit better anti diabetic potential in comparison to control and Curcumin-NP treated group.
 Keywords: Nanoparticles, Streptozotocin, anti-diabetes, toxicity, hematology, biochemical