Synthesis, Characterization and Evaluation of antioxidant properties of Catechin Hydrate nanoparticles

Ramneek Kaur, Rashi Rajput, Payal Nag, Rachana ., Manisha Singh

Abstract


Catechin hydrate (CH), is an important phyto compound, reported to have potential therapeutic activity for prevention and treatment of various central nervous system (CNS) disorders. However, its therapeutic action is limited by their low oral bioavailability, poor stability and intestinal absorption, therefore, development of a targeted nanoparticle based carrier system which can overcome its physicochemical limitations and can enhance its biological activity is required. The objective of the present study was to formulate nanoparticle based formulation by ionic gelation method for catechin hydrate. Result and conclusion: After optimising the formulation by statistical tool, further, characterization results showed zeta average particle size of 68.76 ± 1.72 nm along with polydispersibility index of 0.174 ± 0.81 and zeta potential of -5.32 mV. Moreover, TEM analysis also confirmed its nanometric size range (range of 61. 8- 128nm) and FT – IR scan showed no bond formation between polymers and loaded extract (CH). The in vitro compound release kinetics  showed a typical linear diffusion profile  and cytotoxicity analysis done on NB41A3 cell lines  results exhibited the cell viability of 89.5 ± 0.25% in catechin loaded nanoparticles (CH NP’s) whereas, it is 82.7 ± 0.34% in CH  indicating negligible toxicity in nanoparticle based formulation. The stability testing was done for CH NP’s after 8 weeks, and results revealed minimal degradation of catechin. Lastly, the antioxidant activities estimated through DPPH (2, 2 – Diphenyl-1-picrylhydrazyl-hydrate),  Nitric oxide (NO) and Hydrogen peroxide (H2O2) scavenging assays revealed that CH NP’s have higher and prolonged antioxidant activity in comparison with CH. 


Keywords


Ionic gelation; encapsulation efficiency; statistical modelling; release kinetics; antioxidant activity.

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Copyright (c) 2017 Ramneek Kaur, Rashi Rajput, Payal Nag, Rachana ., Manisha Singh

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