| dc.description.abstract | Psidium guajava (Guava:G) is an antioxidant rich, one of common fruits growing in Sri
Lanka. However due to certain properties of phytochemicals, the in-vivo activity of natural
antioxidants is less than expected. Therefore, the present study was aimed to initiate
the development of novel nanoformulations of unripe guava fruit extract with the purpose
of enhancing the antioxidant capacity. Nanosuspensions (NS) of the fruit extract were
synthesized by nanoprecipitation method using two polymers, polyvinylpyrrolidone (PVP
) and sodium alginate (SA) as stabilizers to increase the water solubility of phytochemicals.
Then the antioxidant capacity of the crude extract and the nanosuspensions were
assessed by DPPH scavenging assay, Ferric Reducing Antioxidants Potential determination
(FRAP) and Nitric Oxide (NO) scavenging assays. The morphology and particle size of
nanoparticles in guava PVP nanosuspension (G-PVP-NS) and guava SA nanosuspension
(G-SA-NS) were obtained by scanning electron microscope (SEM). The G-PVP-NS (77.59
0.009%) and G-SA-NS (84.30 0.038%) exhibited a signi cant (p < 0.05) enhancement
of DPPH scavenging activity at the lowest concentration (0.0781 mg/mL) compared to
the crude extract (58. 76 0.005%). The results of the FRAP assay, also indicated
a signi cantly (p < 0.05) increased antioxidant power in both nanosuspensions (G-PVPNS:
1598.50 0.071AAE/100 g, G-SA-NS:(550. 85 0.242AAE/100 g) at 0.0781 mg/mL
compared to the crude extract (334.60 0.033AAE/100 g). The results observed in
NO scavenging assay revealed that the G-PVP-NS exhibited maximum activity (6.82
0.036%) at the 0.0781 mg/ml, while the G-SA-NS showed the highest activity (24.93
0.068%) at the 0.625 mg/ml. The SEM images con rmed the formation of nanoparticles.
The results of the present study revealed that the antioxidant capacity of guava fruit
extract is signi cantly enhanced by nano-sizing. | en_US |
