The current study aimed to assess broccoli's phytochemical profile and determine its antioxidant activity. Fresh broccoli was procured from a local farm and divided into two major treatment groups (cooked and dried). There were five sub-treatments in the cooking group (conventional, microwave, boiling, blanching, and steaming) and three treatments in the drying group (sun drying, freeze drying, and hot air drying). Ascorbic acid content, total carotenoids, TPC, TFC, and antioxidant activity were evaluated for every sub-treatment. The results depicted that the antioxidant constituent of cooked broccoli was complementary to dried broccoli samples. The maximum amount of ascorbic acid content (10.80 mg/100 g), total carotenoids (3.976 mg/g), total phenolic contents (225.80 mg/g), and the total flavonoid contents (42.92 mg/g) were found in freeze-dried broccoli. Freeze-dried broccoli also showed the highest antioxidant activity for DPPH free radical scavenging assay (62.45%), hydrogen peroxide radical scavenging assay (53.67%), and ABTS radical scavenging assay (65.84%).
Nanoemulsions are nanoscale self-assembled entities which are manufactured for improving the delivery of active pharmaceutical ingredients. Nanoemulsion technology is one of the best ways to encapsulate the functional components as it enhances the stability and bioavailability of the compound. In the present study, nanoemulsions were prepared by ultrasonic homogenization of dispersed phase (10-22%) and surfactants (3-9%) with vitamin A (0.25-2.5%). Nanoemulsions were characterized through various optical techniques and stability was assessed using thermal shock and freeze-thaw cycle. The results revealed that nanoemulsions with high percentage of surfactants were more stable and retained smaller particle size as compared to nanoemulsions with low surfactants percentage and high dispersed phase, contributed to phase separation and colour change. These emulsions can be further tested for any toxic/allergic effect on the biological model and may be incorporated into food products.
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