Reconnoitring the impact of different extraction techniques on ginger bioactive moieties extraction, antioxidant characterization and physicochemical properties for their therapeutic effect.

The core directive of current study was to compare the different extraction techniques for their extraction yield of ginger bioactive moieties. Purposely, ultrasonic assisted and supercritical fluid extraction techniques were adapted alongside conventional solvent extraction for comparison. The variables targeted for the extraction process in different modules were time (20, 30, 40 minutes), temperature (30, 40, 50oC), solvent to sample ratio (4:6, 6:4, 8:2), pressure (2000, 3000, 4000 psi) and amplitude (20, 30, 40%). All variables were found to be momentously (P>0.05) effecting the extraction rates. The antioxidant potential of bioactive moieties was evaluated through FRAP, DPPH and ABTS. The outcomes of the optimization process suggested that the total phenolic content and total flavonoids content extracted through 80% ethanol at 50oC for 40 minutes showed maximum antioxidant activity. However, ultrasound assisted extraction, by using 80% ethanol, at 50oC for 40 minutes and at ultrasonic amplitude of 40% exhibited best results. Moreover, supercritical fluid extraction at 50oC for 40 minutes at5000 psi pressure, showed maximum extraction potential. All the extracts gathered through conventional, ultrasound and supercritical techniques were further quantified through HPLC protocols. The statistical interpretation of the results from all the analytical findings revealed highest concentration of polyphenols in supercritical fluids extracts followed by ultrasound and conventional extracts. One best treatment on the basis of superior nutritional profile as depicted by HPLC quantification was selected for the formulation of ginger drink. Physicochemical analysis elucidated momentous upshot on color, pH and acidity with progressive storage period whereas TSS followed a non-significant trend. Moreover, storage interval and treatments significantly affected the antioxidant potential of drinks.