Synergism on antioxidant activity between natural compounds optimized by response surface methodology

Despite the increase in the use of natural compounds in place of synthetic derivatives as antioxidants in food products, the extent of this substitution is limited by cost constraints. Thus, the objective of this study was to explore the synergism on the antioxidant activity of natural compounds, for further application in food products. Three hydrosoluble compounds (x₁ = caffeic acid, x₂ = carnosic acid, and x₃ = glutathione) and three liposoluble compounds (x₁ = quercetin, x₂ = rutin, and x₃ = genistein) were mixed according to a “centroid simplex design”. The antioxidant activity of the mixtures was analyzed by the ferric reducing antioxidant power (FRAP) and oxygen radical absorbance capacity (ORAC) methodologies, and activity was also evaluated in an oxidized mixed micelle prepared with linoleic acid (LAOX). Cubic polynomial models with predictive capacity were obtained when the mixtures were submitted to the LAOX methodology (ŷ = 0.56 x₁ + 0.59 x₂ + 0.04 x₃ + 0.41 x₁x₂ – 0.41 x₁x₃ – 1.12 x₂x₃ – 4.01 x₁x₂x₃) for the hydrosoluble compounds, and to FRAP methodology (ŷ = 3.26 x₁ + 2.39 x₂ + 0.04 x₃ + 1.51 x₁x₂ + 1.03 x₁x₃ + 0.29 x₂x₃ + 3.20 x₁x₂x₃) for the liposoluble compounds. Optimization of the models suggested that a mixture containing 47% caffeic acid + 53% carnosic acid and a mixture containing 67% quercetin + 33% rutin were potential synergistic combinations for further evaluation using a food matrix.