Abstract
Borage (Borago officinalis L.) is a typical Spanish plant. During processing, 60% are leaves. The aim of this work is to model and optimize the extraction of polyphenol from borage leaves using the response surface method (RSM) and to use this extract for application in emulsions. The responses were: total polyphenol content (TPC), antioxidant capacity by ORAC, and rosmarinic acid by HPLC. The ranges of the variables temperature, ethanol content and time were 50–90 °C, 0%–30%–60% ethanol (v/v), and 10–15 min. For ethanolic extraction, optimal conditions were at 75.9 °C, 52% ethanol and 14.8 min, yielding activity of 27.05 mg GAE/g DW TPC; 115.96 mg TE/g DW in ORAC and 11.02 mg/L rosmarinic acid. For water extraction, optimal activity was achieved with extraction at 98.3 °C and 22 min, with responses of 22.3 mg GAE/g DW TPC; 81.6 mg TE/g DW in ORAC and 3.9 mg/L rosmarinic acid. The significant variables were ethanol concentration and temperature. For emulsions, the peroxide value was inhibited by 60% for 3% extract concentration; and 80% with 3% extract concentration and 0.2% of BSA. The p-anisidine value between the control and the emulsion with 3% extract was reduced to 73.6% and with BSA 86.3%, and others concentrations had similar behavior.
Highlights
The properties of polyphenols as antioxidants have been widely recognized
We modeled and optimized the extraction of polyphenols from borage leaves based on the total polyphenols, antiradical activity (ORAC), and the amount of rosmarinic acid
The extraction of polyphenols should be linked with solvent polarity and the extraction temperature [32], and for ethanolic extraction the optimal yield of polyphenols was occurred with the process conditions 70 °C, 45% of ethanol, and min; while, for aqueous extraction the optimal polyphenol yield was obtained with conditions at
Summary
The properties of polyphenols as antioxidants have been widely recognized. They are associated with reduced risk of cancer, cardiovascular diseases, diabetes and Alzheimer’s disease [1]. Antioxidants from natural sources could be used to increase the stability of food, such as the ability to prevent lipid peroxidation [3]. This damage could be catalyzed by different metals present in food (especially in meat), because the metals can participate directly or indirectly in the reaction of oxidation of lipids [4]. These metals promote the creation of reactive oxygen species (ROS) prejudicial to health [5]
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