[9] Dudonné S., Vitrac X., Coutiere P., Woillez M., Mérillon J-M.,
Comparative Study of Antioxidant Properties and Total Phenolic Content of 30 Plant Extracts of Industrial Interest using DPPH, ABTS, FRAP, SOD, and ORAC Assays,
J. Agricul. Food Chem.,
57: 1768-1774 (2009).
[12] Gürbüz O., Göçmen D., Dagdelen F., Gürsoy M., Aydin S., Şahin İ., Büyükuysal L.,
Usta M., Determination of Flavan-3-Ols and Trans-Resveratrol in Grapes and Wine Using HPLC with Fluorescence Detection,
Food Chem.,
100: 518-525 (2007).
[13] Castilla P., Echarri R., Dávalos A., Cerrato F., Ortega H., Teruel J.L., Lucas M.F., Gómez-Coronado D., Ortuño J, Lasunciónm M.A.,
Concentrated Red Grape Juice Exerts Antioxidant, Hypolipidemic, and Antiinflammatory Effects in Both Hemodialysis Patients and Healthy Subjects,
Am. J. Clin. Nutr., 84: 252-262 (2006).
[22] Hosseini S.M.H., Gahruie H.H., Razmjooie M., Sepeidnameh M., Rastehmanfard M., Tatar M., Naghibalhossaini F., Van der Meeren P.,
Effects of Novel and Conventional Thermal Treatments on the Physicochemical Properties of Iron-Loaded Double Emulsions,
Food Chem.,
270: 70-77 (2019).
[35] Niakousari M., Damueh M., Gahruie H.H., Bekhit A., Greiner R., Roohiejad S. “
Conventional Emulsions”. Roohinejad S. et al. Emulsion‐Based Systems for Delivery of Food Active Compounds: Formation, Application, Health and Safety, 1st Edition, Croydon, Wiley, 1-27 (2018).