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    Investigation of the effects of some wall materials and encapsulation techniques on the microencapsulation of olive leaf extract
    (Akademiai Kiado Zrt, 2023) Kahraman, S.; Demircan, H.; Sarioglu, K.; Demircan, S.; Oral, R. A.
    In this study, it is aimed to encapsulate some functional components of the olive leaves. Olive leaf extract was encapsulated using solution of sodium alginate, sodium alginate/gelatine, and sodium alginate/agar as wall material by ionic gelation technique. Also, olive leaf extract was encapsulated using solution of gelatine as wall material by cold gelation technique. The viscosities of the coating materials used in the study were investigated. An optimisation process was carried out to determine the injection time to be applied in the ionic gelation technique and the encapsulation efficiencies, particle sizes, swelling ratios, in vitro release profiles, and antioxidant activities of the obtained capsules were determined. While the encapsulation efficiency of the capsules obtained by the cold gelation technique was determined as the highest (98.2 +/- 0.99%), it was revealed that the viscosity of the wall material used in the ionic gelation technique was important in the encapsulation efficiency. The particle size and swelling rate of the capsules obtained using the cold gelation technique were the highest. The release rate of oleuropein was generally higher at gastric pH than at intestinal pH. A correlation was found between antioxidant activities and the encapsulation efficiency of capsules.
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    INVESTIGATION ON PHYTOCHEMICAL, ANTIOXIDANT, AND ANTIMICROBIAL PROPERTIES, DRYING PROFILE AND EXTRACTION OPTIMIZATION OF DEER APPLE (MALUS TRILOBATA V ERIOLOBUS TRILOBATUS)
    (Plapiqui(Uns-Conicet), 2022) Demircan, H.; Sagdic, O.; Ozkan, K.; Kayacan, S.; Us, A. A.; Sarioglu, K.; Oral, R. A.
    In this study, drying kinetics, extraction optimization, total phenolic and flavonoid contents, antioxidant activities, and antimicrobial effects of deer apple (Malus trilobata v Eriolobus trilobatus) fruit species were determined. Representing 50% ethanol and 15.86 solvent-sample ratio; total phenolic and flavonoid content, antioxidant activity by DPPH and CUPRAC methods, and inhibition percent were found as 1000.9 mg gallic acid equivalent/kg fresh weight (FW), 469.5 mg catechin equivalent/kg FW, 967.7 mg Trolox equivalent/kg FW, 3.58 mg Trolox equivalent/g FW, 39.85%, respectively. It is shown that the deer apple fruit has antimicrobial activity against Escherichia coli O157:H7, Staphylococcus aureus, Bacillus cereus, and Aspergillus flavus that known as pathogenic or spoilage microorganisms. This study shows that deer apple fruit is a good source of phenolic and flavonoid and has antimicrobial activity. Also, it contributes information about some physicochemical and antimicrobial properties of deer apple fruit and aims to increase the awareness of this fruit species.