In situ extraction/encapsulation of olive leaves antioxidants in zein for improved oxidative stability of edible oils.

Amarilis Santos de Carvalho, Anielle de Oliveira, Thaysa Fernandes Moya Moreira, Luis Gustavo Médice Arabel Costa, Gabrielle Donato Marcatto, Andre da Silva Castilhos de Melo, Odinei Hess Gonçalves, Maria Inês Dias, Ricardo C Calhelha, Lillian Barros, Patricia Valderrama, Lucio Cardozo Filho, Fernanda Vitória Leimann
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Abstract

This study presents a sustainable and cost-effective method for preserving the bioactivity of phenolic compounds in olive leaves (OLE) during their application. The extraction and nanoencapsulation of OLE were performed in a single-step process using a rotor-stator system with zein as the encapsulating agent. The nanoprecipitation step was carried out using an aqueous sodium caseinate solution, resulting in spherical particles with an average diameter of about 640 nm, as confirmed by Transmission Electron Microscopy. Thermal characterization showed that the produced nanoparticles were more thermally stable than free OLE until 250 °C, and FTIR spectra indicated effective interaction between the phenolic compounds and zein. Antioxidant activity was evaluated using TBARS, DPPH, ABTS, and FRAP assays, with results showing that encapsulated OLE had lower antioxidant activity than free OLE. The best antioxidant capacity results were determined by TBARS assay, with IC50 results equal to 43 and 103 µgOLE/mL for free and encapsulated OLE, respectively. No anti-inflammatory potential was detected for both samples using the RAW 264.7 model, and only free OLE showed cytotoxic activity against lung cancer and gastric carcinoma. Encapsulated and free OLE were used as antioxidants in soy, palm, and palm kernel oils and compared to BHT using Rancimat. The Schaal Oven Test was also performed, and the PARAFAC chemometric method analyzed the UV-Vis spectra, which revealed high stability of the oil when 300 mg or the nanoparticles were added per kg oil. Results suggested that zein-encapsulated olive leaf antioxidants can improve the oxidative stability of edible oils.

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在玉米醇溶蛋白中原位提取/封装橄榄叶抗氧化剂,以提高食用油的氧化稳定性。
本研究提出了一种可持续且具有成本效益的方法,用于在应用过程中保持橄榄叶中酚类化合物的生物活性。OLE的提取和纳米封装是使用以玉米醇溶蛋白为密封剂的转子-定子系统在一步工艺中进行的。使用酪蛋白酸钠水溶液进行纳米沉淀步骤,得到平均直径约640nm的球形颗粒,如透射电子显微镜所证实的。热表征表明,在250°C之前,所制备的纳米颗粒比游离OLE更热稳定,FTIR光谱表明酚类化合物和玉米醇溶蛋白之间存在有效的相互作用。使用TBARS、DPPH、ABTS和FRAP测定法评估抗氧化活性,结果显示包封的OLE比游离的OLE具有更低的抗氧化活性。通过TBARS测定确定了最佳抗氧化能力结果,游离和包封OLE的IC50结果分别为43和103µgOLE/mL。使用RAW 264.7模型,两种样品均未检测到抗炎潜力,只有游离OLE显示出对肺癌和胃癌的细胞毒性活性。在大豆、棕榈油和棕榈仁油中使用包封的和游离的OLE作为抗氧化剂,并使用Rancimat与BHT进行比较。还进行了沙尔烘箱试验,PARAFAC化学计量法分析了UV-Vis光谱,结果表明,当每公斤油添加300mg或纳米颗粒时,油具有高稳定性。结果表明,玉米醇溶蛋白包埋的橄榄叶抗氧化剂可以提高食用油的氧化稳定性。
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