Innovative Extraction Technologies for Development of Functional Ingredients Based on Polyphenols from Olive Leaves

Clodoveo, Maria Lisa; Crupi, Pasquale; Annunziato, Alessandro; Corbo, Filomena

doi:10.3390/foods11010103

Cited by 38 publications

(29 citation statements)

References 131 publications

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“…The main by-products are leaves, the amount of which depends on different factors, such as olive tree cultivar, environmental conditions, tree age, pruning practices, etc. [ 1 , 2 , 3 , 4 ], often leading to serious economic and environmental problems for producers. However, olive leaves could be converted into value-added products, rich in different phytochemicals and/or converted biofuels using chemical/biochemical methods [ 3 ].…”

Section: Introductionmentioning

confidence: 99%

Antioxidant and Antimicrobial Activity of Hydroethanolic Leaf Extracts from Six Mediterranean Olive Cultivars

et al. 2022

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Phenolic profiles, antioxidant, and antimicrobial activities of hydroethanolic olive leaf extracts from six Mediterranean olive cultivars (Croatian: Lastovka, Levantinka, Oblica; Italian: Moraiolo, Frantoio, Nostrana di Brisighella) were investigated. As expected, various distributions of phenolic levels were observed for each cultivar and the total phenolic content showed high variability (ranging from 4 to 22 mg GAE/g of dry extract), with the highest amount of phenolics found in the Oblica sample, which also provided the highest antiradical (ORAC) and reducing activity (FRAP). The screening of individual compounds was performed by HPLC-PDA-ESI-QTOF-MS and the main detected compounds were oleuropein, hydroxytyrosol, oleoside/secologanoside, verbascoside, rutin, luteolin glucoside, hydroxyoleuropein, and ligstroside. While the antioxidant activity of the samples was relatively high, they showed no bactericidal and bacteriostatic activity against E. coli and S. Typhimurium; weak activity against Staphylococcus aureus, Bacillus cereus, and Listeria innocua; and inhibitory effects against Campylobacter jejuni at 0.5 mg dry extract/mL. The obtained results support the fact that olive leaf extracts, and especially those from the Oblica cultivar, could potentially be applied in various industries as natural preservatives and effective and inexpensive sources of valuable antioxidants.

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Section: Introductionmentioning

confidence: 99%

Antioxidant and Antimicrobial Activity of Hydroethanolic Leaf Extracts from Six Mediterranean Olive Cultivars

et al. 2022

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“…However, its composition includes the significant presence of carbohydrates, proteins, fatty acids, minerals, vitamins, pigments and bioactive compounds, especially the phenolic compounds (Lechhab, Lechhab, Cacciola, & Salmoun, 2022;Medeiros, Villa, Silva, & Júlio, 2016;Rodrigues et al, 2015). Most of the phenolic compounds (~98 %) are composed of secoiridoids (glycosylated oleuropein), phenolic alcohols (tyrosol and hydroxytyrosol), hydroxycinnamic acid (verbascoside) and flavonoids (quercetin as flavonols; luteolin-7-O-glucoside, apigenin-7-O-glucoside and diosmetin-7-O-glucoside as flavones) (Ballus et al, 2015;Clodoveo, Crupi, Annunziato, & Corbo, 2021;Expósito-Díaz et al, 2022; (Figure 1) and remain in the bagasse, which can be a natural and low-cost source for use in the food industry as bioactive ingredients (Nunes et al, 2019). The technological application of olive residue requires that the pomace be dehydrated before use to a moisture content of less than 15 % on a dry basis, to avoid product deterioration by bacteria and fungi (mainly molds).…”

Section: Introductionmentioning

confidence: 99%

Development of muffin with the incorporation of olive pomace flour, extra virgin olive oil and hydrolyzed soy protein

Souza

Cordeiro

Silva

et al. 2022

RSD

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Olive pomace flour, extra virgin olive oil and hydrolyzed soy protein are ingredients rich in compounds with beneficial health properties, such as phenolic compounds, dietary fiber, amino acids and fatty acids. In this sense, the present study aimed to evaluate the influence of partial replacement of wheat flour, hydrogenated vegetable fat and sucrose by olive pomace flour, extra virgin olive oil and hydrolyzed soy protein, respectively, in muffin-type cakes. The determination of the ideal formulation with the alternative ingredients was carried out through the Response Surface Methodology, exploring a Simplex-Centroid Mixture Design using physicochemical parameters as dependent variables. The optimum point was obtained using 38.00 % olive pomace flour, 3.75 % extra virgin olive oil, and 4.05 % hydrolyzed soy protein. In general, it was observed that the alternative ingredients had positive effects on the texture profile of the muffins and provided products with darker shades, characteristics of the ingredients used. Nutritionally, an increase in total dietary fiber, ash and lipid content was observed. In contrast, the starch content decreased, but the total caloric value was similar between the standard sample and the optimum. Therefore, the partial replacement of ingredients demonstrated feasibility and potential for bakery goods.

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“…The extraction processes developed to extract polyphenolic compounds from plant material rely on solid-liquid techniques, deployed according to the nature of the compounds to-be-extracted, the cost, properties, and toxicity of suitable solvents, but also the unit operations required, the purity of the product, etc. In the framework of Green Chemistry, the use of alternative solvents (i.e., deep eutectic solvents-DES) and technologies (i.e., ultrasound irradiation, microwave heating) are gaining acceptance for establishing benign protocols for solid-liquid extraction, and on such a basis a high number of extraction procedures have been proposed for polyphenol recovery from olive leaves [12]. One of the major objectives for applying techniques such as ultrasonication, is the disruption of plant cell walls, in order to facilitate release of intracellular metabolites and their entrainment into the liquid phase [13].…”

Section: Introductionmentioning

confidence: 99%

Organosolv Treatment/Polyphenol Extraction from Olive Leaves (Olea europaea L.) Using Glycerol and Glycerol-Based Deep Eutectic Solvents: Effect on Metabolite Stability

Houasni

Grigorakis

Kellil

et al. 2022

Biomass

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Olive leaves (OLL) are an agri-food waste that may be regarded as a bioresource rich in bioactive polyphenolic metabolites. In this examination, simultaneous organosolv treatment/extraction of OLL polyphenols at elevated temperatures (>110 °C) has been optimized using glycerol, but also two glycerol-based deep eutectic solvents (DES). The assessment of the processes was based on the severity factor and the extraction efficiency factor. In any case, the treatment/extraction with a DES composed of glycerol and citric acid (GL-CA) was found to be the less severe and the most effective in recovering polyphenols from OLL, giving a yield of 69.35 mg gallic acid equivalents per g dry mass. On the other hand, liquid chromatography-mass spectrometry investigation revealed that extraction with either DES used provided extracts with differentiated polyphenolic profile than that obtained when water or 60% (v/v) aqueous ethanol was used as solvents. On the ground of these analysis, evidence emerged regarding hydrolysis of flavone glucosides when the treatment was performed with an alkaline DES composed of glycerol and sodium citrate. The extracts produced also exhibited diversified antioxidant activity, a fact putatively attributed to the different polyphenolic profiles. It was concluded that organosolv treatment/extraction of OLL for polyphenol recovery opens new endeavors in the valorization of this particular waste, but metabolite stability is an issue that merits profounder study.

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Innovative Extraction Technologies for Development of Functional Ingredients Based on Polyphenols from Olive Leaves

Cited by 38 publications

References 131 publications

Antioxidant and Antimicrobial Activity of Hydroethanolic Leaf Extracts from Six Mediterranean Olive Cultivars

Antioxidant and Antimicrobial Activity of Hydroethanolic Leaf Extracts from Six Mediterranean Olive Cultivars

Development of muffin with the incorporation of olive pomace flour, extra virgin olive oil and hydrolyzed soy protein

Organosolv Treatment/Polyphenol Extraction from Olive Leaves (Olea europaea L.) Using Glycerol and Glycerol-Based Deep Eutectic Solvents: Effect on Metabolite Stability

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