Phenolic compounds and fatty acids content of some West Algerian olive oils

Olive represents the most widespread fruit cultivated in Algeria. Olive oil is the primary source of added fat in the Mediterranean diet with health benefits of which have been verified for millennia. Interest in phenolic compounds in olive oil has increased due to its antioxidant activity, which plays a very important role in human health. The present study is carried out to study the phenolic compounds and fatty acids profile of some olive oils from western Algeria. The quality parameters (acidity, peroxide value, K232, K270), tocopherol analysis, fatty acid composition and phenolic profile were determined by High performance chromatography (HPLC). The results showed that chemlal oil (SBA) recorded the highest level of tocopherol-α with 228.12 mg/Kg. Regarding the fatty acid composition, oleic acid was the most dominant, oil Oleaster (Bensekrane) records the highest percentage (72.80%) of oleic acid. The quantitative data on the phenolic content of the seven samples revealed that chemlal oil (SBA) had the highest level of polyphenols (328.99 mg/Kg). However, Sigoise oil (Sebra1) was characterized by the highest levels of tyrosol and hydroxytyrosol (15.89 mg/kg and 22.42 mg/kg, respectively). The highest concentrations of oleuropein derivatives and ligstroside derivatives were observed in chemlal oil (SBA) and the recoreded values were 105.97 mg/Kg and 83.49 mg/Kg, respectively. Chemlal oil (SBA) was characterized by the highest amount of lignans (35.93 mg/Kg), luteolin (10.16 mg/Kg) and apigenin (5.44 mg/Kg). Oleocanthal was found in all the tested samples and it was higher in Chemlal oil (102.43 mg/kg).Olive represents the most widespread fruit cultivated in Algeria. Olive oil is the primary source of added fat in the Mediterranean diet with health benefits of which have been verified for millennia. Interest in phenolic compounds in olive oil has increased due to its antioxidant activity, which plays a very important role in human health. The present study is carried out to study the phenolic compounds and fatty acids profile of some olive oils from western Algeria. The quality parameters (acidity, peroxide value, K232, K270), tocopherol analysis, fatty acid composition and phenolic profile were determined by High performance chromatography (HPLC). The results showed that chemlal oil (SBA) recorded the highest level of tocopherol-α with 228.12 mg/Kg. Regarding the fatty acid composition, oleic acid was the most dominant, oil Oleaster (Bensekrane) records the highest percentage (72.80%) of oleic acid. The quantitative data on the phenolic content of the seven samples revealed that chemlal oil (SBA) had the highest level of polyphenols (328.99 mg/Kg). However, Sigoise oil (Sebra1) was characterized by the highest levels of tyrosol and hydroxytyrosol (15.89 mg/kg and 22.42 mg/kg, respectively). The highest concentrations of oleuropein derivatives and ligstroside derivatives were observed in chemlal oil (SBA) and the recoreded values were 105.97 mg/Kg and 83.49 mg/Kg, respectively. Chemlal oil (SBA) was characterized by the highest amount of lignans (35.93 mg/Kg), luteolin (10.16 mg/Kg) and apigenin (5.44 mg/Kg). Oleocanthal was found in all the tested samples and it was higher in Chemlal oil (102.43 mg/kg)

Guaraná - Paullinia cupana, (H.B.K): Estudo da oxidação das formas em pó e em bastões defumados

The guaraná, Paullinia cupana, HBK – is the fruit of the guarana plant, and is native to the Amazon region. It grown in particular in the communities of Maués. Currently production is spread throughout the states of Bahia, Pará, and Mato Grosso. The ripe fruits are collected and placed in containers where water is added to facilitate the separation of the pulp that covers the seeds. After this treatment they are placed in the sun for drying. Then after they are transferred into a frying pan of metal or brick kilns heated with firewood to complete the hassle/roasting. Guaraná is marketed in the form of seeds, powder and smoked sticks. In folk medicine it is used in powder for the following properties: a dietary food, stimulating organic, for the presence of caffeine, analgesic, antipyretic, anti-fermentation, diuretic, antioxidant, and vascular tonic and considered the elixir of life. In the food industry, it is used in the preparation of extracts, syrups, and soft drinks. Lately the consumption of guaraná has had a significant increase in both Brazil and abroad. The evaluation of the oxidation of foods that contain oils and fats is a parameter needed in quality and stability evaluation in order to ensure food safety. The chemical structure of guaraná is mostly unsaturated therefore susceptible to oxidation. Considering the lack of data in the literature refering to secondary oxidation of foodstuffs, the objective of this work was to evaluate the total content of fatty acids oxidized in the form of guaraná powder and stick. The determination was performed by HPLC-UV. The results of the analysis of oxidation of the powder samples and sticks are different depending on the time of collection, preparation mode and preservation system. We propose new research with ripe fruits selected and processed in place to make it possible to decrease the oxidative status.O guaraná - Paullinia cupana, HBK - fruto do guaranazeiro - é uma planta nativa da região Amazônica. No Amazonas é cultivado, principalmente, em Maués. Atualmente, a produção se estende pelos Estados da Bahia, Pará e Mato Grosso. Os frutos maduros são colhidos e reunidos em recipientes onde é adicionado água para facilitar a separação da polpa que revestem as sementes/ramas. Após esse tratamento, são levadas ao sol para pré-secagem. A seguir são transferidas para tachos de metal ou em fornos de barro aquecidos com fogo a lenha, para completar a secagem/torrefação. É comercializado nas formas de pó, sementes e bastões defumados. Na medicina popular é utilizado em pó, com os seguintes atributos: dietético alimentar, estimulante orgânico devido a presença de cafeína, analgésico, antipirético, antifermentativo, diurético, antioxidante, tônico vascular (antiateromas) e considerado elixir de longa vida. Na indústria de alimentos, é empregado nas preparações de extratos, xaropes e bebidas refrigerantes. Ultimamente, o consumo de guaraná teve um importante aumento, tanto no Brasil quanto no exterior. O processo de oxidação em alimentos contendo óleos e gorduras é um parâmetro indispensável na qualidade e estabilidade do produto a fim de garantir a segurança alimentar. A estrutura química do guaraná é predominantemente insaturada, portanto, suscetível à oxidação. Considerando a escassez de dados na literatura a respeito da oxidação secundária de gêneros alimentícios, o objetivo deste trabalho foi avaliar o teor de ácidos graxos oxidados totais de guaraná em pó e em bastão defumado de procedências, safras, modo de preparação e sistema de conservação diferentes. A determinação foi feita por meio de Cromatografia Líquida de Alta Eficiência (CLAE-UV). Os resultados das análises de oxidação das amostras em pó e em bastão, divergem entre si, em decorrência da safra, modo de preparação e sistema de conservação. Propomos novas investigações com frutos maduros selecionados e processamentos adequados para possibilitar a diminuição do estado oxidativo

Antioxidant and Anti-Inflammatory Effect of Cinnamon (Cinnamomum verum J. Presl) Bark Extract after In Vitro Digestion Simulation

Cinnamon bark is widely used for its organoleptic features in the food context and growing evidence supports its beneficial effect on human health. The market offers an increasingly wide range of food products and supplements enriched with cinnamon extracts which are eliciting beneficial and health-promoting properties. Specifically, the extract of Cinnamomum spp. is rich in antioxidant, anti-inflammatory and anticancer biomolecules. These include widely reported cinnamic acid and some phenolic compounds, such asproanthocyanidins A and B, and kaempferol. These molecules are sensitive to physical-chemical properties (such as pH and temperature) and biological agents that act during gastric digestion, which could impair molecules' bioactivity. Therefore, in this study, the cinnamon's antioxidant and anti-inflammatory bioactivity after simulated digestion was evaluated by analyzing the chemical profile of the pure extract and digested one, as well as the cellular effect in vitro models, such as Caco2 and intestinal barrier. The results showed that the digestive process reduces the total content of polyphenols, especially tannins, while preserving other bioactive compounds such as cinnamic acid. At the functional level, the digested extract maintains an antioxidant and anti-inflammatory effect at the cellular level

Oils rich in alpha linolenic acid: chemical composition of perilla (

In this paper, the main chemical properties of Perilla seed oil (PO) obtained by mechanical pressing of Perilla seeds are reported. The analysis of fatty acid composition has highlighted a very high amount of (n-3) α-linolenic acid (ALA), more than 60%, higher than other ALA rich oils such as linseed and sacha inchi oils and similar to chia oil. PO has an important sterol (higher than 3000 mg/kg) and vitamin E (approx. 870 mg/kg) content, while biophenols are in quite low concentration. The analyzed sample showed a very low acid and peroxide value and this is the demonstration that, following the proper technological procedures, it is possible to obtain high quality oils even in presence of high α-linolenic acid concentrations

Chemical characterisation and antioxidant activity of Spanish-style green olives of the Azerradj and Sigoise cultivars

9 Pa´ginas.-- 4 Tablas.-- 1 FiguraThe chemical composition and the antioxidant activity of two Algerian olive cultivars (Azerradj and Sigoise) elaborated as Spanish-style table olives were studied. The pH and the titratable acidity followed the same general pattern during the fermentation process for both cultivars but Sigoise reached higher titratable acidity and lower pH values. Both varieties exhibited a high total phenolic content of 5382.7and 6754.3mgGAE/100g and a total flavonoid of 424.6 and 568.5mgRE/100g for the raw fruit of Azerradj and Sigoise, respectively, but decreased a 55.2 - 66.26% after 120 days of fermentation. The alpha-tocopherol decreased along the elaboration process while the beta and gamma-tocopherols remained constant. The losses of polyphenols and tocopherols were well correlated with the dropping of DPPH antiradical and the ferrous chelating activity during the processing. The fatty acid content was less affected by the processing than the other components without significant changes. The results of this work revealed that Sigoise cultivar, the most used, showed better nutritional values and suitability to the Spanish-style processing than Azerradj variety. However, table olives from both varieties can still be considered as a functional food with high amounts of bioactive compounds involved in health benefits.The authors wish to thank the Algerian Ministry of Higher Education and Scientific Research for sponsoring this work. The authors are grateful to the staff of the KHODJA & CO Company, Seddouk (Bejaia, Algeria), for providing the samples.Peer reviewe

Ultrasound-Assisted Extraction of Cannabinoids from Cannabis Sativa for Medicinal Purpose

Over the past 20 years, the interest in Cannabis oily extracts for medicinal use compounded in pharmacy has consistently grown, along with the need to have preparations of adequate quality. Hot maceration (M) is the most frequently used method to compound oily solutions. In this work, we systematically studied the possibility of using an ultrasonic homogenizer and a sonotrode (US) as an alternative extraction method. Oily solutions were prepared using two available varieties of Cannabis for medicinal use, called FM2 and Bedrocan. All preparations resulted with an equivalent content in CBD and THC, with the advantage of a faster process using US. In particular, 10 min sonication at the amplitude optimized for the sonotrode used (2 or 7 mm) provides not statistically different total Δ9-tetrahydrocannabinol (M-FM2: 0.26 ± 0.02 % w/w; US-FM2: 0.19 ± 0.004 % w/w; M-Bedrocan: 1.83 ± 0.17 % w/w; US-Bedrocan: 1.98 ± 0.01 % w/w) and total cannabidiol (M-FM2: 0.59 ± 0.04 % w/w; US-FM2: 0.58 ± 0.01 % w/w) amounts extracted in refined olive oil. It can therefore be confirmed that sonotrode is an efficient and fast extraction technique and its use is without negative consequence on the solvent properties. Despite DSC evidencing that both maceration and sonication modify the Tonset and enthalpy of the event at about −10 °C, the qualitative characteristics of the oil remained constant for the two treatments and similar to the starting material

The Antioxidant Role of Hemp Phytocomplex in Cannabis Oil-Based Extracts

The therapeutic use of Cannabis oil extracts is constantly increasing. However, in Italy, they are allowed to be prepared with only a few methods and matrices. With this work, we aimed to assess how the different processes might affect the chemical composition of two different matrices (olive oils and medium chain triglycerides oils - MCT), accounting as variables for both the presence of Cannabis dried apices of the female flower and the adding of tocopherol acetate as an antioxidant. The macerated oils were prepared with four of the methods allowed according to the Italian legislation (Romano-Hazekamp, Cannazza-Citti, SIFAP and Calvi) and analyzed for normal and oxidized tocopherols, oxidized and conjugated fatty acids and volatile carbonyl compounds (VCCs), all using liquid chromatography coupled to UV or PDA detectors. According to our results, neither normal nor oxidized tocopherols are affected by the addition of antioxidants or Cannabis, while the oxidation state (according to the levels of oxidized and conjugated fatty acids) is often altered in either case. The VCCs concentrations, on the other hand, are never notably altered. These results suggest a worthless use of antioxidants in Cannabis macerated oils preparations, while the dried apices of female flowers might have a protective role in maintaining the oil oxidation state

Characterization of monovarietal extra virgin olive oils from the province of Béjaïa (Algeria)

Olive fruits from 19 varieties and different areas of Béjaïa province (Algeria) were used to produce monovarietal olive oils in laboratory. The olive oils were analyzed using both traditional chemical analyses and nuclear magnetic resonance (NMR) methodology. The investigation involved pigment content determination, tocopherol analysis, fatty acid composition, and chromatographic determination of phenolic compounds. Chlorophyll, carotenoids, tocopherols and the content of oleic acid turned out to be variety dependent. The extra-virgin olive oils (EVOOs) were analyzed as a whole and as phenolic extract by NMR. The study gave general indication on olive oil quality and information about geographical origin of the samples. Overall, the results obtained in the present work reveal that Algerian monovarietal olive oils produced in Béjaïa province have the potential to produce blends that may compete with other Mediterranean products