Capsaicinoids, antioxidant activity, and volatile compounds in olive oil flavored with dried chili pepper (Capsicum annuum) (original) (raw)
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Spices and herbs are traditionally added to olive oil in Mediterranean gastronomy to enhance its aroma and taste. This paper aims to characterize olive oil aromatized by addition of dried chili pepper (Capsicum annum) (DCP) at different concentrations (10% and 20% by weight) up to 30 days of infusion. Capsaicinoids quantification by HPLC-DAD, volatile compounds analysis by SPME-GC-MS and antioxidant activity by ABTS method were performed on chili pepper flavored olive oil (CPOO) in comparison to whole olive oil. At day 7 of infusion, the maximum capsaicinoids content was reached for both the concentrations used and no significant increase was observed for longer infusion times. The volatile headspace composition of CPOOs was influenced by the concentration of DCP added. The addition of DCP caused a significant increase in hexanal, related to oxidation processes. 2-Methylbutanal, 3-methylbutanal and 6-methyl-5-hepten-2-one were also detected in CPOO and derived from chili as degradation products of the drying process. DCP infusion significantly enriched olive oil with antioxidant compounds and also modified its volatile profile. Capsaicinoids and aroma compounds were rapidly released within the first week of chili infusion in CPOOs, thus suggesting reducing infusion time by optimizing DCP concentration in order to improve CPOO quality and shelf life.
Foods
Chili olive oil is a popular addition to various foods in many countries. In a detailed study, the content of phenols and capsaicinoids in chili olive oil was determined using chili flakes and whole chilies. A total of 99.8% of the phenols in chili olive oil were secoiridoids, with elenolic acid, oleuropein aglycones, and ligostride aglycones being the most abundant. Chili olive oil with chili flakes contained higher levels of capsaicinoids (+21.6%) compared to whole chili olive oil. Capsaicin and dihydrocapsaicin accounted for about 95% of all capsaicinoids in the chili olive oil. The extraction rate of dry “Cayenne” chili was 7.1% in whole chili olive oil and 9% in chili olive oil with flakes, confirming that chili flakes are better extracted in olive oil. With the determination of 29 individual phenols and five individual capsaicinoids, the study provided a detailed insight into the secondary metabolites of chili olive oil and confirmed that it is a health source.
Italian Journal of Food Science, 2021
This study aimed to evaluate the influence of Capsicum baccatum L. Aji Angelo and Bishop crown cultivars to the quality parameters of flavoured olive oils (FOOs) obtained by the addition of both fresh and dried pepper powders (1%) to Dolce di Rossano and Roggianella monovarietal extra virgin olive oils (EVOOs). First, pepper extracts were investigated for their total phenolic, flavonoid, carotenoid content as well as phenolic acids, fatty acid profile, and vitamin C and E content. In order to evaluate the impact of both fresh and dried peppers on the oxidative stability of FOOs, the Rancimat test was applied. 2,2-Azinobis(3-ethylbenzothiazoline-6-sulfonic) acid (ABTS), 2,2-diphenyl-1-picrylhydrazyl (DPPH), ?-carotene bleaching (B-CB) and ferric reducing antioxidant power (FRAP) assays were used to investigate the antioxidant potential. Bishop crown dried extracts showed the highest phenolic, carotenoid and vitamin content, whereas Aji Angelo had the highest amount of capsaicinoids. ...
Journal of Food Lipids, 2007
ABSTRACTA study is reported on the chemical and sensorial characteristics of extra virgin olive oil flavored with hot pepper, garlic, oregano and rosemary during 7 months of storage. The oils were prepared by addition of the spice oily extracts at three different levels of concentration to an extra virgin olive oil. The following parameters were monitored: acidity, peroxide value (PV), K232, K270, (E)-2-hexenal/hexanal ratio and sensorial characteristics. At the end of the storage, all samples showed PV and K232 values lower than the control, whereas similar values of acidity, K270 and (E)-2-hexenal/hexanal ratio were observed. These results demonstrated that the herb and spice extracts improved the stability of the extra virgin olive oil. Tasters were able to distinguish among the levels of addition, and at the end of the storage, they preferred the oils flavored with 20 g/L of rosemary, 40 g/L of hot pepper, 40 g/L of oregano and 30 g/L of garlic.A study is reported on the chemical and sensorial characteristics of extra virgin olive oil flavored with hot pepper, garlic, oregano and rosemary during 7 months of storage. The oils were prepared by addition of the spice oily extracts at three different levels of concentration to an extra virgin olive oil. The following parameters were monitored: acidity, peroxide value (PV), K232, K270, (E)-2-hexenal/hexanal ratio and sensorial characteristics. At the end of the storage, all samples showed PV and K232 values lower than the control, whereas similar values of acidity, K270 and (E)-2-hexenal/hexanal ratio were observed. These results demonstrated that the herb and spice extracts improved the stability of the extra virgin olive oil. Tasters were able to distinguish among the levels of addition, and at the end of the storage, they preferred the oils flavored with 20 g/L of rosemary, 40 g/L of hot pepper, 40 g/L of oregano and 30 g/L of garlic.PRACTICAL APPLICATIONSThis research is strongly oriented to the industrial application. The obtained results could be immediately applied to flavored olive oil production since the experimental plan includes the set-up of the process and the preference of consumers. Producers will acquire a novel product having a greater added value (due to the nutritional and antioxidant power of the spices) but without changes in the plants already present in the factories and, thus, without increases in costs.This research is strongly oriented to the industrial application. The obtained results could be immediately applied to flavored olive oil production since the experimental plan includes the set-up of the process and the preference of consumers. Producers will acquire a novel product having a greater added value (due to the nutritional and antioxidant power of the spices) but without changes in the plants already present in the factories and, thus, without increases in costs.
LWT - Food Science and Technology, 2015
In the present work different flavourings (garlic, hot chili peppers, laurel, oregano and pepper) commonly used in Mediterranean cuisine were added to olive oils from Cv. Cobrançosa. Flavouring influence in olive oils quality, fatty acids profile, tocopherols and tocotrienols composition, antiradical activity, total phenols content and oxidative stability were evaluated. Garlic addition induced an increase in free acidity values (from 0.6 to 0.8%), but the remaining quality indices weren't negatively affected. Fatty acids profile changed but values remained under the limits of extra-virgin olive oils. Olive oils were nutritionally enriched due to the increase in vitamin E, mainly in oils flavoured with hot chili pepper (198.6 mg/kg). Antioxidant properties were influenced as well. Total phenols content decreased in all flavoured olive oils (control with 345.7 mg CAE/kg; oregano 293.8 mg CAE/kg) but the capability to counteract oxidation was generally improved (control with 9.4 h and oregano with 10.4 h). The addition of flavouring influenced quality, composition and olive oils characteristics being possible to separate them according to the flavouring used by applying chemometrics.
The extraction of flavoring compounds from different plants and aromatic herbs has been using since ancient times in vegetable oils to enhance their aroma and taste, whereas the technology of production has changed over time. Our work aimed to evaluate alternative technologies for the production of aromatized olive oil such as ultrasound-and microwave-assisted extraction in comparison to traditional infusion or maceration of dried red hot chili pepper (10% w/v for 7 days). For the ultrasonic treatment, samples of olive oil were prepared by adding 10% and 20% dried chili pepper and subjected to ultrasound-extraction for 10 or 20 minutes. For microwave extraction, samples were added with 20% chili powder and treated for 10, 30 or 60 seconds. Capsaicinoids were quantified by HPLC-DAD directly in the flavored olive oil and antioxidant activity was evaluated by ABTS + method. Capsaicinoids analysis in aromatized olive oil treated 20 minutes by ultrasound resulted about 130 ppm (capsaicin and hydroxycapsaicin), when 10% chili powder was used, while it was 250 ppm when 20% chili was used. The content of capsaicinoids extracted by traditional infusion was always higher for both concentrations of chili powder studied. The concentration of capsaicinoids in samples treated by microwaves extraction seem to be dependent on the treatment time, resulting 130 and 230 ppm capsaicinoids for 10 and 60 seconds of treatment, respectively. In conclusion, the production of flavored olive oils by using technologies such as microwave and ultrasound-extraction could allow the production of high quality oils, with fast and cost-effectively methods.
Food oxidation presents one of the major deterioration in food industry. It minimizes food shelf-life, production of undesirable flavor or color. The introduction of synthetic antioxidant is a better solution to stop these reactions; although many studies demonstrated the negative effect of using these antioxidants. The use of natural antioxidants like food additives, actually present a successful strategy to satisfy consumer needs. Currently, consumers demand for healthy food is increasing , also rejecting foods with synthetic antioxidant due to diseases that can be caused by the consumption of these products. In this study, rosemary and laurel fresh leaves were added to virgin olive oil and stored in different modes. Physicochemical, sensory evaluation and oxidation stability were performed to determine the most likely natural aromatic plants that could be used to conserve olive oil. Experimental results showed that the aromatization of olive oils with rosemary or laurel stored in the dark led to increasing the value of total phenolic contents and preserving them against autoxidation. This increase led to show lower free acidity, peroxide and thiobarbituric acid reactive substances. The trained panel preferred olive oil aromatized by rosemary fresh leaves stored in the dark.
Quality Indices, Phenolic Compounds and Sensory Evaluation of Flavored Olive Oil
Journal of Oleo Science
had soaked dried vegetables and herbs in locally squeezed olive oil to keep them from degradation reactions. Flavored oils can also be obtained in many ways: as adding whole spices, ground spices, essential oils or oleoresin oils, or prepared and filtered oil/vinegar 15. In the Mediterranean there are some alternative practices for steeping, including adding flavoring ingredients directly into the mill as the olives are being pressed and getting the oil to get a flavored product right away, particularly with fresh lemons 1. Thus, flavored oil is obtained and consequently, it was used for pasta sauces, as a dip for bread, and salad dressing. Flavored oils had been used by all the peoples of the Mediterranean according to their traditional uses 7. So, the herbinfused olive oil was used on crunchy bread by Italians, while olive oil infused with black peppercorns, garlic, brandy and hot red peppers are used by Portuguese, and that infused with hot red peppers and herbs were used by Spanish. Recently, flavored olive oils have gained more attention. It prepared by soaking aromatic herbs in the oil so that the organoleptic properties and stability are modified. However, this process causes the extraction of undesirable Abstract: In this study, the effect of adding some aromatic plants (garlic, rosemary, thyme, and hot-red pepper) on the quality and organoleptic properties of flavored olive oil extracted from the olive fruits Maraqi variety are studied after adding aromatic plants at a concentration of 2%. Acidity, peroxide value, K232, K270, sensorial attributes, oxidative stability, and phenolic contents had been monitored. Also, phenolic compounds are identified in the flavored and unflavored olive oil samples. These results demonstrated that the aromatic plant had enhanced the flavored olive oil stability; the levels of addition of aromatic plants could be distinguished by the taster's sensory attributes of flavored olive oil. As the plan of the experiment includes process preparation and consumer preference, it is possible to apply the obtained results to the production of flavored olive oil. The producers will gain a new product with more added values due to the nutritional and antioxidant strength of the aromatic plants.
Studies on flavor profiles of virgin olive oil (VOO) are becoming more and more numerous. The VOO aromas are determined by a mixture of chemicals in olive oil, which influence its quality. Various studies around the world have shown that the volatile compounds in VOO depend on the climate, cultivation and process. The present work is a first approach to compare volatile profiles of VOO largely produced in eastern of Morocco after 6 months of storage at ambient temperature in darkness. Oxidative stability measured by Rancimat method at 101°C was also determined. VOO volatile profiles were examined using the solid-phase micro extraction fibre method (SPME) in conjunction with gas chromatography/mass spectrometer (GC/ MS). 84 volatile compounds were identified; they belong to various chemical classes, such as aldehydes, alcohols, esters, ketones, carboxylic acids and hydrocarbons. The main volatile compounds present in olive oil samples were compounds with 6 carbon atoms (C6) such as Hexanal, (E)-hex-2-enal, Z-3-Hexen-1-ol and 1-Hexanol. Ethanol and Z-3, 7-dimethyl-1, 3, 6-octatriene, methyl acetate and ethyl acetate were also found. In general, these compounds have been identified in all VOO analyzed samples. The chemical compositions of the analyzed virgin olive oil headspaces evidenced that the most representative compounds In Isly and Kenine were carboxylic acids accounted for 59.24%-49.7% respectively, whereas the volatile fraction of the oil from Achajara almoubaraka showed significantly higher amounts of the alcohols (46%). Concerning oxidative stability, Isly and Kenine OO, have lower stability values compared to Achajara almoubaraka. Their potential oxidative susceptibility is therefore much higher than Achajara almoubaraka. Keywords: virgin olive oil, volatile compounds, SPME, GC/MS, oxidative stability
Food Research International, 2020
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