Characterisation and traceability of extra virgin olive oil and table olive of Azapa variety marketed in Chile using Microsatellite Molecular Markers / Caracterización y trazabilidad de aceite de oliva virgen extra y aceituna de mesa de la variedad Azapa comercializados en Chile mediante marcadores moleculares microsatélites

Chile has two certified origin olive products: Extra-Virgin Olive Oil (EVOO) from Huasco valley and the Azapa variety table olive from the Azapa valley. However, efficient methodologies are needed to determine the varieties and raw materials involved in the end products. In this study, we assessed the size of alleles from ten microsatellites in 20 EVOOs and in leaves and fruits of 16 olive varieties cultivated in Chile to authenticate their origins. The identification of varieties relied on specific allele sizes derived from microsatellites markers UDO99-011 and DCA18-M found in leaves and fruit mesocarp. While most Chilean single-variety EVOOs matched the variety declared on the label, inconsistencies were observed in single-variety EVOOs containing multiple varieties. Our findings confirm that microsatellites serve as a valuable as diagnostic tools for ensuring the quality control of Geographical Indication certification for Azapa olives and EVOO with Designation of Origin from Huasco.

Chile cuenta con dos productos de oliva de origen certificado: El aceite de oliva virgen extra (AOVE) del valle del Huasco y la aceituna de mesa de la variedad Azapa del valle de Azapa. Sin embargo, se necesitan metodologías eficientes para determinar las variedades y materias primas involucradas en los productos finales. En este estudio, evaluamos el tamaño de los alelos de diez microsatélites en 20 AOVEs y en hojas y frutos de 16 variedades de aceituna cultivadas en Chile para autentificar sus orígenes. La identificación de las variedades se basó en los tamaños alélicos específicos derivados de los marcadores microsatélites UDO99-011 y DCA18-M encontrados en las hojas y el mesocarpio de los frutos. Aunque la mayoría de los AOVEs chilenos monovarietales coincidían con la variedad declarada en la etiqueta, se observaron incoherencias en los AOVEs monovarietales que contenían múltiples variedades. Nuestros hallazgos confirman que los microsatélites sirven como valiosas herramientas de diagnóstico para asegurar el control de calidad de la certificación de Indicación Geográfica para aceitunas de Azapa y AOVE con Denominación de Origen de Huasco.

Composición química y aplicaciones clínicas del aceite de oliva extra virgen

La composición química del aceite de oliva extra virgen (AOEV) se compone principalmente de triglicéridos, ácidos grasos insaturados como ácido oleico, ácido linoleico y el α-linolénico. También se destacan compuestos fenólicos de tres clases químicas: simples, secoiridoides y lignanos. En la presente revisión se analizó el consumo del AOEV en enfermedades crónicas, ciertos tipos de cáncer y en enfermedades neurodegenerativas. La evidencia muestra que el consumo de entre 8 y 40 g de AOEV diario tiene efectos protectores en enfermedades cardiovasculares, puede evitar la aparición de diabetes tipo 2 y aumentar los niveles de colesterol HDL. Respecto al cáncer, entre los efectos evaluados se destacan los encontrados a partir de los compuestos fenólicos hidroxitirosol (HT) y oleocantal, los que han demostrado un efecto protector en algunos tipos de cáncer como cáncer de piel y de mama. En las enfermedades neurodegenerativas, se observó que el consumo diario de 50 g de AOEV, tiene un efecto inhibidor en la degeneración neuronal atribuido a sus compuestos fenólicos como oleuropeina e HT. Investigaciones a futuro debieran enfocarse en determinar los efectos a largo plazo del consumo de AOEV en las diferentes enfermedades analizadas, para así poder ir estableciendo la "dosis" de AOEV que permita obtener resultados protectores sobre la salud. Además de explorar los efectos de las diferentes variedades de aceitunas (con sus componentes bioactivos particulares) con el fin de establecer los efectos en la salud y enfermedad asociados a variedades específicas.

The chemical composition of extra virgin olive oil (EVOO) is mainly composed of triglycerides, unsaturated fatty acids such as oleic acid, linoleic acid, and α-linolenic acid. Phenolic compounds of three chemical classes are also relevant, such as simple, secoiridoids, and lignans. Here, we review the association between EVOO consumption and chronic diseases, certain types of cancer, and neurodegenerative diseases. Evidence shows that consuming between 8 and 40 g of EVOO / day has protective effects on cardiovascular diseases, can prevent the onset of type 2 diabetes, and increases HDL cholesterol levels. Regarding cancer, phenolic compounds hydroxytyrosol (HT) and oleocanthal have protective effects on some types of cancer, such as skin and breast cancer. Regarding neurodegenerative diseases, daily consumption of phenolic compounds such as oleuperin and hydroxytyrosol and 50 g of EVOO has an inhibitory effect on neuronal degeneration and a protective effect on neuroprotective capacity. Future research should focus on determining the long-term impact of EVOO consumption on different diseases to establish the "dose" of EVOO that will allow health-protective results. It is also necessary to establish the effects of the specific olives (with their particular bioactive components) to establish the different impacts on health and disease associated with olives varieties.

Chemical and sensory assessment of extra virgin olive oil blends with omega-3 polyunsaturated fatty acids from plant origin

Extra virgin olive oil (EVOO) is known for its health benefits, although it provides a minimum amount of n-3 polyunsaturated fatty acids (n-3 PUFA), which play an important role in the human organism. In this study, EVOO was blended with vegetable oils which are rich sources of n-3 PUFA alpha-linolenic acid (ALA) and/or stearidonic acid (SDA) (chia, walnut, linseed and viper's bugloss seed oils). Fatty acid profiles, induction time, and organoleptic characteristics of the resulting blends were assessed. The n-3 PUFA enrichment in the blends was proportional to the degree of blending. Sensory analysis carried out by a trained panel showed that it is possible to enrich EVOO with up to 20% chia, linseed and viper's bugloss seed oil without altering the original organoleptic characteristics of EVOO. However, the induction time of the blends was significantly reduced compared with EVOO even after adding n-3 PUFA in small proportions, meaning that shelf-life time of these blends is much lower than that of EVOO, which should be considered when preparing these products for commercial purposes.

El aceite de oliva extra virgen (AOEV) es ampliamente conocido por sus beneficios para la salud, aunque apenas aporta ácidos grasos poliinsaturados n-3 (AGPI n-3), los cuales juegan un papel importante en el organismo humano. En este estudio se elaboraron mezclas de AOEV con aceites vegetales ricos en ácido alfa-linolénico (ALA) y/o estearidónico (SDA) (chia, nuez, linaza y viborera). Se evaluaron los perfiles de ácidos grasos, tiempos de inducción y características organolépticas de las mezclas resultantes. El enriquecimiento en AGPI n-3 fue proporcional al grado de mezcla. El análisis sensorial llevado a cabo por un panel entrenado mostró que es posible enriquecer AOEV con hasta un 20% de aceite de chia, linaza o viborera sin alterar las características organolépticas originales del AOEV. Sin embargo, los tiempos de inducción de las mezclas fueron significativamente menores que el del AOEV, incluso tras añadir AGPI n-3 en pequeñas proporciones, lo que significa que el tiempo de vida media de las mezclas es mucho menor que el del AOEV. Este hecho debería tenerse en cuenta al preparar las mezclas con propósitos comerciales.

Uso do azeite de oliva (Olea europaea l. ) em preparações culinárias quentes: elaboração de material informativo para popularização do conhecimento científico / Use of olive oil (Olea europaea l. ) in hot culinary preparations: elaboration of informative material for popularization of scientific knowledge / Uso del aceite de oliva (Olea europaea l. ) en preparaciones culinarias calientes: elaboración de material divulgativo para la popularización del conocimiento científico

O azeite de oliva é amplamente consumido devido às suas propriedades benéficas para a saúde e características sensoriais únicas. A composição química abundante em ácido graxo monoinsaturado, associada ao perfil de compostos fenólicos com importante efeito antioxidante, confere ao azeite de oliva alta estabilidade ao aquecimento. Embora existam muitas evidências sobre a estabilidade térmica do azeite, ainda existem muitas dúvidas, por parte da população, sobre o uso em técnicas culinárias que envolvam calor. O objetivo desse trabalho foi compilar evidências científicas a respeito da influência de técnicas culinárias sobre a estabilidade térmica do azeite de oliva, com vistas a elaborar material informativo, com linguagem adaptada à população em geral, sobre sua utilização na culinária, especialmente em preparações quentes. É de amplo conhecimento na literatura que o azeite de oliva é bastante resistente à cocção, no entanto, temperaturas elevadas, como as empregadas na fritura por imersão, podem levar a diminuição do teor de compostos fenólicos, a depender da quantidade e tipos de fenólicos presentes no azeite. Estudos no contexto da gastronomia molecular também relatam, além da estabilidade térmica, os benefícios da utilização do azeite de oliva na culinária devido às interações químicas entre os compostos do azeite e os compostos do alimento fazendo com que ambos (óleo e alimentos) se beneficiem dos efeitos protetivos desses compostos. Considerando que ainda é muito comum o uso do azeite de oliva apenas para temperar saladas e finalizar pratos, o infográfico elaborado no presente trabalho pode contribuir para apresentar o conteúdo científico sobre o uso do azeite em preparações culinárias quentes de forma simplificada e de fácil compreensão.

Olive oil is widely consumed due to its beneficial health properties and unique sensory characteristics. The chemical composition abundant in monounsaturated fatty acids, associated with a profile of phenolic compounds with important antioxidant effects, gives olive oil high heat stability. Although there is much evidence about the thermal stability of olive oil, there are still many doubts among the population about its use in cooking techniques that involve heat. The objective of this work was to compile scientific evidence about the influence of cooking techniques on the thermal stability of olive oil, in order to elaborate informative material, with language adapted to the general population, about its use in cooking, especially in hot preparations. It is widely known in the literature that olive oil is very resistant to cooking, however, high temperatures, such as those used in deep frying, can lead to a decrease in the content of phenolic compounds, depending on the amount and types of phenolics present in the oil. Studies in the context of molecular gastronomy also report, besides thermal stability, the benefits of using olive oil in cooking due to chemical interactions between the compounds of olive oil and food compounds, so that both (oil and food) benefit from the protective effects of these compounds. Considering that it is still very common to use olive oil only to season salads and finish dishes, the infographic prepared in this work can contribute to present the scientific content about the use of olive oil in hot culinary preparations in a simplified and easy to understand way.

El aceite de oliva es ampliamente consumido por sus propiedades beneficiosas para la salud y sus características sensoriales únicas. La composición química abundante en ácidos grasos monoinsaturados, asociada al perfil de compuestos fenólicos con importante efecto antioxidante, confiere al aceite de oliva una gran estabilidad al calentamiento. Aunque hay muchas evidencias sobre la estabilidad térmica del aceite de oliva, todavía existen muchas dudas entre la población sobre su uso en técnicas culinarias que implican calor. El objetivo de este trabajo fue recopilar evidencias científicas sobre la influencia de las técnicas culinarias en la estabilidad térmica del aceite de oliva, con el fin de elaborar material divulgativo, con lenguaje adaptado a la población general, sobre su uso en cocina, especialmente en preparaciones calientes. Es ampliamente conocido en la literatura que el aceite de oliva es bastante resistente a la cocción, sin embargo, las altas temperaturas, como las empleadas en la fritura por inmersión, pueden llevar a disminuir el contenido de compuestos fenólicos, dependiendo de la cantidad y tipos de fenólicos presentes en el aceite. Los estudios en el contexto de la gastronomía molecular también informan, además de la estabilidad térmica, de los beneficios del uso del aceite de oliva en la cocina debido a las interacciones químicas entre los compuestos del aceite de oliva y los compuestos de los alimentos, de forma que ambos (aceite y alimento) se benefician de los efectos protectores de estos compuestos. Teniendo en cuenta que todavía es muy común el uso del aceite de oliva sólo para aliñar ensaladas y terminar platos, la infografía elaborada en este trabajo puede contribuir a presentar de forma simplificada y fácil de entender el contenido científico sobre el uso del aceite de oliva en preparaciones culinarias calientes.

The beneficial effects of virgin olive oil against oxidative stress induced by hypercholesterolemia in rats

Cardiovascular disease(CVD) remains the major cause of mortality in the world, typically claiming a third of all deaths. The primary cause of CVD is atherosclerosis. Therefore, timely prevention and therapy of atherosclerosis are able to reduce the risk of the development of its clinical manifestations. Anti-atherosclerotic activity of medicinal plants mainly appears in their multiple effects.This study was carried out to evaluate the hypolipidemic activity of virgin olive oil in experimentally induced hyperlipemic Wistar. A total of 24 rats were randomly allocated to 4 equal groups and treated as follows for 50 days: (1) Normal control (NC); that were fed with a standart diet; (2) High Cholesterol Diet Control (HCD); which received high cholesterol diet for 50 days; (3) Animals receiving high cholesterol diet for 50 days, after this period the animals are fed for eight days by the standard foodand receiving by gavage virgin olive oil (HCD+VOO) and(4) Animals fed for eight days with the standard food and receiving by gavage olive oil (VOO). High Cholesterol Diet containing yolk egg and coconut oil. Results showed that olive oil caused a significant (p < 0.01) reduction in serum levels of Total Cholesterol (TC), Triglycerides (TG), Low­Density Lipoprotein Cholesterol (LDL) and Atherogenic Index Serum (AIS). The results also demonstrated a significant (p < 0.01) increase in High­Density Lipoprotein Cholesterol (HDL). Moreover, virgin olive oil induced a significant reduction in liver lipid content. On the other hand, a High cholesterol diet induced oxidative stress was measured by estimating reduced glutathione level and amount of thiobarbituric acid reactive substances (TBARS) formed as an index of lipid peroxidation in a liver and a heart. Virgin olive oil supplementation attenuated all these variations. Our observations of the study indicate that the virgin olive oil has a significant antihyperlipidemic potential.

Reducción de la esteatosis hepática, insulino resistencia y pérdida de la defensa antioxidante en ratones alimentados con dieta alta en grasa suplementados con AGPICL n-3 más aceite de oliva extra virgen / Reduction of hepatic steatosis, insulin resistance and loss of antioxidant defense in high fat diet fed mice suplemented with n-3 LCPUFA more extra virgin olive oil

Non-alcoholic fatty liver disease (NAFLD) is directly associated with insulin resistance and oxidative stress. In NAFLD is established a reduction in n-3 LCPUFA (EPA + DHA) levels and hepatic activity of transcription factor PPAR-alpha. EPA and DHA inhibit lipogenesis and stimulate fatty acid oxidation in the liver. Extra virgin olive oil (EVOO) has important antioxidant properties. This study evaluated the prevention of insulin resistance and prevention of depletion of hepatic antioxidant defense inC57BL/6J mice fed high-fat diet (HFD), supplemented with n-3 LCPUFA plus EVOO. HFD generated insulin resistance and hepatic steatosis, together with significant reduction in i) n-3 LCPUFA hepatic levels, ii) DNA binding activity of PPAR-alpha, iii) activity of antioxidant enzymes (catalase and superoxide dismutase), respect to control group (fed with control diet). Supplementation with n-3 LCPUFA plus EVOO prevent development insulin resistance and attenuate increased of fat in liver (p < 0.05), together with a normalization of i) DNA binding activity of PPAR-á, ii) activity of antioxidant enzymes (catalase and superoxide dismutase) and iii) reducing depletion of n-3 LCPUFA levels in liver tissue, compared to the control group (p < 0.05). Supplementation with n-3 LCPUFA plus EVOO reduced hepatic steatosis and prevent development of insulin resistance, along with preserving the antioxidant defense in liver. Projecting the use of this mixture of AGPICL n-3 plus EVOO as a potential treatment of NAFLD.