[Prebiotics: concept, properties and beneficial effects]. / Prebiotics: concept, properties and beneficial effects.

Prebiotics are non-digestible food ingredients (oligosaccharides) that reach the colon and are used as substrate by microorganisms producing energy, metabolites and micronutrients used for the host; in addition they also stimulate the selective growth of certain beneficial species (mainly bifidobacteria and lactobacilli) in the intestinal microbiota. In this article, a multidisciplinary approach to understand the concept of prebiotic carbohydrates, their properties and beneficial effects in humans has been carried out. Definitions of prebiotics, reported by relevant international organizations and researchers, are described. A comprehensive description of accepted prebiotics having strong scientific evidence of their beneficial properties in humans (inulin-type fructans, FOS, GOS, lactulose and human milk oligosaccharides) is reported. Emerging prebiotics and those which are in the early stages of study have also included in this study. Taken into account that the chemical structure greatly influences carbohydrates prebiotic properties, the analytical techniques used for their analysis and characterization are discussed. In vitro and in vivo models used to evaluate the gastrointestinal digestion, absorption resistance and fermentability in the colon of prebiotics as well as major criteria to design robust intervention trials in humans are described. Finally, a comprehensive summary of the beneficial effects of prebiotics for health at systemic and intestinal levels is reported. The research effort on prebiotics has been intensive in last decades and has demonstrated that a multidisciplinary approach is necessary in order to claim their health benefits.

Los prebióticos son ingredientes alimentarios no digeribles (oligosacáridos) que llegan al colon y sirven de sustrato a los microorganismos, originando energía, metabolitos y micronutrientes utilizados por el hospedador y estimulando el crecimiento selectivo de determinadas especies beneficiosas (principalmente, bifidobacterias y lactobacilos) de la microbiota intestinal. En este artículo se realiza una revisión sobre los carbohidratos prebióticos desde diferentes perspectivas, comenzando por las definiciones de prebióticos formuladas a lo largo de los últimos treinta años por científicos y diferentes organismos internacionales. Se realiza una descripción detallada de los prebióticos aceptados, como tales, que presentan propiedades beneficiosas fundamentadas en estudios llevados a cabo en humanos (fructanos tipo inulina y FOS; GOS, lactulosa y oligosacáridos de leche humana), los que se consideran prebióticos emergentes y aquellos que se encuentran en fases iniciales de estudio. Además y teniendo en cuenta que la estructura química de los carbohidratos influye notablemente en sus propiedades prebióticas, se describen las técnicas más utilizadas para su análisis y caracterización. Asimismo, se detallan los modelos in vitro e in vivo más utilizados para estudiar la resistencia de los prebióticos a la digestión y la absorción gastrointestinal, la fermentación de los prebióticos en el colon así como los criterios a tener en cuenta para llevar a cabo ensayos de intervención en humanos. Por último se realiza una amplia descripción de los efectos beneficiosos de los prebióticos para la salud a nivel intestinal y sistémico. Como conclusión, podría decirse que la investigación existente hasta el momento, sobre prebióticos, es extensa y pone de manifiesto que es necesario considerar un gran número de factores para poder atribuir alegaciones de salud a un prebiótico.

Prebióticos; concepto, propiedades y efectos beneficiosos / Prebiotics: concept, properties and beneficial effects

Los prebióticos son ingredientes alimentarios no digeribles (oligosacáridos) que llegan al colon y sirven de sustrato a los microorganismos, originando energía, metabolitos y micronutrientes utilizados por el hospedador y estimulando el crecimiento selectivo de determinadas especies beneficiosas (principalmente, bifidobacterias y lactobacilos) de la microbiota intestinal. En este artículo se realiza una revisión sobre los carbohidratos prebió- ticos desde diferentes perspectivas, comenzando por las definiciones de prebióticos formuladas a lo largo de los últimos treinta años por científicos y diferentes organismos internacionales. Se realiza una descripción detallada de los prebióticos aceptados, como tales, que presentan propiedades beneficiosas fundamentadas en estudios llevados a cabo en humanos (fructanos tipo inulina y FOS; GOS, lactulosa y oligosacáridos de leche humana), los que se consideran prebióticos emergentes y aquellos que se encuentran en fases iniciales de estudio. Además y teniendo en cuenta que la estructura química de los carbohidratos influye notablemente en sus propiedades prebióticas, se describen las técnicas más utilizadas para su análisis y caracterización. Asimismo, se detallan los modelos in vitro e in vivo más utilizados para estudiar la resistencia de los prebióticos a la digestión y la absorción gastrointestinal, la fermentación de los prebióticos en el colon así como los criterios a tener en cuenta para llevar a cabo ensayos de intervención en humanos. Por último se realiza una amplia descripción de los efectos beneficiosos de los prebióticos para la salud a nivel intestinal y sistémico. Como conclusión, podría decirse que la investigación existente hasta el momento, sobre prebióticos, es extensa y pone de manifiesto que es necesario considerar un gran número de factores para poder atribuir alegaciones de salud a un prebiótico (AU)

Prebiotics are non-digestible food ingredients (oligosaccharides) that reach the colon and are used as substrate by microorganisms producing energy, metabolites and micronutrients used for the host; in addition they also stimulate the selective growth of certain beneficial species (mainly bifidobacteria and lactobacilli) in the intestinal microbiota. In this article, a multidisciplinary approach to understand the concept of prebiotic carbohydrates, their properties and beneficial effects in humans has been carried out. Definitions of prebiotics, reported by relevant international organizations and researchers, are described. A comprehensive description of accepted prebiotics having strong scientific evidence of their beneficial properties in humans (inulin-type fructans, FOS, GOS, lactulose and human milk oligosaccharides) is reported. Emerging prebiotics and those which are in the early stages of study have also included in this study. Taken into account that the chemical structure greatly influences carbohydrates prebiotic properties, the analytical techniques used for their analysis and characterization are discussed. In vitro and in vivo models used to evaluate the gastrointestinal digestion, absorption resistance and fermentability in the colon of prebiotics as well as major criteria to design robust intervention trials in humans are described. Finally, a comprehensive summary of the beneficial effects of prebiotics for health at systemic and intestinal levels is reported. The research effort on prebiotics has been intensive in last decades and has demonstrated that a multidisciplinary approach is necessary in order to claim their health benefits (AU)

Soybean, a promising health source / Soja, una prometedora fuente de salud

Esta revisión aborda los diferentes usos y propiedades beneficiosas para la salud de la soja, así como, las distintas características químicas y botánicas de esta legumbre. Existen trabajos científicos que aseguran su efecto protector en diferentes enfermedades, sin embargo, otros lo ponen en duda. De todos modos la soja es una excelente fuente de proteína de alto valor biológico, presenta baja cantidad de grasa saturada, contiene gran cantidad de fibra alimentaria y es única entre las legumbres por su contenido en isoflavonas. Existe mucha información acerca del papel beneficioso de la ingesta de legumbres: garbanzos, judías, lentejas y soja, entre otras. La caracterización y los efectos beneficiosos en salud de la soja han sido recientemente estudiados, ya que el descubrimiento de sus componentes funcionales y la controversia que ello suscita ha aumentado el interés en esta legumbre. La mayor parte de estos estudios se centran en la proteína de soja como posible fuente de prevención de las enfermedades cardiovasculares. Este efecto positivo puede ser debido a una disminución del colesterol sanguíneo. Además existen muchos estudios acerca de las isoflavonas, sustancias no nutritivas, asociadas a la prevención y tratamiento de diferentes enfermedades crónicas. También algunos estudios han mostrado el papel beneficioso de la fibra alimentaria de soja. De manera que se podrían considerar las interesantes ventajas nutricionales que proporcionaría la disminución de algunos alimentos de origen animal y la ingesta, en su caso, de alimentos derivados de la soja

Health properties and uses of soybean, as well as the different chemical and botanical characteristics of this legume are shown in this review. Soybean represents an excellent source of high quality protein, it has a low content in saturated fat, it contains a great amount of dietary fibre and its is flavone content makes it singular among other legumes. Many researches have been carried out into the benefit soft legumes: chickpeas, beans, lentils and soy, among others, but characterization and positive health effects of soybeans have been recently studied. The interest in this legume has increased because of its functional components. Most of the studies have been focused on soybean protein as a possible source of prevention against cardiovascular disease. This positive effect may be due to a decrease in serum cholesterol concentrations. In addition, there are many studies on is flavones, non-nutritive substances, associated with prevention and treatment of different chronic diseases. Moreover, some studies have shown the health properties of soy dietary fibre. Therefore, it would be interesting to consider the replacement of animal based foods for soybean foods in order to obtain some nutritional benefits

Soybean, a promising health source.

Health properties and uses of soybean, as well as the different chemical and botanical characteristics of this legume are shown in this review. Soybean represents an excellent source of high quality protein, it has a low content in saturated fat, it contains a great amount of dietary fibre and its isoflavone content makes it singular among other legumes. Many researches have been carried out into the benefits of legumes: chickpeas, beans, lentils and soy, among others, but characterization and positive health effects of soybeans have been recently studied. The interest in this legume has increased because of its functional components. Most of the studies have been focused on soybean protein as a possible source of prevention against cardiovascular disease. This positive effect may be due to a decrease in serum cholesterol concentrations. In addition, there are many studies on isoflavones, non-nutritive substances, associated with prevention and treatment of different chronic diseases. Moreover, some studies have shown the health properties of soy dietary fibre. Therefore, it would be interesting to consider the replacement of animal based foods for soybean foods in order to obtain some nutritional benefits.

Characterization of nonstarch polysaccharides content from different edible organs of some vegetables, determined by GC and HPLC: comparative study.

Content and composition of dietary fiber as nonstarch polysaccharides (NSP) was determined in vegetables belonging to different types of edible organs, using GC and HPLC. Samples analyzed were subterranean organs (radish and leek), leaves (celery, swiss chard, and lettuce), stalks (celery, swiss chard, and asparagus), inflorescence (broccoli), and fruits (tomato, green pepper, and marrow). The results indicate that though the monomeric profile is similar in all these samples quantitative differences were found for neutral sugars and uronic acids among samples of the same type of vegetal organ. The NSP values determined using CG method were in good agreement with HPLC method (R(2) = 0.9005). However, arabinose, mannose, and galactose plus rhamnose are more influenced by the analytical method used than the rest of the monomers in nearly all the samples analyzed. Final values of NSP depend on the method used in celery stalks, broccoli, and green pepper.

Postharvest storage of white asparagus (Asparagus officinalis l.): changes in dietary fiber (Nonstarch polysaccharides).

Changes occurring in the content and composition of the dietary fiber of white asparagus during storage in different conditions were studied (2 degrees C; 2 degrees C in polyethylene bags with air; 2 degrees C in polyethylene bags with a selected gas mixture). The neutral sugars and uronic acid composition of dietary fiber was determined by gas chromatography and by a spectrophotometric method. The modifications observed in the dietary fiber of the asparagus stored at 2 degrees C were more rapid and pronounced than those in polyethylene bags. The most important changes corresponded to xylose and glucose from insoluble dietary fiber and galactose from soluble dietary fiber. Statistical analysis indicated that the modifications were significantly affected by the type of storage and time.