Mostrando 10 resultados de: 14
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Critical Reviews in Food Science and Nutrition(3)
Food Chemistry(3)
Food and Chemical Toxicology(2)
Journal of Agricultural and Food Chemistry(2)
Environmental Reviews(1)
Characterization of the binding capacity of mercurial species in Lactobacillus strains
ArticleAbstract: BACKGROUND: Metal sequestration by bacteria has been proposed as a strategy to counteract metal contPalabras claves:Biosorption, cell wall, LACTOBACILLUS, Mercury, methylmercuryAutores:Alcántara C., Carlos Jadán-Piedra, Devesa V., Monedero V., Vélez D., Zúñiga M.Fuentes:scopusDietary compounds as modulators of metals and metalloids toxicity
ArticleAbstract: A large part of the population is exposed to metals and metalloids through the diet. Most of the inPalabras claves:arsenic, Cadmium, diet, lead, Mercury, Toxicity, toxicokineticsAutores:Carlos Jadán-Piedra, Chiocchetti G.M., Clemente M.J., Devesa V., Vélez D.Fuentes:scopusCadmium pollution of water, soil, and food: a review of the current conditions and future research considerations in Latin America
ReviewAbstract: The presence of cadmium (Cd) in food produced in Latin America has been highlighted in recent years.Palabras claves:cacao, Cadmium, FISH, FOOD, soil, WATERAutores:Alves Peixoto R.R., Carlos Jadán-PiedraFuentes:scopusEffect of lactic acid bacteria on mercury toxicokinetics
ArticleAbstract: The capacity of two LAB strains to inhibit inorganic [Hg(II)] and organic (methyl-Hg; MeHg) mercuryPalabras claves:Autores:Carlos Jadán-Piedra, Crespo Á., Devesa V., Monedero V., Vélez D., Zúñiga M.Fuentes:scopusIn vitro evaluation of dietary compounds to reduce mercury bioavailability
ArticleAbstract: Mercury in foods, in inorganic form [Hg(II)] or as methylmercury (CH3Hg), can have adverse effects.Palabras claves:Bioavailability, Dietary strategies, FOOD, Mercury, swordfishAutores:Carlos Jadán-Piedra, Devesa V., Vélez D.Fuentes:scopusInfluence of Physiological Gastrointestinal Parameters on the Bioaccessibility of Mercury and Selenium from Swordfish
ArticleAbstract: Swordfish tend to accumulate mercury (Hg), but they are rich in selenium (Se), an element that can cPalabras claves:Bioaccessibility, Mercury, molar ratio Hg/Se, selenium, swordfishAutores:Carlos Jadán-Piedra, Clemente M.J., Devesa V., Vélez D.Fuentes:scopusMetal(loid) contamination in seafood products
ArticleAbstract: Seafood products are important sources of proteins, polyunsaturated lipids and phospholipids, and alPalabras claves:Bioavailability, Exposure, metaloids, Metals, processing, Seafood, speciationAutores:Carlos Jadán-Piedra, Chiocchetti G.M., Devesa V., Vélez D.Fuentes:scopusToxic trace elements at gastrointestinal level
ReviewAbstract: Many trace elements are considered essential [iron (Fe), zinc (Zn), copper (Cu)], whereas others mayPalabras claves:Bioavailability, FOOD, Gastrointestinal toxicity, Intestinal absorption, Toxic trace elements, TransformationsAutores:Carlos Jadán-Piedra, Chiocchetti G.M., Devesa V., Marta Calatayud Arroyo, Vázquez M., Vélez D.Fuentes:scopusToxic trace elements in dried mushrooms: Effects of cooking and gastrointestinal digestion on food safety
ArticleAbstract: Mushrooms can accumulate toxic trace elements. The objectives of the present study are to evaluate lPalabras claves:arsenic, Bioaccessibility, Cadmium, Cooking, lead, Mercury, MushroomsAutores:Carlos Jadán-Piedra, Chiocchetti G.M., Clemente M.J., Devesa V., Latorre T., Vélez D.Fuentes:scopusUse of Saccharomyces cerevisiae to Reduce the Bioaccessibility of Mercury from Food
ArticleAbstract: Food is the main pathway of exposure to inorganic mercury [Hg(II)] and methylmercury (CH3Hg). IntestPalabras claves:Bioaccessibility, Mercury, Mushrooms, Saccharomyces Cerevisiae, SeafoodAutores:Baquedano M., Carlos Jadán-Piedra, Devesa V., Puig S., Vélez D.Fuentes:scopus