Bioaccessibility of Hg, Cd and As in cooked black scabbard fish and edible crab.

[1]  Tanja Åkesson JOINT FAO/WHO FOOD STANDARDS PROGRAMME CODEX COMMITTEE ON CONTAMINANTS IN FOODS , 2010 .

[2]  M. Cave,et al.  An inter-laboratory trial of the unified BARGE bioaccessibility method for arsenic, cadmium and lead in soil. , 2011, The Science of the total environment.

[3]  D. Vélez,et al.  Influence of mercury bioaccessibility on exposure assessment associated with consumption of cooked predatory fish in Spain. , 2011, Journal of the science of food and agriculture.

[4]  J. Domingo Influence of Cooking Processes on the Concentrations of Toxic Metals and Various Organic Environmental Pollutants in Food: A Review of the Published Literature , 2010, Critical reviews in food science and nutrition.

[5]  D. Vélez,et al.  Comparison of a static and a dynamic in vitro model to estimate the bioaccessibility of As, Cd, Pb and Hg from food reference materials Fucus sp. (IAEA-140/TM) and Lobster hepatopancreas (TORT-2). , 2011, The Science of the total environment.

[6]  E. Brandon,et al.  Fate in digestion in vitro of several food components, including some toxic compounds coming from omega-3 and omega-6 lipids. , 2011, Food and chemical toxicology : an international journal published for the British Industrial Biological Research Association.

[7]  Mei He,et al.  Effects of cooking and subcellular distribution on the bioaccessibility of trace elements in two marine fish species. , 2010, Journal of agricultural and food chemistry.

[8]  A. Vieira,et al.  Mercury, cadmium and lead in black scabbardfish (Aphanopus carbo Lowe, 1839) from mainland Portugal and the Azores and Madeira archipelagos , 2009 .

[9]  S. Siciliano,et al.  Bioaccessibility of mercury from traditional northern country foods measured using an in vitro gastrointestinal model is independent of mercury concentration. , 2009, The Science of the total environment.

[10]  R. Jeffree,et al.  Assessment of metal, metalloid, and radionuclide bioaccessibility from mussels to human consumers, using centrifugation and simulated digestion methods coupled with radiotracer techniques. , 2009, Ecotoxicology and environmental safety.

[11]  D. Mcclements,et al.  Influence of initial emulsifier type on microstructural changes occurring in emulsified lipids during in vitro digestion , 2009 .

[12]  M. Nunes,et al.  Influence of season and sex on the contents of minerals and trace elements in brown crab (Cancer pagurus, Linnaeus, 1758). , 2009, Journal of agricultural and food chemistry.

[13]  M. Ferruzzi,et al.  Impact of phytochemical-rich foods on bioaccessibility of mercury from fish , 2009 .

[14]  J. Domingo,et al.  Effects of various cooking processes on the concentrations of arsenic, cadmium, mercury, and lead in foods. , 2008, Journal of agricultural and food chemistry.

[15]  M. Nunes,et al.  Total and organic mercury, selenium and α‐tocopherol in some deep‐water fish species , 2008 .

[16]  Wen-Xiong Wang,et al.  Bioaccessibility of essential and non-essential metals in commercial shellfish from Western Europe and Asia. , 2008, Food and chemical toxicology : an international journal published for the British Industrial Biological Research Association.

[17]  J. Camp,et al.  Development of a nutrient database and distributions for use in a probabilistic risk-benefit analysis of human seafood consumption , 2007 .

[18]  Y. Madrid,et al.  Mercury–Selenium Species Ratio in Representative Fish Samples and Their Bioaccessibility by an In Vitro Digestion Method , 2007, Biological Trace Element Research.

[19]  W. Verstraete,et al.  Comparison of five in vitro digestion models to in vivo experimental results: Lead bioaccessibility in the human gastrointestinal tract , 2007, Journal of environmental science and health. Part A, Toxic/hazardous substances & environmental engineering.

[20]  R. Farré,et al.  Bioaccessibility and transport by Caco-2 cells of organoarsenical species present in seafood. , 2007, Journal of agricultural and food chemistry.

[21]  I. Koch,et al.  Arsenic bioaccessibility and speciation in clams and seaweed from a contaminated marine environment. , 2007, Marine pollution bulletin.

[22]  Thirty-Second Session JOINT FAO/WHO FOOD STANDARDS PROGRAMME , 2007 .

[23]  G. Dugo,et al.  Concentration of Cd (II), Cu (II), Pb (II), Se (IV) and Zn (II) in cultured sea bass (Dicentrarchus labrax) tissues from Tyrrhenian Sea and Sicilian Sea by derivative stripping potentiometry , 2006 .

[24]  E. Larsen,et al.  Survey of inorganic arsenic in marine animals and marine certified reference materials by anion exchange high-performance liquid chromatography-inductively coupled plasma mass spectrometry. , 2005, Journal of agricultural and food chemistry.

[25]  A. Oomen,et al.  Applicability of an in vitro digestion model in assessing the bioaccessibility of mycotoxins from food. , 2005, Food and chemical toxicology : an international journal published for the British Industrial Biological Research Association.

[26]  Y. Madrid,et al.  Selenium and mercury bioaccessibility in fish samples: an in vitro digestion method , 2004 .

[27]  C. Padez,et al.  Prevalence of overweight and obesity in 7–9‐year‐old Portuguese children: Trends in body mass index from 1970–2002 , 2004, American journal of human biology : the official journal of the Human Biology Council.

[28]  K. Kulp,et al.  An in vitro model system to predict the bioaccessibility of heterocyclic amines from a cooked meat matrix. , 2003, Food and chemical toxicology : an international journal published for the British Industrial Biological Research Association.

[29]  A. Oomen,et al.  Development of an In Vitro Digestion Model for Estimating the Bioaccessibility of Soil Contaminants , 2003, Archives of environmental contamination and toxicology.

[30]  Mustafa Canli,et al.  The relationships between heavy metal (Cd, Cr, Cu, Fe, Pb, Zn) levels and the size of six Mediterranean fish species. , 2003, Environmental pollution.

[31]  P. Trumbo,et al.  Dietary reference intakes: vitamin A, vitamin K, arsenic, boron, chromium, copper, iodine, iron, manganese, molybdenum, nickel, silicon, vanadium, and zinc. , 1998, Journal of the American Dietetic Association.

[32]  V. Feron,et al.  Application of a dynamic in vitro gastrointestinal tract model to study the availability of food mutagens, using heterocyclic aromatic amines as model compounds. , 2000, Food and chemical toxicology : an international journal published for the British Industrial Biological Research Association.

[33]  H. H. Nussey,et al.  Bioaccumulation of Chromium, Manganese, Nickel and Lead in the Tissues of the Moggel, Labeo umbratus (Cyprinidae), From Witbank Dam, Mpumalanga , 2000 .

[34]  its Panel on Folate,et al.  FOOD AND NUTRITION BOARD , 1998 .

[35]  G. Birch,et al.  Health and food. , 1972 .