M. Sanz Alaejos scite author profile

This review compiles the contents of heterocyclic aromatic amines (HAAs) in foods and beverages, collected from literature data along the period from 1992 up to 2009. Also, it describes the factors that affect the formation of HAAs in foods, such as the cooking method, including temperature, time, and frequency of turning of meat, during cooking. Other factors depending on the type of food and the recipe followed are pH, amounts of HAA precursors, types of amino acids, presence of certain divalent ions, and content of substances with enhancing or inhibiting effects on the formation of HAAs. In addition, there are other factors, which depend on the type of food, such as muscle tissue and the presence of certain genes, since the RN − allele in pigs increases the glycogen content of muscle. The dispersion of the bibliographic data is evident, and there are scarce data, even no data, referred to individual HAAs. Considering that the diverging results can be due to several causes, possible recommendations are given in order to prevent the dispersion of the results and to achieve more valuable information, applied to determine the HAAs exposure. Although there are not direct indications that HAAs represent a serious health risk to the population, and common cancers are produced by many factors including xenobiotics, all measures to minimize the formation of HAAs should be foreseen, some of which are indicated.

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Selenium Concentrations in Natural and Environmental Waters

Conde

1997

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Analytical methods applied to the determination of heterocyclic aromatic amines in foods

Alaejos

Ayala

González

et al. 2008

Journal of Chromatography B

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Urinary selenium concentrations

Alaejos

Romero

1993

131

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Urinary selenium concentrations are used as an indicator of selenium status. A strong correlation has been established between dietary selenium and daily urinary selenium excretion in a wide range of populations from all over the world with different dietary selenium intake. Data on urinary selenium concentrations in healthy individuals and patients with different pathological conditions are reviewed. Selenium excretion rates of 20-200 micrograms/day are not associated with deficiency or toxicity problems. Urinary Se excretion is decreased in children, elderly people, and pregnant women. Workers exposed to heavy metals, and cancer patients, have higher and lower urinary Se concentrations, respectively, than control groups. The trimethylselenonium ion, a minor metabolite of Se in urine, assumes a significant role only in the detoxification of excess Se intake. Studies of bioavailability and balance show the important role of the kidneys in homeostatic regulation of Se.

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Analysis of Selenium in Body Fluids: A Review

Alaejos¹,

Romero²

1995

Chem. Rev.

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M. Sanz Alaejos

Factors That Affect the Content of Heterocyclic Aromatic Amines in Foods

Selenium Concentrations in Natural and Environmental Waters

Analytical methods applied to the determination of heterocyclic aromatic amines in foods

Urinary selenium concentrations

Analysis of Selenium in Body Fluids: A Review

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