Bioavailability, biodistribution, and toxicity of BioZn-AAS(1): a new zinc source. comparative studies in rats.

Food fortification with a proper zinc compound is an economic and effective strategy to prevent zinc deficiency. BioZn-AAS, a zinc gluconate stabilized with glycine, was compared with zinc sulfate (reference standard), zinc hydroxide, and zinc gluconate, all of them labeled with (65)Zn. This preclinical study was performed on Sprague-Dawley rats of both sexes, and the administered dose was 85 microg/kg of zinc. Bioavailability studies showed that absorption of BioZn-AAS was not statistically different than absorption from other sources in female rats (25.65% +/- 2.20% for BioZn-AAS, 28.24% +/- 4. 60% for ZnSO(4), 24.91% +/- 4.02% for Zn[OH](2), and 25.51% +/- 2. 70% for Zn-gluconate). In the case of the male rats, absorption of BioZn-AAS (27.97% +/- 4.20%) was higher (P<0.05) than that from the other compounds (23.15% +/- 2.90% for ZnSO(4), 22.62% +/- 3.90% for Zn[OH](2), and 22.30% +/- 3.90% for Zn-gluconate). Biodistribution studies demonstrated that the zinc from BioZn-AAS followed the same metabolic pathway as zinc from the other sources. Toxicity studies were performed with 50 female and 50 male rats. The value of oral lethal dose 50 (LD(50)) was 2000 mg/kg for female rats and 1900 mg/kg for male rats. Therefore, we conclude that BioZn-AAS has adequate properties to be considered a proper zinc compound for food fortification or dietary supplementation.

Study of industrial microencapsulated ferrous sulfate by means of the prophylactic-preventive method to determine its bioavailability.

Radio-iron tests are frequently used to measure the bioavailability of different iron sources for food fortification. As the labeling procedures must be done under laboratory conditions, complementary studies should be carried out to evaluate the bioavailability of iron sources produced on an industrial scale. The iron bioavailability of SFE-171 (ferrous sulfate microencapsulated with phospholipids) was studied in previous reports using the compounds labeled with 59Fe and 55Fe; the results showed an iron bioavailability similar to that of ferrous sulfate. In the present work, the iron bioavailability of industrial SFE-171 was studied by the prophylactic-preventive method in rats using ferrous sulfate as the reference standard. Elemental iron powder was also studied by the same method for comparative purposes. The liver iron concentration of each animal was determined at the end of the experiment in order to evaluate the influence of each iron source on the liver iron stores. Relative biological values of 98 and 34% were found for SFE-171 and elemental iron powder, respectively, while the corresponding relative liver iron concentrations were 104 and 45%. The results provided by the prophylactic-preventive method show that the iron bioavailability of industrial SFE-171 is similar to that of ferrous sulfate; these results are also in agreement to those obtained with the radioactive compounds. We can conclude that the SFE-171 obtained by industrial procedures for massive use in iron food fortification has the same bioavailability as that of the SFE-171 produced and labeled under laboratory conditions.

[Zinc: concepts on an essential micronutrient]. / Cinc: conceptos actuales sobre un micronutriente esencial.

It is now well known that zinc is an essential micronutrient. Even though much information is available, there are many points that remain to be studied. zinc is absorbed by the intestine and transported in the plasma by albumin, forming a small exchangeable pool, which is rapidly exhausted even in cases of mild deficiency. zinc is essential for the activity of about 70 enzymes among other functions. Therefore, zinc deficiency produces a great number of clinical disorders, the symptoms of which may range between mild up to serious dysfunctions. These problems are corrected by a dietary supplementation with zinc. The lack of a reliable method to determine the zinc nutritional status reflects the problem to estimate the metal recommended dietary allowances, which are difficulty met specially by children, old persons and pregnant women which constitute the main risk groups. Although our knowledge concerning zinc toxicity is scarce, it is well known that the amounts of zinc that produces toxic effects are much higher than those that are contained in regular diets as well as in diets supplemented with this metal. Therefore, the need of the development of effective strategies, like food fortification with proper zinc compounds, appears as an attractive alternative in order to prevent and/or correct the deficiency of this vital element and to improve the health and the life quality of the whole population.

Cinc: conceptos actuales sobre un micronutriente esencial / Cinc: conceptos on an essential micronutrient

Se ha postulado que el aporte de hierro a las células usuarias se halla bajo un control dependiente del tamaño de la fracción intracelular libre del metal, cuyos cambios se reflejarían en mensajes a la expresión de los receptores séricos o de membrana para ajustar la oferta a la demanda. La posibilidad de que los receptores de membrana pudieran estar afectados por la malnutrición calórico-proteica se exploró en estudios a través de los cambios de la capacidad de los reticulocitos circulantes de ratón normal para incorporar hierro in vitor, observando el diferente comportamiento ocasionado por la incubación de las células con suero humano de dadores normales y de pacientes de anemia nutricional. Los resultados muestran una significativa caída de dicha capacidad cuando se utilizó suero de pacientes afectados de anemia nutricional. Se discute el probable mecanismo responsable de dicha diferencia.

Cinc: conceptos actuales sobre un micronutriente esencial / Cinc: conceptos on an essential micronutrient

Se ha postulado que el aporte de hierro a las células usuarias se halla bajo un control dependiente del tamaño de la fracción intracelular libre del metal, cuyos cambios se reflejarían en mensajes a la expresión de los receptores séricos o de membrana para ajustar la oferta a la demanda. La posibilidad de que los receptores de membrana pudieran estar afectados por la malnutrición calórico-proteica se exploró en estudios a través de los cambios de la capacidad de los reticulocitos circulantes de ratón normal para incorporar hierro in vitor, observando el diferente comportamiento ocasionado por la incubación de las células con suero humano de dadores normales y de pacientes de anemia nutricional. Los resultados muestran una significativa caída de dicha capacidad cuando se utilizó suero de pacientes afectados de anemia nutricional. Se discute el probable mecanismo responsable de dicha diferencia. (AU)

Cinc: conceptos actuales sobre un micronutriente esencial. / [Zinc: concepts on an essential micronutrient]

It is now well known that zinc is an essential micronutrient. Even though much information is available, there are many points that remain to be studied. zinc is absorbed by the intestine and transported in the plasma by albumin, forming a small exchangeable pool, which is rapidly exhausted even in cases of mild deficiency. zinc is essential for the activity of about 70 enzymes among other functions. Therefore, zinc deficiency produces a great number of clinical disorders, the symptoms of which may range between mild up to serious dysfunctions. These problems are corrected by a dietary supplementation with zinc. The lack of a reliable method to determine the zinc nutritional status reflects the problem to estimate the metal recommended dietary allowances, which are difficulty met specially by children, old persons and pregnant women which constitute the main risk groups. Although our knowledge concerning zinc toxicity is scarce, it is well known that the amounts of zinc that produces toxic effects are much higher than those that are contained in regular diets as well as in diets supplemented with this metal. Therefore, the need of the development of effective strategies, like food fortification with proper zinc compounds, appears as an attractive alternative in order to prevent and/or correct the deficiency of this vital element and to improve the health and the life quality of the whole population.

Microencapsulated ferrous sulfate to fortify cow milk: absorption and distribution in mice.

To determine the absorption and biodistribution of iron from microencapsulated ferrous sulfate (SFE-171), used to fortify dairy products with iron, a comparative study in four groups of 30 mice each was carried out. In two of the groups, the absorption of iron from ferrous ascorbate in water (13.3 +/- 4.3%) and from ferrous sulfate in water (12.7 +/- 3.9%) was determined and taken as reference standards. In the third group the iron absorption from SFE-171 in milk was determined, giving a value of 12.1 +/- 4.2%, which statistically does not differ from the data obtained with either reference standard. In the fourth group, the absorption of iron from ferrous sulfate in milk showed a value of 7.7 +/- 3.4%, which statistically differs with a p < 0.01 from the data corresponding to the other three groups. The biodistribution studies showed that the iron from the SFE-171 follows the same metabolic pathway as the iron from the reference standards thus, giving a higher radioactivity percentage and radioactivity concentration in organs or systems, principally blood, that are closely related to iron metabolism. Our studies allow us to conclude that the iron from SFE-171 in milk follows the same behavior as the nonhemic iron, with a higher absorption than that of ferrous sulfate in milk.

Modification of the ferrozine technique to analyze iron contents in different foods: comparative study using an internal standard as reference methodology.

A methodology for the determination of iron in foods fortified with this element or in nutritional products is important and has to be sensitive and rapid. In developing countries, an inexpensive and reliable methodology is also required. For this purpose, the Gordon's Ferrozine technique was slightly modified and assayed with yogurt, dry powdered milk, and cereal mixtures, all of them fortified with iron, using an internal standard as the reference methodology. The obtained results demonstrate a close correlation between the standard curve interpolation method and the internal standard reference method (correlation coefficient r2 = 0.9950) in a wide range of concentrations. The slope (0.9998+/-0.0040) demonstrates that both procedures measure equal amounts of iron. The conclusion is that the proposed technique is a reliable, practical, and inexpensive methodology for iron determination in different foods fortified with iron.