General ionic minerals zinc dietary supplement research. nutrtional supplement research.

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Research on the Mineral Zinc

The following research abstracts are presented to reflect the findings of possible benefits from minerals as a dietary supplement and nutritional supplement. You will find more on the ionic zinc page.

GENERAL ZINC RESEARCH

Persistent immunological consequences of gestation zinc deprivation.

Beach, R. S., Gershwin, M. E., & Hurley, L. S. (1983) Am J of Clin Nut, 38, 579-590.

Recent work has shown that offspring of outbred mice deprived of adequate dietary zinc during the latter two thirds of gestation exhibited a defective plaque-forming cell response to immunization with heterologous erythrocytes, as well as impaired ontogenesis of serum Igm. Moreover, such aberrant immunological measurements continued to be observed although to a lesser degree, in F2 and F3 progeny. We now demonstrate that offspring of mice moderately deprived of zinc (5 ppm zinc diet) between days 7 and 20 of gestation also show an aberrant pattern of development of serum levels of IgG2a and IgA, despite complete nutritional rehabilitation beginning at birth. Only by 6 months of age were concentrations of these serum immunoglobulins similar to those in offspring of control dams. In contrast, levels of IgG1 and IgG2b were within normal ranges by 6 wk of age. Cross-fostering of zinc deprived offspring to dams adequately nourished during pregnancy did little to ameliorate their aberrant pattern of serum immunoglobulin development. Defective maturation of serum IgG2a and IgA did not persist in F2 and F3 progeny. Nonetheless such 2nd and 3rd generation offspring continued to have higher than normal perinatal mortality. The alterations of immune ontogenesis in these mice could not be attributed to the persistence of abnormal plasma zinc levels, as these were with normal ranges. It would appear that zinc deficiency during gestation may alter the basic mechanism of development of immunological competence.
Zinc/ Immunity/ Ontogeny/ Serum Immunoglobulin.

Importance of molybdenum.

Anon. (1983) Int Clin Nut Rev, 3(1), 45.

Molybdenum deficiency may be the single greatest factor in the causation of oesophageal cancer in Chinese men. Oesphageal cancer specimens taken from men living in high risk areas have shown a significant reduction in molybdenum levels compared to normal oesophageal specimens, and appears to be due to the low molybdenum (and zinc,) content of cereal grains and drinking water found in high risk areas.

The anti-neoplastic properties of molybdenum include inhibition of the growth of Ehrlich ascites tumours in mice and inhibition of nitrosamine induced stomach cancer of mice. Levels of nitrosamines and their precursors were found to be high in staple foods collected from high risk areas of China. Molybdenum is essential to a number of oxidation-reduction enzymes of bacteria and algae which convert the nitrogen components in the soil to ammonia and when plants are high in molybdenum they contain less nitrates and nitrites.

Effects of copper deficiency on the cardiovascular system of the rat.

Petering, H. G., Murphy, L., Stemmer, K. L., Finelli, V. N., & Menden, E. E. (1986) Biological Trace Element Research, 9, 251+.

Weanling male rats were fed a copper deficient diet devoid of cholesterol. The effects of varying source of carbohydrate and supplements of copper and zinc on cardiovascular pathology and some biochemical and physiological parameters were investigated. It was found that cardiomyopathy developed in copper deficient groups. Sucrose, in contrast to starch or starch:lactose (1:1), caused significant exacerbation of this situation. Increasing dietary Cu to 8 ppm prevented or minimized the development of cardiomyopathy. Angiopathy occurred only when dietary zinc was at the lower level (20 ppm). Dietary copper supplements to 8.0 ppm did not alter this situation, but 120 ppm Zn in the drinking water did reduce the angiopathy almost to the control level, except in the groups in which sucrose was fed. Serum cholesterol was only elevated significantly over the control value when dietary copper was deficient and sucrose was the carbohydrate source. The data point to independent action of dietary copper or zinc on the myocardium or vessels, respectively, with sucrose interacting to make copper and zinc supplements less active than when starch or starch/lactose was fed.
Cardiomyopathy/ angiopathy/ essential metals/ dietary carbohydrate/ lipid metabolism/ copper deficiency/ cardiovascular.

Evidence of a relationship between childhood-onset type I diabetes and low groundwater concentration of zinc

Diabetes Care (USA), 1996, 19/8 (873-875)

OBJECTIVE - Zinc deficiency ha shown to increase the risk for diabetes in diabetes-prone experimental animals. Low concentrations of zinc have also been shown in serum of recent onset cases with IDDM. The present study examines the hypothesis that exposure to a low concentration of zinc in drinking water could increase the risk for future onset of IDDM. RESEARCH DESIGN AND METHODS - Using the Swedish childhood diabetes registry and data on residence 3 years before the onset of disease, a case-control study was designed comparing cases and control subjects with estimates of groundwater contents of zinc obtained in biogeochemical samples from areas of residence. RESULTS - A high groundwater concentration of zinc was associated with a significant decrease in risk (odds ration (OR) = 0.8; 95% CI = 0.7-0.9). The same OR was obtained when the model included information of other metals that might act as possible confounders (chromium, vanadium, cobalt selenium, cadmium, lead, and mercury). In small rural areas, in which drinking water is taken from local wells and thus is closely associated with the groundwater content within the area, an even stronger association between zinc and diabetes (OR = 0.6; 95% CI = 0.4-0.9) was found. CONCLUSIONS - It is concluded that this study for the first time provides evidence that a low groundwater content of zinc, which may reflect long-term exposure through drinking water, is associated with later development of childhood onset diabetes.

Rationales for micronutrient supplementation in diabetes.

Med Hypotheses (ENGLAND) Feb 1984, 13 (2) p139-51

Available evidence--some well-documented, some only preliminary--suggests that properly-designed nutritional insurance supplementation may have particular value in diabetes. Comprehensive micronutrient supplementation providing ample doses of antioxidants, yeast-chromium, magnesium, zinc, pyridoxine, gamma-linolenic acid, and carnitine, may aid glucose tolerance, stimulate immune defenses, and promote wound healing, while reducing the risk and severity of some of the secondary complications of diabetes. (125 Refs.)

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