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Query: UMLS:C0240066 (iron deficiency)
7,156 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Previously reported levels of iron absorption from common Southeast Asian meals composed of rice, vegetables, and spices were too low to be consistent with the known prevalence of iron deficiency. In the present paper the cause of the low absorption was systematically sought. Variables investigated comprised methodological errors, factors in the diet such as certain foodstuffs, or contaminants inhibiting the absorption and characteristics of the subjects accompanied by malabsorption of dietary iron. The latter was excluded by comparing the absorption from both wheat rolls and a composit rice meal in Thai and Swedish women using the absorption of a small dose of ferrous ascorbate as a common basis of comparison. Two main factors were identified as causing the low absorption in the previous studies: the homogenization of the labeled meals before serving and the use of rice flour instead of rice. Iron absorption from nonhomogenized meals of identical composition as studied previously was many times higher (on an average 0.16 mg) and was consistent with the actual prevalence of iron deficiency in lower socioeconomic groups of Thais mainly consuming the simple meals studied. Recent modifications of the method to measure nonheme iron absorption from composite meals have thus not only made the determination simpler but also more accurate.
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PMID:Iron absorption from Southeast Asian diets. II. Role of various factors that might explain low absorption. 85 Oct 82

The effect of vitamin C and carotene derived from authentic or natural sources on intestinal iron absorption was studied. Vitamin C caused slight enhancement to iron absorption, while carotene hindered it. The three juices tested, namely orange, parsley and pepper, which were found to be rich in these two vitamins, hindered intestinal iron absorption to different extents. It was recommended that patients suffering from iron deficiency are not supplied with nutrients rich in carotene particulary during iron therapy.
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PMID:Intestinal absorption of iron alone and in combination with authentic or natural vitamin C and carotene. 102 Mar 68

In connection with a multiphasic screening program carried out in Finland, over 7,000 persons participated in a dietary survey. The method was a diet history interview concerning food consumption and habits during the previous year. The mean intake of meat products was lower in anemic women (Hb less than 12.0 g/100 ml or PCV less than 36 vol%) than in the others and in the intake of liquid milk products was higher in the anemic women. The meat product intake was lower in anemic men (Hb less than 13.0 g/100 ml or PCV less than 41 vol %) than in other men, but the milk consumption of the groups was almost equal. The intake of meat products in iron-deficient women )serum iron less than 50 mu g/100 ml or TIBC larger than or equal to 400 mu g/100 ml) was lower and the intake of milk products higher than in the other women. The intake of meat products in iron-deficient men (serum iron less than 50 mu g/100 ml or TIBC larger than or equal to 400 mu g/100 ml) was lower than in the other men and the milk consumption was almost equal. The results support earlier studies that dietary habits are significant in the etiology of iron deficiency. In the light of this population study the intake of vitamin C also seems to influence iron metabolism.
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PMID:Iron deficiency and dietary factors in Finland. 124 90

Sugar as a vehicle for iron fortification presents several advantages over the other vehicles used in the last three decades. In vitro studies demonstrated that ferrous sulfate added to sugar in proportion of 1 mg to 1 g, respectively, is maintained in the ferrous form for a period of at least 1 year and does not induce adverse changes in the vehicle. Sugar, by itself, carries practically no inhibitors for the absorption of iron. Iron absorption from fortified sugar mixed with vegetals is the same as that of native vegetal iron. The absorption from fortified sugar is increased more than 50% over that observed from native vegetal when it is administered as a drink during the ingestion of a meal. A further increase in absorption was found when fortified sugar was administered with beverages. The mean absorption ratio of fortified sugar given with orange juice, Coca-Cola, and Pepsi-Cola to a reference dose of iron ascorbate was between 0.45 and 0.66, which is more than 3 times the absorption of this iron fortification mixed with vegetals. The mean absorption ratio from coffee was 0.30, and from coffee with milk, 0.15. These data indicate that the fortification of sugar with iron could be a better procedure for the prevention of iron deficiency than the iron fortification of bread and wheat products, from which iron is poorly absorbed. It could be used in developing countries where beverages are highly consumed by the low socioeconomic class. This program could be extended to all sugar consumption or be restricted to soft drinks.
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PMID:Sugar as a vehicle for iron fortification. 124 79

The data presented confirm the advantages of sugar as a vehicle for iron fortification over other vehicles used in the past. The absorption comparison between ferric and ferrous salts added to sugar demonstrated that Fe(III)-EDTA Complex and ferrous sulfate exhibited the highest absorption, while ferric ammonium citrate was poorly absorbed. It was also found that Fe(III)-EDTA reacts slowly with the tannin contained in tea; the color of the tea changes slightly in the first 2 hr after the addition of the fortified sugar. Iron absorption of sugar fortified with ferrous sulfate was tested in seven beverages. The mean absorption ratio from fortified sugar given with beverages to reference dose of iron ascorbate ranged between 0.42 and 0.70, that is, more than 4 times the absorption from fortified sugar when it is administered with a meal containing one or more vegetals. An absorption of between 0.25 and 0.80 mg of iron/soft drink sugar fortified with 3 mg of iron as ferrous sulfate can be expected in subjects with various degrees of iron deficiency. Thus, two soft drinks per day between meals would be enough to meet the iron requirement in more than 95% of menstruating women, even though the daily iron absorption from the diet is about 0.8 to 1.0 mg.
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PMID:Sugar as a vehicle for iron fortification: further studies. 125 17

The absorption of radioactive iron from a solution of ferrous ascorbate, and from a standard meal containing intrinsically labelled haemoglobin and wheat, was measured in 12 Indian housewives, 18 white hospital patients and 12 subjects with idiopathic haemochromatosis. Eight of the latter had been fully treated by multiple venesections, so that their serum ferritin concentrations were below 25 mug/1. Since the serum ferritin concentrations of the housewives and the hospital patients were comparable, their body iron stores were considered to be depleted to a similar degree. There were no significant differences between the absorptions of ferrous ascorbate or of the haem iron in the standard meal by each group, but the housewives and the hospital patients absorbed significantly less of the non-haem food iron. The mean non-haem food iron absorptions were 36.4%, 5.8% and 18.9% for the treated haemochromatotic subjects, the Indian housewives and the white hospital patients respectively. The discrepancies between the absorptions of the different forms of food iron were highlighted by calculating the ratios between them. The mean non-haem: haem food iron absorption ratio for the group of treated haemochromatotic subjects was 0.98, and for the Indian housewives only 0.18. The white hospital patients did not form a homogenous population: the ratios of the five males and three of the females were greater than 1.0, whereas those of the remaining 10 females were less than 0.5. The results of this study suggest that mal-absorption of non-haem iron from a meal containing bread, presumably due to a defect at the luminal level, may be an important factor in the pathogenesis of iron deficiency in some subjects. The abnormality appears to be particularly prevalent among Indian women living in Durban.
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PMID:Patterns of food iron absorption in iron-deficient white and indian subjects and in venesected haemochromatotic patients. 127 86

Blood biochemical indices of iron status were measured in venous blood from 20 runners and 6 control subjects. All subjects were male, ages 20 to 40 years, and stable with regard to body weight and degree of physical activity. Dietary analysis was undertaken using a 7-day weighed food intake. There was no evidence of iron deficiency: hemoglobin concentrations and serum ferritin levels were within the normal population range for all individuals. However, serum ferritin was negatively correlated with the amount of training. Daily iron intake appeared to be adequate; iron intake was correlated with protein intake but not related to training or energy intake. Serum ferritin, an indicator of iron status, was significantly correlated with vitamin C intake but not iron intake. Serum transferrin concentration was higher in the group of athletes undertaking a high weekly training load compared with the control subjects, suggesting an alteration in iron metabolism although there was no evidence of increased erythropoiesis. The biological significance of this is unclear.
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PMID:Hematological status of male runners in relation to the extent of physical training. 129 6

Routinely measuring iron status is necessary because about 6% of Americans have negative iron balance, about 10% have a gene for positive balance, and about 1% have iron overload. Deviations from normal iron status are as follows. (a) Stage I and II negative iron balance, ie, iron depletion: In these stages iron stores are low and there is no dysfunction. In stage I negative iron balance, reduced iron absorption produces moderately depleted iron stores. Stage II negative iron balance is characterized by severely depleted iron stores. More than half of all cases of negative iron balance fall into these two stages. When persons in these stages are treated with iron, they never develop dysfunction or disease. (b) Stage III and IV negative iron balance, ie, iron deficiency: Iron deficiency is characterized by inadequate body iron for normal function, producing dysfunction and disease. In stage III negative iron balance, dysfunction is not accompanied by anemia; anemia develops in stage IV negative iron balance. (c) Stage I and II positive iron balance: Stage I positive balance usually lasts for several years with no dysfunction. Supplements of iron and/or vitamin C promote progression to dysfunction or disease. Iron removal prevents progression to disease. Iron overload disease develops in stage II positive iron balance after years of iron overload has caused progressive damage to tissues and organs. Again, iron removal stops disease progression. There are a variety of indicators of iron status. Serum ferritin is in equilibrium with body iron stores.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Everyone should be tested for iron disorders. 835 7

Routinely measuring iron status is necessary because not only are about 6% of Americans in significant negative iron balance, but about 1% have iron overload. Serum ferritin is in equilibrium with body iron stores, and is the only blood test that measures them. Barring inflammation, each one ng (0.0179 pmol) ferritin/ml of serum indicates approximately 10 mg (0.179 mmol) of body iron stores. Very early Stage I positive balance is best recognized by measuring saturation of iron binding capacity. Conversely, serum ferritin best recognizes early (Stage I and II) negative balance. Deviations from normal are: 1. Both stages of iron depletion (i.e. low stores, no dysfunction). Negative iron balance Stage I is reduced iron absorption producing moderately depleted iron stores. Stage II is severely depleted stores, without dysfunction. These stages include over half of all cases of negative iron balance. Treated with iron, they never progress to dysfunction, i.e. to disease. 2. Both stages of iron deficiency. Deficiency is inadequate iron for normal function, i.e. dysfunction, disease. Negative balance Stage III is dysfunction without anemia; Stage IV is with anemia. 3. Positive iron balance: Stage I is a multi-year period without dysfunction. Supplements of iron and/or vitamin C promote progression to dysfunction (disease). Iron removal prevents progression. Stage II is iron overload disease, encompassing years of insidiously progressive damage to tissues and organs from iron overload. Iron removal arrests progression.
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PMID:Iron disorders can mimic anything, so always test for them. 142 81

Iron deficiency anemia is the most prevalent among form of anemia in the world. In Japan, there is no overall report concerning prevalence and pathogenesis of iron deficiency. We estimated the prevalence of iron deficiency from the results of a survey of 3,015 Japanese women. The reference range for hemoglobin was derived from the average value of subjects with normal iron status (> or = 16% of transferrin saturation and > or = 12 ng/ml of serum ferritin). Using these reference standards, the prevalence of iron deficiency anemia, latent iron deficiency, storage iron deficiency, normal and others were 8.5%, 8.0%, 33.4%, 43.6% and 6.5%, respectively. The prevalence of iron deficiency anemia increased beginning in early lower teen girls, was highest in high teen-girls and, young women and decreased in elderly women. In elderly women, the cause of iron deficiency was often obvious associated with anemia of chronic disorders. The strategy for iron deficiency was discussed concerning iron fortification, mega-ingestion of vitamin C and low dose administration of iron tablets in the higher incidence group.
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PMID:[Prevalence and pathogenesis of iron deficiency in Japanese women (1981-1991)]. 146 80

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