Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0240066 (iron deficiency)
7,156 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Almost all segments of the gastrointestinal tract have been used as urinary tract substitutes. The specific nutritional and gastrointestinal complications depend on the particular portion of bowel that is removed from the alimentary tract. The use of stomach theoretically may predispose the patient to hypergastrinemia and peptic ulcer disease, hypocalcemia, and iron deficiency or megaloblastic anemia. Resection of a large amount of jejunum causes malabsorption. Limited use of colon segments usually is well tolerated, but loss of large parts of the colon directly decreases available absorptive area, resulting in diarrhea. Resection of the ileum and ileocecal valve can lead to several disease states. One is mixed secretory-osmotic diarrhea. Decreased ileal reabsorption of bile salts results in fat malabsorption and steatorrhea. The presentation of increased amounts of bile salts and fatty acids to the colon decreases water absorption and stimulates active chloride and water secretion, producing a cholera-like high-volume secretory diarrhea. The loss of the ileocecal valve and ileum segment accelerates intestinal transit time, which does not allow for complete digestion and absorption of food. Water and electrolytes remain associated with undigested food particles and may overwhelm the absorptive capacity of the colon, resulting in an osmotic diarrhea. A second problem is vitamin B12 deficiency. Surgical reduction of sites in the terminal ileum for active and exclusive uptake of vitamin B12 might lead to hypovitaminosis. If this is unrecognized, patients may develop irreversible neurologic injury. A third problem is cholelithiasis. Derangements in bile salt metabolism can occur when as little as 10 cm of ileum is resected, and the propensity to form gallstones is increased. Pigment gallstones appear to be the predominant stone associated with ileal resections. The fourth possible problem is urolithiasis, the etiology of which is multifactorial in patients with ileal resections. With decreased availability of bile salts, fat malabsorption occurs. Fatty acids bind with calcium and magnesium to form soaps, resulting in increased levels of free oxalate available for absorption. Moreover, fatty acids directly increase colonic permeability to oxalate.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Nutritional and gastrointestinal complications of the use of bowel segments in the lower urinary tract. 194 6

Iron absorption is under delicate control and the level of absorption is adjusted to comply with the body's need for iron. To measure the intestinal setting for iron absorption, and thereby indirectly assess body iron requirements, cobaltous chloride labelled with (57)Co or (60)Co was given by mouth and the percentage of the test dose excreted in the urine in 24 hours was measured in a gamma counter. Seventeen control subjects with normal iron stores excreted 18% (9-23%) of the dose. Increased excretion, 31% (23-42%), was found in 10 patients with iron deficiency anemia and in 15 patients with depleted iron stores in the absence of anemia. In contrast, 12 patients with anemia due to causes other than iron deficiency excreted amounts of radiocobalt within the normal control range. In patients with iron deficiency, replenishment of iron stores by either oral or parenteral iron caused the previously high results to return to normal.Excretion of the test dose was normal in portal cirrhosis with normal iron stores but it was markedly increased in patients with cirrhosis complicated by either iron deficiency or endogenous iron overload. It was also raised in primary hemochromatosis. Excretion of the dose was reduced in gluten-sensitive enteropathy. Gastrointestinal surgery and inflammatory disease of the lower small intestine had no effect on the results except that some patients with steatorrhea had diminished excretion.The cobalt excretion test provides the clinician with a tool for the assessment of iron absorption, the detection of a reduction in body iron stores below the level that is normal for the subject in question, the differentiation of iron deficiency anemia from anemia due to other causes, and the investigation of patients with iron-loading disorders.
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PMID:Cobalt excretion test for the assessment of body iron stores. 557 25

Therapy of the malabsorption syndrome centers on adequate diagnosis of the underlying pathology, with vigorous therapeutic efforts directed at correcting this and thereby preventing ongoing losses of nutrients. Dietary therapy includes a high-protein, high-calorie, low-fat diet often supplemented with MCTs in an effort to minimize steatorrhea. Water-soluble vitamin deficiency is rare, but supplementation with small daily doses is innocuous and probably should be prescribed. Significant fat-soluble vitamin deficiencies are seen more commonly and can be monitored by physical examination and the prothrombin time. Calcium, magnesium, and vitamin D deficiencies are more common than originally suspected. Adequate therapy requires monitoring of the serum calcium, magnesium, parathyroid hormone levels, and, optimally, 24-hour urinary collections for calcium. Supplementation of these mineral deficiencies requires ongoing close observation to prevent hypercalcemia. Iron deficiency can be easily diagnosed by available serum iron determination, and replacement with oral supplements is curative. Trace metal deficiencies occur, but our capabilities of detecting and treating them is still in its infancy. Figure 3 outlines our approach to the evaluation and treatment of the patients suspected of having the malabsorption syndrome.
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PMID:Nutritional aspects of malabsorption syndromes. 641 33

Peroral jejunal biopsies were performed in 63 adult patients from a population of 40,000. Twenty-two patients had definite pathologic biopsy findings; 20 of these had gluten-induced enteropathy. With the 15 previously known patients in the region, this makes a minimum prevalence of 1 per 1,143. Subtotal villous atrophy was found in 8 patients, whereas partial villous atrophy was found in 12 patients. The clinical picture varied considerably, borborygmia, diarrhoea, abdominal pain, and psychiatric symptoms being the most commonly encountered symptoms. Steatorrhoea was found in only two patients with subtotal villous atrophy. In all the remaining patients, including six with subtotal villous atrophy, the faecal fat excretion was normal. A low whole blood folic acid concentration was the most consistent laboratory finding, although some patients had values slightly above the lower normal limit. Anaemia was not pronounced. Iron deficiency, as measured by the erythrocyte protoporphyrin IX concentration, was not common. A high degree of clinical awareness and broad indications for jejunal biopsy-taking is recommended.
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PMID:Prevalence and clinical picture of adult gluten-induced enteropathy in a Norwegian population. 743 1

The authors discuss the case of an asymptomatic patient with celiac sprue presenting with hematologic abnormalities on screening laboratory examination. The patient was initially treated for vitamin B-12 and folate deficiency, and subsequently for iron deficiency with limited success until the diagnosis was established. The absence of such classic features of celiac disease as steatorrhea and diarrhea is not an uncommon presentation. Unexplained iron deficiency should alert the clinician to the possibility of celiac sprue.
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PMID:Celiac sprue in an asymptomatic elderly man. 779 25

Children with human immunodeficiency virus (HIV) infection have a higher prevalence of intestinal malabsorption. Anemia is also a common feature in these children. The aims of this work were (a) to establish the prevalence of iron deficiency in HIV-infected children, (b) to test the hypothesis that iron deficiency is related to intestinal malabsorption, (c) to see whether it may contribute to anemia, and (d) to evaluate the sensitivity of oral iron load in the investigation of intestinal function. To accomplish these goals, 71 HIV-infected symptomatic children were enrolled. Iron serum values were determined before and after oral load with ferrous sulfate. The correlation between basal and post-load iron levels was evaluated by linear regression. Xylose level after oral load, fecal fat, and fecal alpha 1-antitrypsin concentration were also determined. Iron deficiency was detected in 48% of patients, and it was significantly associated with intestinal iron malabsorption. Sugar malabsorption, steatorrhea, and fecal protein loss were detected in 26, 36, and 17% of patients, respectively. Low hemoglobin levels were detected in 66% of patients. The majority of children with iron deficiency also had anemia. Preliminary data showed that oral iron administration was sufficient for raising hemoglobin in children with normal iron absorption, whereas parenteral administration was required in those with iron malabsorption. We conclude that (a) iron deficiency is a major feature of pediatric HIV infection, (b) it is related to intestinal malabsorption, and (c) it contributes to anemia. Finally, oral iron load is a sensitive test for investigating intestinal function.
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PMID:Iron deficiency and intestinal malabsorption in HIV disease. 873 98

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