Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0018799 (heart disease)
34,133 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hematologic management of adults with cyanotic congenital heart disease has received little recent attention. The lack of practical therapeutic guidelines prompted us to consolidate our observations on 124 cyanotic adults for general physicians, cardiologists, and hematologists who care for these patients. Specific attention focused on regulation of erythrocyte mass and concepts of compensated and decompensated erythrocytosis, symptoms of deficient tissue oxygen transport, hyperviscosity and iron deficiency, the potential relation between elevated hematocrit levels and brain injury, hemostasis, urate metabolism, and renal function. Cerebral infarction was not seen in any patient. Phlebotomy is best reserved for treatment of symptomatic hyperviscosity. Iron therapy is indicated for symptomatic iron deficient erythropoiesis. Abnormal hemostatic mechanisms are the rule. Antithrombotic medications have little or no role in treatment. Hyperuricemia is the result of abnormal renal uric acid excretion not urate overproduction, and serves as a marker of abnormal renal function. Drugs that promote urate excretion are the preferred maintenance treatment in symptomatic hyperuricemic patients.
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PMID:Adults with cyanotic congenital heart disease: hematologic management. 304 12

To test the hypothesis that tissue oxygen delivery would be affected by diminished oxygen stores in cyanotic congenital heart disease, serum ferritin, transferrin saturation, hemoglobin, red cell mean corpuscular volume (MCV), red cell 2,3-diphosphoglycerate (DPG), P50, blood gases, oxygen saturations and systemic oxygen transport were measured in 29 hypoxemic infants and children. For the group, aortic saturation was 81 +/- 9%, PaO2 was 50 +/- 12 mm Hg, hemoglobin 16.2 +/- 2.1 gm/dl and systemic oxygen transport 620 +/- 145 ml/min/m2. P50 was increased above normal values (28.8 +/- 2.3 vs 26.6 +/- 1.1 mm Hg, p less than 0.01), and DPG was 2.35 +/- 0.54 mumol/ml, at the upper limits of normal for this assay. Iron deficiency was present in 8. When patients with P50 greater than or equal to 30 mm Hg and P50 less than 30 mm Hg were compared, iron stores were diminished in the high P50 group: [serum ferritin (19 +/- 8 vs 53 +/- 48 ng/ml, p = 0.0006), transferrin saturation (11 +/- 6 vs 23 +/- 11%, p = 0.003) and MCV (79 +/- 8 vs 86 +/- 4 fl, p = 0.05)]. Hemoglobin, aortic oxygen saturation, PaO2 and systemic oxygen transport were similar in both groups. In children with iron sufficiency, 15 of 21 had MCV greater than 90th percentile for age and sex (p less than 0.001 versus expected distribution). Also, MCV greater than 90th percentile for age and sex had a positive predictive value of 0.88 for iron sufficiency. This study demonstrates that diminished iron stores in cyanotic congenital heart disease are associated with a more right-shifted oxyhemoglobin dissociation curve (increased P50).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of iron deficiency on tissue oxygen delivery in cyanotic congenital heart disease. 334 85

An increase in hemoglobin concentration characterizes the normal compensatory response to chronic tissue hypoxia. We observed no such increase in 42 chronically hypoxic patients with cystic fibrosis, in whom the mean concentration was 12.6 gm/dl; one third of the patients were anemic. Compared with patients with cyanotic heart disease, patients with cystic fibrosis did not have a compensatory increase in P50 or 2,3-diphosphoglycerate. Despite anemia, erythropoietin levels in patients with cystic fibrosis were not significantly different from normal control values. The growth of colony-forming units-erythroid in patients with cystic fibrosis was similar to that in control subjects, and there was no inhibition of growth with the addition of autologous serum. Erythropoietin sensitivity, determined by measuring the CFUe dose response curve, was normal in both patients and controls. Results of iron studies were consistent with iron deficiency in the majority of patients. Impaired absorption of iron was observed in six of 13 iron-deficient patients with cystic fibrosis. An inverse correlation between erythrocyte sedimentation rate and peak serum iron was obtained during the iron absorption study. Eight patients who underwent a therapeutic trial of iron demonstrated a 1.8 gm/dl rise in hemoglobin concentration. Two patients with previously documented iron malabsorption responded to parenteral iron therapy after failure to respond to oral supplementation. These studies demonstrate that patients with cystic fibrosis not only have an impaired erythroid response to hypoxia, but are frequently anemic. Their inadequate erythroid response to hypoxia results in part from disturbances in erythropoietin regulation and iron availability.
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PMID:Inadequate erythroid response to hypoxia in cystic fibrosis. 673 32

The long-term management of cyanotic congenital heart disease requires treatment of raised haematocrit (> 65%) whilst conserving the quality of the red blood cells [mean corpuscular volume, mean corpuscular haemoglobin concentration (MCHC)]. Since 1975, the author has chosen chemotherapy (hydroxyurea, pipobroman) as first-line treatment, reserving iron supplements, phlebotomy and platelet antagonists as adjuvant therapy. Pre-treatment data of 170 patients showed: a high prevalence of hypochromic microcytosis due to iron deficiency and of thrombopaenia, in relation to the severity and duration of the polycythaemia. Hyperuricaemia was greater than 420 mumol/l in 67% of cases; effort tolerance and hyperviscosity were related to the haematocrit and iron deficiency. One hundred and forty seven patients were followed up for a total duration of 769 years of chemotherapy. Clinical tolerance was good: biological tolerance was marked by a high frequency of thrombocytopaenia requiring withdrawal (10 cases) or reduction of treatment (34 cases). The causes of the 39 deaths observed are analysed: none was related to the hydroxyurea or pipobroman. The treatment or follow-up was stopped in 29 cases: the reasons are reported. Seventy eight patients under treatment had a favourable outcome with normal social reinsertion in 74 cases. This efficiency was related to maintenance of a haematocrit < 65%, to correction of the iron deficiency and increase in the MCHC. These results were obtained with an average dosage of 19 +/- 4.5 mg/kg/day of hydroxyurea (69 patients). By slowing erythropoiesis, chemotherapy reduces the indication of phlebotomy, so reducing iron loss: it also inhibits excessive bouts of polycythaemia in cases of iron therapy.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Long-term hematological management of cyanotic congenital heart diseases]. 777 87

The prevelance of IDA in industrialized countries has declined in recent decades, but there has been little change in the worldwide prevalence. IDA is currently estimated to affect more than 500 million people. Recent studies have indicated that anemia per se, the most common manifestation of iron deficiency, is less important from a public health standpoint than liabilities associated with tissue iron deficiency. The most important of the latter are an impairment in psychomotor development and cognitive function in infants and preschoolers, a deficit in work performance in adults, and an increase in the frequency of low birth weight, prematurity, and perinatal mortality in pregnancy. There have been several recent advances in combatting nutritional iron deficiency. One of the major problems has been in distinguishing iron deficiency from other causes of anemia seen epidemiologically such as malaria, HIV infection, chronic inflammation, hemoglobinopathies, and protein energy malnutrition. When combined with serum ferritin and hemoglobin determinations, the serum transferrin receptor assay is a valuable addition in epidemiologic surveys because it provides a quantitative measure of functional iron deficiency and it distinguishes true IDA from the anemia of chronic disease. The most difficult challenge is to develop effective methods of supplying iron to large segments of a population. Supplementation with iron tablets is suitable for only brief periods of need such as during pregnancy. The poor compliance with existing supplementation programs is believed to be due mainly to the gastrointestinal side effects of oral iron which can be eliminated by the use of a gastric delivery system. The most effective long-term strategy is to increase the intake of bioavailable iron in the diet. The customary approach has been to fortify a food staple such as wheat, rice, sugar, or salt, and thereby increase the iron intake of the entire population. However, because of concerns about the risk of cancer and heart disease in individuals with high iron stores, there is an increasing reluctance to supply iron to individuals who do not require it. A more effective strategy is to fortify food vehicles that are targeted to segments of the population at greatest risk of iron deficiency such as infants and school children. Because of the strong inhibitory properties of diets in regions of the world where iron deficiency is most prevalent, the use of NaFeEDTA has important advantages for food fortification.
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PMID:Iron deficiency: the global perspective. 788 26

Diet plays an important role in the development of common diseases among Northern indigenous people, i.e. heart disease, cancer, diabetes and iron deficiency. Their unique diets may contribute to or protect from these diseases. The diets consumed by Siberian Chukotka Natives (Russia) and Alaska Natives (United States) during the 1980's are described. Traditional foods still play a major role, although the extent of their use varies. Alaska Natives' diets are more "western" than are those of Chukotka Natives. They consumed a greater proportion of kilocalories as carbohydrates and fat than Chukotka Natives. Coastal Chukotka Natives had lower average serum LDL-cholesterol and higher HDL-cholesterol levels than tundra Chukotka Natives, despite their high fat and kilocalorie intakes. Dietary recommendations common to both groups are presented which encourage the use of traditional foods as the foundation of the diet supplemented with western type foods of appropriate quality and quantity.
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PMID:A comparison of the diets of Siberian Chukotka and Alaska Native adults and recommendations for improved nutrition, a survey of selected previous studies. 798 16

The purpose of this review is to examine current research on the iron status of the elderly and factors that influence the body burden of iron. Studies of noninstitutionalized elderly individuals report mean iron intakes that meet current Recommended Dietary Allowances for iron. Dietary practices that may decrease iron bioavailability, and hence iron stores in the body, include low intakes of ascorbic acid or high intakes of calcium, and decreased consumption of highly available iron from meat, fish, and poultry. Although not well documented, the effect of age on iron absorption and iron excretion appears to be small, and body stores of iron increase with age. It is difficult to estimate the prevalence of iron deficiency in elderly persons, because impaired iron status can be the result of iron deficiency or chronic disease. Further study is necessary to determine whether red blood cell ferritin and serum transferrin receptors may be useful biochemical markers to differentiate the anemia of chronic disease from iron deficiency anemia. Hereditary hemochromatosis is a genetic disease that greatly increases the body burden of iron and the risk of hepatic disease among homozygotes. Because iron deficiency or iron excess may impair health, the role of iron in diseases associated with aging such as depressed immune response, neurological dysfunction, cancer, and heart disease is discussed.
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PMID:Iron nutriture in elderly individuals. 800 89

Decreased arterial oxygen saturation in cyanotic congenital heart disease causes a compensatory rise in haemoglobin and haematocrit levels. There is an inverse correlation between arterial oxygen saturation and haemoglobin/haematocrit. This holds true as long as the erythropoiesis is not restricted by other factors. The haematological values and arterial oxygen saturations of three children with cyanotic congenital heart disease are presented. They illustrate how iron deficiency causes discrepant values for arterial oxygen saturation and haemoglobin/haematocrit and that "normal" haemoglobin/haematocrit levels in such children may constitute anaemia. Measurements of MCV, MCH and serum ferritin reveal the existence of iron deficiency anaemia. Low grade iron medication is recommended for children with cyanotic congenital heart disease.
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PMID:[Normal hemoglobin levels in children with cyanotic heart disease. Is it iron deficiency anemia?]. 832 97

A group of 67 children with cyanotic congenital heart disease (CCHD) were studied, and 35 were given iron treatment according to a regimen that gives iron to patients with a hematocrit (Hct) below 60%. The patients were categorized as iron-deficient and iron-sufficient according to their transferrin saturation and ferritin values. The pretreatment hemoglobin (Hb) and Hct values of the groups were similar. The mean Hct was nearly three times as much as the mean Hb in the iron-sufficient group and more than three times as much as the Hb in the iron-deficient group. Excessive erythrocytosis in the iron-deficient group was impressive. Mean corpuscular volume (MCV) values were below 72.7 fl in all of the iron-deficient patients. After treatment the Hb, Hct, transferrin saturation, and ferritin increased significantly in both groups, with the increments greater in the iron-deficient group. Increments in the erythrocyte (RBC) count were significant in the iron-sufficient group but insignificant in the iron-deficient one. Increments of MCV in the iron-deficient group were significant but insignificant in the iron-sufficient group. Our study demonstrated that prediction of Hb, RBC count, and MCV, measurements of which are easy and inexpensive and require little blood, can suffice for the diagnosis of iron deficiency in patients with CCHD without altering systemic perfusion.
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PMID:Parameters of iron deficiency in children with cyanotic congenital heart disease. 866 27

The target organ failures associated with uremia are most often considered to be caused by processes other than uremia per se. Heart disease, for example, is considered the product of hypertension, lipid abnormalities, and so forth, rather then the uremic state. Erythropoietin deficiency, blood loss, and iron deficiency are believed to cause anemia, rather than the uremic state. Malnutrition is believed to be the product of poor nutrient intake and perhaps nutrient losses, rather than uremia per se. This article reviews evidence suggesting that anemia and malnutrition share a common cause; the acute-phase inflammatory process that is a normal host-defense mechanism. Given the high prevalence of heart disease among patients with end-stage renal disease (ESRD), data indicating activation of the acute-phase process in patients with kidney failure, and emerging evidence that the process has a significant role in the risk for cardiovascular disease among patients without kidney failure, there is a strong likelihood that heart disease will share with anemia and malnutrition the acute-phase state as a contributing cause. Thus, instead of disconnected target organ failures, each with different antecedent causes, we see emerging the likelihood of a unifying pathobiology for uremia. The antecedents of morbidity and mortality appear as a web of organ failures connected by a common pathobiology. Whereas each failure likely has contributing causes other than the acute-phase state, they probably share the state as a causative, contributing, or exacerbating factor.
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PMID:Acute-phase inflammatory process contributes to malnutrition, anemia, and possibly other abnormalities in dialysis patients. 989 76


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