Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

30 patients with tetralogy of Fallot were examined before and after correction. 10 of whom had previous procedures including 13 Blalock-Taussig shunts, 1 Cooley anastomosis and 6 pulmonary valvulotomies (Brock) with a dilator. Hemoglobin and blood gases were measured in 22 patients pre- and postoperatively on the 7th respectively 14th day and finally after 12 months. In 8 children the concentration of 2,3-DPG was accessed (pre-, postoperatively, immediately in ICU, on the 1st, 7th, 14th day and after 21 months). Hypoxia of various degrees was found at any time of the investigation, verified by a low venous oxygen saturation, high 2,3-DPG concentration and an erythrocytosis. The 2,3-DPG concentration was always elevated (preoperatively 18.2 +/- 1.8 muMol/g Hb; postoperatively 1st till 14th day 19.0 +/- 2.2; after 21 months 16.3 +/- 1.2 muMol/g Hb). Preoperatively hypoxia was correlated to the degree of the heart disease expressed by the hight of the Hb-concentration. In contrary after the correction signs of hypoxia (decreased venous oxygen saturation, increased 2,3 DPG-concentration) appeared with a low Hb as found in patients with anemia. The long term check-ups are indicative for slight cardiac residual disorders as there are hypoxic myocardial damage, residual gradients over the right ventricular outlet, reopened VSD's, and ventriculotomy scar tissue. Though the elevated 2,3-DPG-concentration and the consecutive rightward shift of the oxygen saturation curve obviously compensate these cardiac handi-caps as the excellent physical condition of the children shows.
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PMID:[Correction of tetralogy of Fallot and its influence to oxygen transport and lung changes. Part I. Oxygen transport (author's transl)]. 84 77

Among forty adults with cyanotic congenital heart disease there was a subset of eleven patients with especially pronounced erythrocytosis, repeatedly rising haematocrit, recurring symptoms of hyperviscosity, and little or no shift of the haemoglobin/oxygen-dissociation curve. These patients were iron deficient as a result of many therapeutic phlebotomies; nevertheless their red-cell mass was comparable to that in iron-replete patients with similar, but stable, haematocrits. Iron repletion in the deficient patients resulted in rapidly increasing haematocrit and hyperviscosity. In one extreme case, erythropoiesis remained persistently iron deficient despite normal serum iron and ferritin levels. "Decompensated erythrocytosis" is an apt term for the excessive erythrocytic response and the associated phenomena.
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PMID:Chronic hypoxaemia and decompensated erythrocytosis in cyanotic congenital heart disease. 287 30

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

We hypothesized that children with cyanotic congenital heart disease and moderate hypoxemia, as a result of erythrocytosis, and adequate iron stores would have low serum erythropoietin titers, low tissue oxygen delivery, and normal red cell 2,3-diphosphoglycerate (DPG) concentrations. We assessed hemoglobin levels, aortic oxygen saturation, iron stores, red cell 2,3-DPG, oxygen consumption, and systemic O2 transport in 19 hypoxemic patients, aged 3 months to 8 years. Low erythropoietin titers (less than 30 mU/dl) were found in 14 patients. Patients with high erythropoietin titers had lower Pao2 (36 +/- 7 vs 49 +/- 7 mm Hg, p less than 0.01), lower aortic saturation (68 +/- 12 vs 81 +/- 9%, p less than 0.01), and higher red cell 2,3-DPG (2.47 +/- 0.34 vs 3.23 +/- 0.73 mumol/ml, p less than 0.01). Aortic oxygen saturation higher than 80% was associated with a low erythropoietin titer and a hemoglobin level below that associated with hyperviscosity. The relationship between aortic oxygen saturation and hemoglobin concentration was strong (r = 0.77). These data suggest that for children less than 8 years of age, adequate compensation for moderate hypoxemia can occur with moderate increases in hemoglobin levels.
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PMID:Erythropoietin in cyanotic heart disease. 339 15

Blood from patients with erythrocytosis secondary to arterial hypoxemia due either to congenital heart disease or to chronic obstructive pulmonary disease was shown to have a decreased affinity for oxygen; the average oxygen pressure required to produce 50% saturation of hemoglobin with oxygen was 29.8 mm Hg (average normal, 26.3 mm Hg). Such a displacement of the blood oxygen equilibrium curve promotes the release of oxygen from blood to the tissues. Studies were also performed upon blood from a man with complete erythrocyte aplasia who received all of his red cells by transfusion from presumably normal persons. With mild anemia (hematocrit, 28%), the affinity of his blood for oxygen was slightly diminished (an oxygen pressure of 27.0 mm Hg was required to produce 50% saturation of hemoglobin with oxygen). With severe anemia (hematocrit, 13.5%), however, his blood had a markedly decreased oxygen affinity (an oxygen pressure of 29.6 mm Hg was required to produce 50% saturation of hemoglobin with oxygen). We conclude that patients with various conditions characterized by an impairment in the oxygen supply system to tissues respond with a diminished affinity of their blood for oxygen. Although the mechanism which brings about this adaptation is not known, the displacement of the oxygen equilibrium curve is associated with an increase in heme-heme interaction. The decrease in blood oxygen affinity need not occur during erythropoiesis, but may be imposed upon mature circulating red cells.
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PMID:Improved oxygen release: an adaptation of mature red cells to hypoxia. 566 14

A case with symptomatic erythrocytosis in a female patient with ductus Botalli persistens is described, diagnosed and treated as erythremia vera. The heart disease advanced with no manifestations, with no complaints until the age of 30, whereon it was manifested with certain complaints and objective findings. The inadequate and difficult assessment of some of the clinical, hematological and other data as X-ray of the heart and ECG, contributed to the improper diagnosis. The patient died at the age of 54.
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PMID:[Diagnostic difficulties in symptomatic erythrocytosis developing in congenital heart defects]. 724 21

We developed a low-cost, nonsurgical small animal model simulating the condition of cyanotic heart disease. Six groups of New Zealand white rabbits were studied: Group (1-C), 1-week-old control rabbits (n = 9) reared in room air; Group (1-H), 1-week-old rabbits placed in a hypoxic environment (10% O2) at birth (n = 5); Group (1-H-3), 1-week-old rabbits (n = 11) reared in room air for 3 days and then placed under hypoxic conditions identical to those for Group (1-C); Group (4-C), 4-week-old control rabbits (n = 12); Group (4-H), 4-week-old rabbits placed in hypoxia since birth (n = 11); Group (4-H-3), 4-week-old rabbits kept in room air after birth for 3 days (n = 7) before being exposed to hypoxia. Animals were anesthetized, heparinized, and instrumented for measurement of hemodynamic parameters. Right ventricular (RV) hypertrophy and hematocrit were assessed. Lung tissue was analyzed using quantitative morphometric techniques to assess arterial size, number, and muscularity. Group (1-H) and Group (4-H) developed RV hypertrophy, pulmonary hypertension, and erythrocytosis. The RV hypertrophy developed rapidly, as early as 1 week of age and became so pronounced by 4 weeks as to result in high mortality rate (35%). None of the animals in Groups (1-H-3) or (4-H-3) died while chronic changes of hypoxemia still developed. Placing rabbits after birth in room air for 3 days before exposing them to hypoxia appeared to play a protective role, moderating the development of pulmonary hypertension and severe RV hypertrophy. The effects of hypoxia appear to be at least partially dependent on the time of exposure. Utilizing our low-cost model will allow future work, including study of the effects of chronic hypoxemia on systemic ventricle exposed to an ischemic insult.
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PMID:Effect of early versus delayed hypoxic environment on neonatal rabbits. 802 33

Pregnancy carries substantial maternal and fetal risks in patients with uncorrected or palliatively corrected cyanotic congenital heart disease (CHD). In tricuspid valve Ebstein's anomaly, pregnancy is well tolerated. Maternal mortality in tetralogy of Fallot seems to be less than 10%, but it exceeds 50% in Eisenmenger's syndrome and primary pulmonary hypertension (PPH). Maternal hematocrit greater than 60%, arterial oxygen saturation lower than 80%, right ventricular hypertension, and syncopal episodes are poor prognostic signs. Maternal risk could be reduced by vaginal delivery. Continuous monitoring of arterial and central venous pressure, electrocardiography, and pulse oximetry are recommended for every anesthetic procedure. The use of a pulmonary artery catheter is controversial and probably should be avoided in parturients with cyanotic CHD or PPH. The choice of anesthetic technique and drugs per se is of secondary importance and should be governed by individual preferences. Titration of anesthetic drugs, general anesthesia with controlled ventilation, or, preferably, regional anesthesia with spontaneous breathing should be used cautiously to avoid worsening of the preexisting condition. Prevention of excessive erythrocytosis, volume and blood loss substitution, cardiocirculatory pharmacologic support, prophylaxis of infective endocarditis, and judicious use of anticoagulant drugs should be applied as indicated by the type and presentation of CHD. Poor outcome of pregnancy in PPH requires an early consideration of heart-lung or lung transplantation. Multidisciplinary team effort and prolonged monitoring in the intensive care unit are mandatory to ensure a favorable outcome for cyanotic CHD and PPH parturients.
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PMID:Cyanotic congenital heart disease and pregnancy: natural selection, pulmonary hypertension, and anesthesia. 837 15

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

For this article, the literature on the pathophysiology, clinical features, natural history, prognosis, and management of the Eisenmenger syndrome in adults was reviewed. English-language articles from 1966 to the present were identified through a search of the MEDLINE database by using the terms Eisenmenger, congenital heart disease, and pulmonary hypertension. Selected cross-referenced articles were also included. Articles on the pathophysiology, clinical presentation, evaluation, natural history, complications, and treatment of the Eisenmenger syndrome in adults were selected, and descriptive and analytical data relevant to the practicing physician were manually extracted. The Eisenmenger syndrome is characterized by elevated pulmonary vascular resistance and right-to-left shunting of blood through a systemic-to-pulmonary circulation connection. Most patients with the syndrome survive for 20 to 30 years. The hemostatic changes associated with the syndrome may lead to thromboembolic events, cerebrovascular complications, or the hyperviscosity syndrome. Erythrocytosis is present in most patients, but excessive phlebotomy may cause microcytosis and exacerbate the symptoms of hyperviscosity. Other complications associated with the Eisenmenger syndrome include hemoptysis, gout, cholelithiasis, hypertrophic osteoarthropathy, and decreased renal function. Pregnancy or noncardiac surgery is associated with a high mortality rate in patients with the Eisenmenger syndrome. Because most pediatric patients with the Eisenmenger syndrome survive to adulthood, primary care physicians should have a thorough understanding of the syndrome; its associated complications; and medical and surgical management, especially with regard to the appropriate timing of phlebotomy and lung or heart-lung transplantation. In addition, patients with the syndrome should undergo routine follow-up at a tertiary care center that has physicians and nurses with special expertise in congenital heart disease. In patients with the Eisenmenger syndrome who are pregnant or require noncardiac surgery, a multidisciplinary approach should be used to reduce the excessive mortality associated with these conditions.
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PMID:The Eisenmenger syndrome in adults. 955 69


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