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

Two patients with long-standing nephrotic syndrome are described in whom urinary iron losses may have contributed towards an iron deficiency state. Seven other nephrotic patients were also studied. Increased urinary iron excretion was found in six out of nine patients and increased urinary copper excretion in all eight patients in whom it was measured. Trace metal losses in the urine in nephrotics may be important clinically.
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PMID:Urinary iron loss in the nephrotic syndrome--an unusual cause of iron deficiency with a note on urinary copper losses. 670 43

A 62-year-old woman presented with nephrotic syndrome and severe anemia although the renal function was not impaired. Renal biopsy revealed the histology of membranoproliferative glomerulonephritis, and the proteinuria was resistant to steroid therapy. Iron deficiency, bleeding and other causes of anemia were ruled out, however, her serum erythropoietin level was inappropriately low. The anemia was rapidly corrected by administration of recombinant human erythropoietin. It is suggested that inappropriately low erythropoietin level, in part at least, accounts for the anemia in nephrotic syndrome. It is proposed that erythropoietin therapy should be taken into consideration for severe anemia in nephrotic syndrome even when the renal function is not impaired.
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PMID:Successful erythropoietin treatment for severe anemia in nephrotic syndrome without renal dysfunction. 893 89

Anemia in persistent nephrotic syndrome (NS) has been described in a few case reports but has not been studied systematically. We present a group of 19 children with NS who developed anemia before the deterioration of kidney function. The aim of our study is to determine whether erythropoietin (EPO) and/or iron deficiency are causative factors and to evaluate the effect of EPO replacement therapy. Serum EPO levels, iron status, and vitamin B(12) concentrations were measured in nephrotic patients with anemia (NS-A) and compared with those of nephrotic children with normal hemoglobin (Hb) levels (NS-NHb; n = 13). Two control groups consisted of age-matched patients without kidney disease or hypoxemia with either iron deficiency anemia (IDA; n = 19) or normal Hb concentrations (NHb; n = 16). Most NS-A patients experienced persistent steroid-resistant NS, whereas most NS-NHb children had steroid-responsive NS. Although serum iron, ferritin, and B(12) levels were significantly lower in NS-A children, appropriate replacement therapy that resulted in normalization of ferritin and/or cobalamin levels did not lead to correction of the anemia. NS-A patients had greater EPO levels than those without anemia (21.6 +/- 3.3 versus 5.5 +/- 0.8 IU/L; P: < 0.001), but their response to anemia was inappropriately low compared with IDA children (EPO, 94.6 +/- 15.1 IU/L) despite similar Hb concentrations. EPO therapy for 4 to 9 months in 6 NS-A children with Hb levels less than 9 g/dL led to resolution of the anemia. In conclusion, anemia is a common feature of persistent NS that develops before the deterioration of kidney function. Depletion of iron stores may contribute to the development of anemia, but iron replacement therapy is ineffective. Nephrotic patients have EPO deficiency with a blunted response to anemia. The EPO deficiency is amenable to EPO therapy, which is recommended for this group of patients.
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PMID:Erythropoietin deficiency causes anemia in nephrotic children with normal kidney function. 1127 73

The urinary loss of transferrin is sufficient to reduce plasma transferrin concentrations in the nephrotic syndrome. Hypotransferrinemia may lead to iron loss and microcytic anemia. The mechanism responsible for the hypotransferrinemia in the nephrotic syndrome is, however, unknown. In the present study, synthesis rate of transferrin was measured in vivo in nephrotic patients (n = 7) compared with control subjects (n = 6) using L-[1-(13)C]-valine. Plasma transferrin and iron concentration in the patients were significantly lower than in control subjects (transferrin, 1.39 +/- 0.08 versus 2.57 +/- 0.11 g/L, P < 0.0001; iron, 10.2 +/- 0.8 versus 21.1 +/- 4.5 micromol/L, P = 0.02). Furthermore, albuminuria correlated with transferrinuria (r(2) = 0.901, P = 0.001). The absolute synthesis rate of transferrin was increased in the patients (10.0 +/- 1.1 versus 7.4 +/- 0.7 mg/kg per d, P = 0.07), although this value failed to achieve significance. C-reactive protein, plasma iron, and proteinuria did not correlate with transferrin synthesis. In contrast, transferrin synthesis correlated with albumin synthesis (r(2) = 0.648, P = 0.03; n = 7). The present study indicates that increased transferrin synthesis occurs in nephrotic patients but is insufficient to compensate for urinary losses. Because, overall, no significant relationship was found between transferrin synthesis and either C-reactive protein or iron, it is unlikely that inflammation suppresses or that iron deficiency stimulates increased transferrin synthesis in these patients. The correlation between transferrin synthesis and albumin synthesis suggests that transferrin synthesis is a component of a general response in hepatic protein synthesis in the nephrotic syndrome. This suggests that a therapeutic approach to maximize plasma transferrin concentrations in nephrotic patients should be aimed primarily at reducing urinary protein excretion.
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PMID:Transferrin synthesis is increased in nephrotic patients insufficiently to replace urinary losses. 1131 61

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