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Query: UMLS:C0162316 (
iron deficiency anemia
)
3,806
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The measurement of erythrocyte zinc protoporphyrin (ZPP) with a hematofluorometer is known to be a simple and cost-effective method to screen iron deficiency and lead poisoning. We measured ZPP on blood samples from 201 children suffering from various diseases, which revealed that ZPP has better sensitivity and specificity for identifying iron deficiency than serum ferritin and percent transferrin saturation. ZPP levels in various anemias were also measured. ZPP rose markedly (> 200 mumol/mol heme) in untreated
iron deficiency anemia
and returned to normal in 3-4 months since the initiation of iron therapy. Moderate elevation of ZPP was observed in acute leukemia (at onset and during induction therapy),
MDS
, aplastic anemia and some other anemic conditions. These findings suggest that erythrocyte ferrochelatase may be unexpectedly affected in anemias even except lead poisoning.
...
PMID:[The measurement of erythrocyte zinc protoporphyrin/heme ratio in various anemias in childhood]. 143 41
Erythrocyte basic ferritin (EF) concentration was determined in 64 normal subjects, 123 patients with anemia and 12 patients with leukopenia and thrombocytopenia. There was a significant difference between males and females. Other iron indices, including plasma iron (PI), total iron binding capacity (TIBC), zinc protoporphyrin (ZnPP) and plasma ferritin (PF) were also determined in all the subjects and bone marrow iron stain was determined in the 135 patients. The lowest EF concentration was seen in patients with
iron deficiency anemia
, being significantly lower than that in normal subjects. EF concentration in patients with iron deficiency erythropoiesis was also lower than that in normal subjects and at the same time significantly different from that in patients with
iron deficiency anemia
. EF concentration increased prior to PF concentration in patients with
iron deficiency anemia
who had been treated for a period of 1-8 weeks. EF concentration in patients with anemia of chronic diseases had a significant difference as compared with that in normal subjects and in patients with
iron deficiency anemia
, but EF concentration in those patients who were accompanied by iron deficiency was similar to that in patients with simple
iron deficiency anemia
. EF concentration in some iron overloaded patients (aplastic anemia, megaloblastic anemia,
MDS
etc.) was significantly higher than that in normal subjects. It was demonstrated that there was a good correlation between EF concentration and bone marrow sideroblastic iron in the rank correlation analysis of the iron indices in 135 patients (rs 0.893, P less than 0.01). PF concentration had the best correlation with marrow iron (rs 0.948, P less than 0.01).
...
PMID:[Evaluation of erythrocyte basic ferritin in the diagnosis of anemia]. 208
With a newly developed enzyme linked immunosorbent assay kit TOYOBO Co. in which 2 anti-EPO monoclonal antibodies were used, we assayed EPO concentration in sera from normal adults, 168 patients with renal failure and 333 patients with hematological disorders. In the patients with renal failure, serum EPO level was normal (52.9%) or reduced (42.9%), and there was no correlation to their hematocrits. However, there was an increment in EPO concentration correlated to their severity of anemia in the most patients with hematological disorders, such as
iron deficiency anemia
(correlation coefficient r = -0.74), aplastic anemia (r = -0.89), leukemia (r = -0.81), and
MDS
(r = -0.65). On the other hand, EPO concentration in sera from all the untreated patients with polycythemia vera were significantly low level. But the concentrations of EPO from the patients successfully treated, with normal hematocrit were recovered to normal level. In the patients with secondary polycythemia, there were much varieties in EPO level. Assay of EPO in blood is important not only for diagnosis of polycythemia but also for the analysis of anemia and clinical use of EPO in vivo. The method described here is accurate and technically not complicated, and could be widely induced in most laboratories.
...
PMID:[Assay of erythropoietin in serum with short term enzyme linked immunosorbent assay method--the clinical significance, Part 1: Relation to anemia in renal failure and hematological disorders]. 834 55
With a newly developed short term enzyme linked immunosorbent assay kit (TOYOBO Co.), in which 2 kinds of anti-EPO monoclonal antibodies were used, we assayed EPO concentration in sera from patients with renal failure and hematological disorders. In this report, the EPO data were analysed in relation to serum iron concentrations, with ferritin and UIBC. In the patients with renal failure, there was no significant correlation between EPO concentration and serum iron, ferritin, nor UIBC concentration. On the other hand, in the patients with hematological disorders, there were two types. One was in patients with
iron deficiency anemia
, whose serum EPO was negatively correlated to serum iron (r = -0.64) and ferritin (r = -0.59), but positively related to UIBC (r = 0.27). The another was the pattern in patients with aplastic anemia, leukemia and
MDS
, whose serum EPO positively correlated to iron and ferritin but negatively correlated to UIBC. In the patients with aplastic anemia serum EPO had good correlation to serum iron (r = 0.62), ferritin (r = 0.60) and UIBC (r = -0.46). The relationship of EPO to iron in the patients with leukemia (r = 0.54), and EPO to ferritin in the patients with
MDS
(r = 0.42) show significantly positive correlation coefficient.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:[Assay of erythropoietin in serum with short term enzyme linked immunosorbent assay method--the clinical significance: Part 2--:Relation to serum iron, UIBC and ferritin in renal failure and hematological disorders]. 835 May 9
Immunoreactive serum erythropoietin (EPO) was measured in anemic and non-anemic patients with acquired non-severe aplastic anemia (AA; n = 22) and myelodysplastic syndromes (
MDS
; n = 31) receiving or not androgens to examine the effect of androgen therapy and anemia on EPO levels in these disorders. Soluble transferrin receptor (TfR) and absolute reticulocyte count (ARC) were also assayed in order to evaluate erythropoietic activity. AA and
MDS
patients were stratified for anemia and androgen treatment as follows: 12 untreated anemic patients; 17 anemic patients during androgen therapy; 14 non-anemic patients without any treatment (> 1 year); and 10 non-anemic patients on androgen therapy. Although EPO levels in non-anemic patients were significantly higher than in healthy controls (n = 29) no statistically significant differences in Hb and EPO values were found between non-anemic patients receiving or not androgen therapy. In the linear regression analysis between Hb and log EPO concentration, no statistically significant differences in the slopes between untreated and androgen-treated anemic groups nor between both groups and patients with
iron deficiency anemia
(n = 23) were observed. However, the y intercept (log EPO) of regression line was significantly higher in androgen-treated anemic patients than in the androgen therapy-free anemic group. Serum TfR levels were higher in treated than in untreated anemic patients, whereas ARC was not different between both groups. These data seemingly indicate that (1) androgens at pharmacological doses do not increase serum EPO levels in non-anemic AA and
MDS
patients, and (2) in patients with AA and
MDS
, androgen-driven EPO stimulation is appreciably enhanced by anemia.
...
PMID:Effect of androgen therapy and anemia on serum erythropoietin levels in patients with aplastic anemia and myelodysplastic syndromes. 946 42
