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Query: UMLS:C0240066 (
iron deficiency
)
7,156
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Nursing management of anemic dialysis patients requires a thorough understanding of the conditions that can potentially affect erythropoiesis. Erythropoietin deficiency has been documented as the primary cause of the anemia of uremia, and
Epoetin alfa
has proven to be an effective therapy for correcting this condition. However, other etiologies, independent of the uremic process, can also contribute to anemia in these patients and lead to a diminished response to
Epoetin alfa
.
Iron deficiency
and blood loss, for example, are well-documented etiologies that can hinder erythropoiesis and diminish the response to
Epoetin alfa
(Van Wyck, 1989). Another etiology still under investigation is the potential effect of infection or inflammation on the response to
Epoetin alfa
. This article examines the anemia of infection and inflammation and the potential effect on response to
Epoetin alfa
.
...
PMID:Case management of the anemic patient. Epoetin alfa: focus on inflammation and infection. 225 31
The characteristics and uses of epoetin alfa (recombinant human erythropoietin) are described, and the issues associated with its use are discussed. The use of epoetin alfa was recently approved by FDA for the treatment of anemia associated with end-stage renal disease.
Epoetin alfa
acts on burst-forming and colony-stimulating units in the blood to raise hemoglobin and hematocrit levels, thus correcting the patient's anemia. It has a relatively short half-life and may be given either i.v. or s.c. Doses vary and must be adjusted according to the individual patient response. Clinical trials have involved doses ranging from 15 to 500 units/kg three times per week. Treatment causes a dose-related rise in the hematocrit, with subsequent improvement in the quality of life of dialysis patients. Adverse effects include hypertension,
iron deficiency
, and thrombocytosis. Additional research indicates that epoetin alfa may be effective in the correction of other uncomplicated anemias, such as those related to antineoplastic therapy. Issues facing hospital pharmacists and other health-care professionals include cost (the estimated cost of therapy is $4000 to $8000 per patient per year), appropriate use and potential misuse, use and reimbursement for indications not included in FDA-approved labeling, and restriction to particular prescribers. Because epoetin alfa does not produce therapeutic effects for at least 7 to 14 days, it is an ideal agent for formulary restriction.
Epoetin alfa
, like other products of biotechnology, will have substantial impact, both therapeutic and economic, on the practice of pharmacy. Hospital pharmacists need to be aware of these new therapies so that they may act quickly and decisively when issues associated with their use arise.
...
PMID:Recombinant human erythropoietin. 269 Jun 6
In the course of regular dialyzation treatment very frequently
iron deficiency
develops. The objective of the work was to evaluate the participation of sideropenia in the development of the hypoproliferative component of anaemia and to evaluate the effectiveness of oral iron administration in a group of 24 dialyzed patients whose serum ferritin concentration was lower than 100 micrograms/l. Administration of 105 mg elemental iron per day (1 tablet of Ferronat retard, Spofa) for a period of 6 months led in 17 patients (71%) to a statistically significant increase of erythrocytes, serum ferritin, the iron plasma level and transferrin saturation. In these patients the mean haemoglobin value increased from 65 +/- 6 milligrams to 105 +/- 17 milligrams (increase by 40 milligrams), the mean number of red cells increased from 2.6 +/- 0.4 x 10(12)/l to 3.5 +/- 0.7 x 10(12)/l (increase by 0.9 x 10(12)/l) and the mean haematocrit increased from the initial value of 0.21 +/- 0.02 to 0.31 +/- 0.05 (increase by 0.10). In seven patients (29%) after oral substitution of
iron deficiency
no significant rise of any of the investigated indicators was observed. Four subjects of this group responded by a rise of red blood cells to intravenous iron administration and in the remaining three patients anaemia was favourably influenced by administration of recombinant erythropoietin (
Eprex
, Cilag). The results of the investigation provide conclusive evidence that
iron deficiency
plays a very important part in the development of anaemia in hemodialyzed patients. Substitution treatment with iron preparations extends the opportunities to treat anaemia during regular dialyzation treatment and is at the same time also very important from the economical aspect as it makes more expedient selection of patients suited for recombinant erythropoietin treatment possible.
...
PMID:[The role of iron deficiency on the development of anemia in patients on regular dialysis therapy]. 807 46
Red blood cell formation relies on the contributions of a variety of substances, including iron, vitamins, and protein. Therapeutic intervention with
Epoetin alfa
changes the requirements for these erythropoietic ingredients, frequently necessitating modifications in nutritional prescriptions. Nursing knowledge and management of the nutritional components that affect erythropoiesis can help ensure optimal patient response to therapy. Case study illustrations of
iron deficiency
and potassium excess are used to demonstrate potential nursing interventions.
...
PMID:Epoetin alfa--focus on nutritional therapy. Case study of the anemic patient. 890 Jun 89
Approximately 50% of cancer patients develop anemia. In the past, the only available treatment option for these patients was transfusion. Since the late 1980s, recombinant human erythropoietin (rHuEPO, epoetin alfa [
Epogen
,
Procrit
]) has provided a treatment alternative. Controlled clinical trials have shown that rHuEPO increases hemoglobin and hematocrit levels and reduces the need for transfusions in patients with cancer-related anemia. These controlled trials have suggested (as larger, uncontrolled studies) that the improvements in hemoglobin are associated with increases in energy level, functional status, and overall quality of life. However, only about 50% of patients respond adequately to usual doses of rHuEPO. In the chronic renal failure population, functional
iron deficiency
is the most common cause of inadequate response to rHuEPO. It has been hypothesized that functional
iron deficiency
may also occur in cancer patients receiving rHuEPO and may account for the lack of response in up to half of those patients. Studies in renal failure patients have shown that administration of intravenous iron can correct functional
iron deficiency
more effectively than oral iron and may improve response to rHuEPO. Intravenous iron also reduces the total amount of rHuEPO needed to normalize hematocrit and hemoglobin levels, thereby reducing treatment costs. Ongoing clinical trials are evaluating whether IV iron can also improve rHuEPO responsiveness in patients with cancer-related anemia.
...
PMID:Role of iron in optimizing responses of anemic cancer patients to erythropoietin. 1023
Anemia in cancer patients undergoing treatment is common and can cause debilitating symptoms such as fatigue and reduced exercise tolerance. The introduction of recombinant human erythropoietin represents a potential improvement in the treatment of this condition. Clinical studies in patients with solid tumors and nonmyeloid hematologic malignancies have convincingly shown an improvement in mean hemoglobin concentration, a reduction in transfusion requirement along with an improvement in quality of life scores, although an effect on survival is less clear. In myeloid disorders such as myelodysplasia, response to single-agent recombinant human erythropoietin is disappointing but significant synergism with granulocyte colony stimulating factor has been demonstrated and different dosing regimens may also improve response. Unfortunately, a significant proportion of patients remain refractory to treatment. Efforts have been made to identify treatable causes of erythropoietin refractoriness, such as functional
iron deficiency
, and concomitant intravenous iron supplementation does appear to improve response rates. The search for pretreatment factors that predict response has been largely disappointing, although a promising model for myelodysplasia has been developed that awaits large-scale evaluation. Recombinant human erythropoietin is well tolerated, although there were concerns in the late 1990s due to a rising incidence of pure red cell aplasia in chronic renal failure patients treated with subcutaneous
Eprex
(Ortho Biologics) in Europe. Since potentially contributory manufacturing processes have been identified and corrected, the incidence of this complication has been falling.
...
PMID:Epoetin alfa: basic biology and clinical utility in cancer patients. 1633 85
Iron deficiency
is a frequent complication in chronically ill patients and in pregnant women. Iron status can now be characterised precisely and relatively easily by determining serum ferritin, transferritin saturation and if necessary hypochromic erythrocytes and the haemoglobin content of erythrocytes (CHr). Oral iron replacement is usually restricted by limited absorption and low tolerability. Intravenous iron therapy is possible in such cases and can be combined with rHuEPO (e.g. EPREX/
Epoetin alfa
) in severe cases. Iron saccharate Switzerland and this permits high dose iron replacement without any danger of anaphylaxis or acute iron toxicity.
...
PMID:[The iron letter--an update on the treatment of iron deficiency anemia]. 1655 Jul 9
Patients with cancer may have an absolute or functional
iron deficiency
as a result of their disease or its treatment. These conditions can lead to an insufficient supply of iron for incorporation into erythrocytes during supportive care with erythropoiesis-stimulating proteins for chemotherapy. The use of supplemental iron therapy is well established in patients with chronic kidney disease and anemia, but less well studied in the oncology/hematology setting. Furthermore, the use of oral iron formulations in patients with cancer and anemia is limited by poor absorption in the duodenum, arduous dosing requirements (three times a day), and a high likelihood of gastrointestinal side effects. Two recent studies have shown that intravenous (i.v.) iron (iron dextran or ferric gluconate) increases the hematopoietic response rates in cancer patients who were receiving chemotherapy and treated with epoetin alfa (
Procrit
) for anemia. The effects on hemoglobin levels and measures of iron metabolism were notably greater with i.v. iron formulations than with oral iron formulations. The results from several ongoing trials of i.v. iron in patients treated with epoetin alfa or darbepoetin alfa (Aranesp) for chemotherapy-induced anemia should lead to a greater understanding of the role of i.v. iron supplementation in improving the hematopoietic responses in these patients.
...
PMID:The role of intravenous iron in cancer-related anemia. 1692 7
French and international clinical practice guidelines recommend a minimum hemoglobin level of 11 g/dl in patients with chronic kidney disease. Previous studies implemented between 1996 and 2003 showed that only 35 to 55% the patients reach this target. Dialysis
NeoRecormon
Epidemiology (DiaNE) is a one-year French multicentric observational study designed to follow a cohort of 1200 patients with ESRD treated with epoetin beta to assess the management of anemia in routine nephrologic practice. From December 2003 to September 2004, 1241 hemodialysis patients were recruited by 229 centers. At baseline, 64.4% of patients had hemoglobin levels greater than 11 g/dl. The proportion of patients with hemoglobin levels greater than 11 g/dl at the end of the study was 71.6%. These results could be partly explained by
iron deficiency
: 46% of patients had a serum ferritin between 200 and 500 microg/l and about one third of patients had a transferrin-iron saturation percentage greater or equal to 30% at baseline and at the end of the study. Epoetin beta was administrated by subcutaneous route in 65.5% of patients with similar efficacy and with less mean doses than intravenous route (114.6+/-81.5 IU/kg versus 146.5+/-124.3 IU/kg at the end of the study). In conclusion, the management of anemia in hemodialysis patients is not optimal but is slightly better than the management observed between 1996 and 2003. Iron and inflammatory status should be taken into account to improve the efficacy of anemia therapy using erythropoietin-stimulating agents.
...
PMID:[Is the management of anemia in hemodialysis patients improving in France? Results of the DiaNE study]. 1904 75
