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:C0035078 (renal failure)
31,970 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Epoetin alfa is a recombinant form of the principal hormone responsible for erythrogenesis, erythropoietin. Already an established treatment for anaemia associated with renal failure, epoetin alfa may also be used to correct anaemia in other patient groups. The drug increases the capacity for autologous blood donation in patients scheduled to undergo surgery and attenuates the decrease in haematocrit often seen in untreated autologous donors. However, transfusion requirements did not significantly decrease in many trials. Epoetin alfa also accelerates red blood cell recovery after allogeneic--but not autologous--bone marrow transplant. Limited data in patients with adult rheumatoid arthritis suggest that while epoetin alfa increases haematocrit/haemoglobin levels, overall clinical rheumatological status may not improve. However, the drug did improve quality of life in a small cohort of children with juvenile rheumatoid arthritis in addition to correcting anaemia. Response rates to treatment with epoetin alfa in patients with anaemia associated with cancer range between 32 and 85%. Anaemia associated with cancer chemotherapy also responds well to treatment with the drug as does anaemia associated with zidovudine therapy in patients with acquired immune deficiency syndrome (AIDS). Studies evaluating the use of epoetin alfa as treatment for anaemia of prematurity have used different methodologies and dosages, making overall analysis difficult. Nevertheless, it appears that high dosages are necessary for response. Results from 1 study suggest that treatment with epoetin alfa appears to be more costly than transfusional support in this application; the relevance of this finding is questionable, however, given that the aim of treatment with epoetin alfa is elimination of transfusion requirements. The incidence of many adverse events associated with epoetin alfa treatment in patients with renal failure (hypertension, seizures and thromboembolic events) has been minimal in patients without renal failure. Adverse events occurred at a similar rate in placebo and epoetin alfa recipients in placebo-controlled trials evaluating the use of the drug as treatment for anaemia in patients with cancer receiving chemotherapy or patients with AIDS receiving zidovudine. In summary, epoetin alfa is an effective alternative to blood transfusion, reducing anaemia and producing consequent improvements in quality of life in many nonrenal applications. It was more effective than placebo in a number of double-blind trials and may be particularly useful as treatment for anaemia associated with other drugs such as cisplatin and zidovudine.
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PMID:Epoetin alfa. A review of its pharmacodynamic and pharmacokinetic properties and therapeutic use in nonrenal applications. 772 31

Erythropoietin (Epo) is a glycoprotein hormone responsible for the control of the proliferation and differentiation of cells of erythroid lineage. Recombinant erythropoietin (rHuEpo) is widely used as a pharmacological agent for the treatment of the anaemia of renal failure. Efficacy of rHuEpo and its superiority over blood transfusions have been proven in large multicentre trials. The most important side-effect of the therapy is the increase of BP which is observed in approximately 30-35% of dialysis patients receiving rHuEpo. It appears that the haemodynamic resetting that occurs with partial correction of anaemia may be inappropriate resulting in an altered vascular resistance in relation to the cardiac output. This is in turn due to the combination of increased blood viscosity and loss of hypoxic vasodilatation. Both these factors, however, cannot account completely for the rise in vascular resistance, and therefore the possibility of a direct and/or hormonally-mediated vasopressor effect of rHuEpo has recently been raised. Moreover, scarce information exists on the possible involvement of endogenous erythropoietin in the pathogenesis of arterial hypertension and haematological disturbances observed in primary and some secondary forms of hypertension.
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PMID:Erythropoietin and hypertension. 775 79

Epoetin (recombinant human erythropoietin) is now a widely available though expensive treatment for the anaemia of chronic renal failure, and is effective in more than 95% of patients. Complications of epoetin in this context include hypertension in a third of cases, including hypertensive encephalopathy in a few, and thrombosis of shunts or vascular access devices. Fears that epoetin would cause progression of renal failure have not generally been confirmed, but hyperkalaemia may be a problem in the initial phase of treatment. Epoetin is up to twice as effective when administered subcutaneously rather than intravenously. Responding patients will normally do so within 3 months of starting epoetin. Failures to respond are usually due to iron deficiency or intercurrent disease. Other diseases associated with anaemia and an inappropriately low serum epoetin level include prematurity, the anaemia of cancer and rheumatoid arthritis. The baseline serum endogenous erythropoietin may provide a guide to response in some of these cases. Some encouraging results are being published. Situations where the serum erythropoietin levels are normal or elevated where epoetin has been employed include boosting of haematocrit presurgery as an adjunct to autologous blood donation, treatment of anaemic patients with myelodysplastic syndromes, and improvement of athletic performances.
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PMID:Controversies in selection of epoetin dosages. Issues and answers. 778 87

In 16 patients (9 on azathioprine, 7 not) the ineffective iron turnover (IIT) was much higher in the azathioprine group (62.7 +/- 6.7 vs. 23.5 +/- 3.5 mumol/l blood/day, p < 0.0001, 2-tailed t test), though the red cell iron turnover (RCIT) was similar (42.8 +/- 2.9 vs. 41 +/- 4.8). Erythropoietin improved the anaemia in all patients and raised the RCIT (4 still on azathioprine to 72.2 +/- 9.8, p < 0.003; 7 non-azathioprine patients to 62.7 +/- 5.3, p < 0.01); the IIT remained higher in the azathioprine-treated (85.5 +/- 19.3 vs. 37.1 +/- 5.4; p < 0.013). In 2 patients who discontinued azathioprine, the IIT declined markedly to normal. In summary, azathioprine exacerbates the anaemia of renal failure by augmenting ineffective erythropoiesis, while erythropoietin benefits those on azathioprine as much as other renal patients by stimulating both effective and ineffective erythropoiesis.
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PMID:Influence of azathioprine on the ferrokinetics of patients with renal failure before and after treatment with erythropoietin. 793 18

We determined in a prospective study reticulocyte counts and serum erythropoietin concentrations after renal transplantation in 37 recipients of renal allografts. Erythropoietin decreased in 35 patients out of 37 during surgery. Results concerning reticulocyte counts allowed us to define two groups of patients. Group 1: 33 patients had a reticulocyte peak before d29. Among them the reticulocyte peak followed the first Epo peak in 22 patients (1a) and occurred after several Epo peaks in 11 patients (1b). Patients of groups 1b had a serum creatinine level above 300 mumol/l at the time of the first Epo peak. Group 2: 4 patients with acute tubular necrosis had no reticulocytes peak before d29 despite one or several erythropoietin peaks. Post-operative erythropoietin reduction was not entirely explained by hemodilution or by per-operative blood transfusions. The erythropoietin peak appeared to be efficient only when creatinine at the time of the peak was under 200 mumol/l according to the inhibition of erythropoiesis during renal failure.
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PMID:Reticulocyte response to endogenous erythropoietin after renal transplantation. 794 38

Erythropoietin has been shown to be effective both in the reversal of anaemia in patients with end-stage renal failure and to increase the volume of autologous red blood cells donated preoperatively as well as to decrease the units of homologous blood transfused. This review analyzes the side effects of erythropoietin reported in the literature for long-term administration (mainly in patients with end-stage renal failure) as well as for acute/short-term administration (in patients participating in an autologous predeposit programme). The most important adverse events reported for long-term administration are as follows: (a) arterial hypertension; (b) cerebral convulsion/hypertensive encephalopathy; (c) thrombo-embolism; (d) iron deficiency; (e) influenza-like syndrome. The numbers given for these side effects are mainly taken from the first and dose-finding studies in patients with renal failure. These figures differ very much from the data given in controlled studies analyzing adverse events as well. Summarizing the results from controlled, multi-center trials in patients with end-stage renal failure or in AIDS patients, no significant differences have been observed between the control group and the patients treated with erythropoietin. The overall-incidence of side effects occurring in either group of these two studies was of approximately 83% and 95%, respectively. In contrast to these results the data published for the dose finding/treatment studies is approximately 30% for development of arterial hypertension, approximately 5% for occurrence of cerebral convulsion/hypertensive encephalopathy, approximately 10% for thrombo-embolic complications/clotting of vascular access, approximately 50% for development of iron deficiency, and approximately 10% for symptoms summarized as influenza-like syndrome.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Adverse events of erythropoietin in long-term and in acute/short-term treatment. 795 Jan 71

Erythropoietin is the primary growth factor for red blood cells. A glycoprotein hormone synthesized by the kidneys, erythropoietin serves to increase red blood cell production in response to tissue hypoxia. It exerts its effect by increasing the numbers of erythroid progenitor cells in the bone marrow, and by increasing the rate at which their development is accomplished. With the introduction of recombinant erythropoietin in 1987, an important pharmacological agent became available for the manipulation of erythropoiesis. While used primarily for the treatment of the anemia of renal failure, recombinant erythropoietin has also shown usefulness in treating other types of anemias in which the endogenous erythropoietin response is insufficient. Perioperative use of the drug grew as a natural extension of this, and erythropoietin has been applied to correct preoperative anemia, augment autologous blood donation, and improve postoperative red cell recovery. Analysis of these perioperative clinical studies reveals success in these areas, but it also reveals that closer attention to the physiology of the natural response, and to the pharmacology of the recombinant product, might significantly improve results. Such an improvement in efficacy is both desirable and necessary when use of the drug is viewed in the setting of today's changing health care environment. By optimizing dosing schedules and targeting the drug to those most at risk for red cell transfusion, recombinant erythropoietin will likely become an important tool in efforts to achieve the elusive goal of bloodless cardiac surgery.
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PMID:Erythropoietin in cardiac surgery. 821 40

The red-cell mass is continuously adjusted to the optimal size for its function as an oxygen carrier by messages transmitted to the bone marrow from an oxygen sensor in the kidney. These messages are mediated by the hormone erythropoietin. Erythropoietin is a glycoprotein growth factor synthesized by cells adjacent to the proximal renal tubule in response to signals from a renal oxygen-sensing device, probably a heme protein (1). In the bone marrow, erythropoietin binds to and activates specific receptors on the erythroid progenitor cells (2). In the presence of this erythropoietin-receptor complex the progenitor cells continue their predestined development into mature erythrocytes. Erythropoietin was the first hemopoietic growth factor to be molecularly cloned in 1985 (3). Our understanding of the biology and physiology of erythropoietin has been considerably improved with the advent of recombinant human erythropoietin (rHuEpo). During the past 7 years, rHuEpo has undergone extensive testing in clinical trials. It has been approved for treatment of the anemia of chronic renal failure, both in progressive renal failure and endstage renal failure (ESRD). In these instances, the administration of rHuEpo has been used in effect as a substitutive therapy, since patients' erythropoietin levels are very low despite severe anemia, due to the failure of affected kidneys to produce adequate amounts of the hormone. However, the application of rHuEpo has now moved largely from the primitive indication of renal diseases, and the hormone is currently under study in a number of anemic states of different etiologies, even with relatively high serum erythropoietin levels. Among these, some of the best documented indications are the anemia associated with malignancies, either due to neoplastic bone marrow infiltration or to chemotherapy-related myelosuppression, the anemia of myelodysplastic syndromes and AIDS, the anemia of chronic inflammatory diseases, prematurity, and bone marrow transplantation (4). The purpose of this review is to provide a summary of our present knowledge regarding rHuEpo therapy for the anemia of renal failure. We provide some clues for the correct use of rHuEpo in the treatment of the anemia of chronic inflammatory diseases. In addition, we address a series of new issues in the attempt to better understand the relationship between erythropoietin and liver disease.
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PMID:Erythropoietin and the anemia of chronic diseases. 840 91

Erythropoietin (EPO) levels in plasma from 124 clinically anemic dogs were determined by in vivo bioassay. In 81 anemic dogs with normal renal function, the concentration of plasma EPO showed a close correlation with the hemoglobin concentration. The plasma EPO level was obviously decreased in 43 anemic dogs with renal failure. Of these dogs with renal failure, 17 showed no detectable plasma EPO and resulted in the death of these dogs. In the remaining 26 dogs having detectable plasma EPO, the plasma concentration rate of EPO related to blood urea nitrogen and serum creatinine values.
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PMID:Canine plasma erythropoietin levels in 124 cases of anemia. 851 11

Erythropoietin (Epo), the first growth factor to be discovered, is an endocrine hormone produced by specialized renal cells. The rate of Epo production is determined primarily by the oxygen demands of these renal cells relative to their oxygen supply. However, Epo production is modulated by various hormones, nutritional factors, cytokines, and the integrity of the erythron. Epo interacts with specific receptors found almost exclusively on erythroid progenitors. This interaction results in an expansion of the number of the erythroid progenitor and triggers late committed progenitors to undergo terminal maturation when provided with essential nutrients. Recombinant human Epo (rHuEpo) is commercially available for human use. It is safe, easily administered, and almost universally effective in treating the anemia of patients with renal failure. It has also been successful in treating the anemia of some patients with neoplasms, myelodysplastic syndromes, HIV infection, rheumatoid arthritis, and aplastic anemia. Much remains to be learned about the regulation of Epo production, the physiologic actions of Epo, and how best to use this growth factor in the treatment of anemia.
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PMID:Erythropoietin. 852 25


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