UMLS:C0036572 - FACTA Search

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Query: UMLS:C0036572 (seizures)
80,221 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The Canadian Erythropoietin Study Group conducted a randomized, placebo-controlled trial to examine the effect of human recombinant erythropoietin on the treatment of anemia in 118 hemodialysis patients. The effectiveness of therapy on hemoglobin concentration and quality of life has been reported elsewhere. Herein is reported the effect of erythropoietin therapy on blood pressure. Patients receiving erythropoietin had a significant increase in diastolic blood pressure (DBP; p = 0.001) and required increased antihypertensive medication. There was no difference in the incidence of severe hypertension (DBP greater than 110 mm Hg or hypertension-related seizure) between placebo-treated patients (13%) and those receiving erythropoietin (14%). The development of severe hypertension in erythropoietin-treated patients was associated with a history of receiving antihypertensive medication or having native kidneys in situ. In the first 5 weeks of the study, there was a correlation between the change in hemoglobin concentration and the change in DBP (r = 0.42, p less than 0.001). Although erythropoietin therapy was associated with a significant increase in DBP, there was no difference between placebo- and erythropoietin-treated patients with respect to severe hypertension or hypertension-related seizures.
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PMID:Effect of recombinant human erythropoietin therapy on blood pressure in hemodialysis patients. Canadian Erythropoietin Study Group. 204 74

Extensive testing has proven that recombinant human erythropoietin (r-HuEPO; EPOGEN [epoetin alfa], AMGEN Inc, Thousand Oaks, CA) corrects the anemia of end-stage renal disease and eliminates the need for transfusions in virtually all patients. Patients whose hematocrit levels are less than 0.30 or who are transfusion dependent are candidates for therapy. A dosage of 50 to 150 U/kg body weight intravenously three times a week produces an increase in hematocrit by approximately 0.01 to 0.02 per week. Once the hematocrit reaches 0.30 the dose is adjusted so that a target hematocrit of 0.32 to 0.38 is maintained. Eighty percent of patients need maintenance doses of r-HuEPO of less than or equal to 150 U/kg; the other 20% of patients require larger doses. Reasons for poor responses include iron deficiency, inflammation due to surgery or infection, and osteitis fibrosa. Most patients require iron supplementation to prevent functional iron deficiency. BP increased in one third of patients, and in 3% seizures occurred during the initial phase of therapy, often associated with a sudden increase in BP. This hypertension can be controlled with medication. Increased dialyzer clotting may occur, which is prevented when heparin doses are adjusted, and dialyzer solute clearances may decrease slightly. Treatment with r-HuEPO does not elicit an antibody response. The mechanism of action of r-HuEPO is identical to that of natural erythropoietin, and therefore is an appropriate therapy for the long-term management of anemia in chronic renal failure.
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PMID:Guidelines for recombinant human erythropoietin therapy. 266 49

The treatment of severe anemia related to end-stage renal disease with recombinant human erythropoietin (r-HuEPO; EPOGEN, [epoetin alfa] AMGEN Inc, Thousand Oaks, CA) has been investigated in more than 1,500 hemodialysis patients worldwide. The goal of r-HuEPO therapy is to maintain the hematocrit level at 35%, with a recommended starting dose of 150 mg/kg of body weight, administered intravenously after each dialysis three times a week for 6 to 12 weeks. Hematocrit levels should be measured at least once a week and the dose adjusted in increments or decrements of 10 mg/kg to 25 mg/kg to keep the hematocrit level between 33% and 40%. Patients receiving r-HuEPO must be normotensive. A history of seizures has been cause for exclusion from clinical trials. Patients' iron status should also be adequate at the onset of therapy, which is defined as a serum ferritin level of 100 ng/mL or more, and a transferrin saturation of more than 20%. Iron status and BP must be carefully monitored, and abnormalities corrected with iron supplementation, ultrafiltration, or antihypertensive medication. The lack of controlled studies makes determination of the actual incidence of side effects difficult, but it appears to be minimal. Possible side effects of r-HuEPO therapy include hypertension, seizures, myalgia, malaise, headache, gastrointestinal distress, and injected conjunctiva. The major benefits of r-HuEPO therapy are reduced need for transfusion and marked improvement in quality-of-life parameters.
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PMID:Who should receive recombinant human erythropoietin? 266 84

Erythropoietin, a glycoprotein, is synthesized mainly in the kidney. With the destruction of renal tissue, erythropoietin production decreases; this is a major factor in the development of anemia in patients with renal failure. For about ten years now, recombinant human erythropoietin has been available for the treatment of renal anemia. All patients with renal insufficiency, independent of their plan for future renal replacement therapy, may benefit from erythropoietin. At what extent of anemia erythropoietin therapy should be started is still discussed and is certainly dependent on the degree of the patient's impairment by his anemia. Before beginning a therapy with erythropoietin, other forms of anemia observed in patients with renal failure, i.e. mainly iron deficiency, have to be excluded. A strict monitoring of hematocrit during treatment with erythropoietin is mandatory. Hypertension, seizures and cardiovascular complications have been observed with overdosing of erythropoietin. Special emphasis of this review is therefore put on the discussion of the dynamics of the erythropoietin-red cell system.
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PMID:[Erythropoietin, a milestone in the history of nephrology]. 748 78

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

We examined the hypothesis that administering epoetin to maintain a lower target haemoglobin (Hb) results in a reduced side effect profile and a lower maintenance epoetin dose. We report a prospective study of 14 haemodialysis patients assessing epoetin dose efficiency and side effect profile of partially correcting dialysis-associated anaemia. Initial Hb was 6.2 +/- 0.6 g/dl (mean +/- 1 SD). Intravenous epoetin was commenced at 120 IU/kg/week in 3 divided doses and titrated to achieve a target Hb of 8 g/dl. Follow-up was 24 weeks. The final Hb was 8.7 +/- 0.8 g/dl. The peak epoetin dose was 196 +/- 86 IU/kg/week with a maintenance dose of 141 +/- 71 IU/kg/week. Therapy was associated with hypertension--5 patients (32%); seizures--1 patient (6%) (withdrawn from therapy), and temporary iron deficiency--4 patients (35%). Iron deficiency was corrected with oral therapy. There was 1 treatment failure. Comparable conventional regimens use 100-200 IU/kg to maintain the Hb at 10-13 g/dl and have a similar incidence of side effects. We concluded that reducing the target Hb in order to decrease epoetin requirements is not justified as it offers no benefit over conventional Hb targets in terms of dose requirements or side effects.
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PMID:Partial correction of dialysis-associated anaemia does not reduce erythropoietin dose or the incidence of side effects. 834 95

Human recombinant erythropoietin is used to treat chronic anemia in patients with end-stage renal failure. Erythropoietin causes hypertension, and hypertensive encephalopathy has been associated with its use. We describe six dialysis-dependent, chronic renal failure patients who developed hypertension, headache, and seizures while on erythropoietin. Four of the six patients had posterior white matter changes on neuroimaging. The encephalopathy was managed by prompt antihypertensive and anticonvulsant treatment and by discontinuation of erythropoietin. Hypertensive posterior leukoencephalopathy is associated with erythropoietin use.
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PMID:Erythropoietin-associated hypertensive posterior leukoencephalopathy. 971 75

Many patients with solid tumours or haematological malignancies develop anaemia, and the use of chemotherapy aggravates this condition. Red blood cell transfusions are often necessary but are associated with many risks, including immunosuppressive effects that may increase the risk of tumour recurrence. Many clinical studies have shown that epoetin (recombinant human erythropoietin) therapy can ameliorate, or even prevent, the anaemia associated with chemotherapy and cancer (including solid tumours as well as multiple myeloma or lymphoma). Response, defined as a significant (>50%) reduction in the rate of transfusions and/or a significant (>2 g/dl) elevation of haemoglobin levels, is usually observed in about 60% of the patients, irrespective of the type of standard chemotherapy given. The decrease in transfusion requirements is the major objective of epoetin therapy, because they are costly, inconvenient and are associated with potential adverse effects. Epoetin therapy also brings about substantial improvements in various indices of quality of life that are proportional to changes in haemoglobin level. However, large dosages of epoetin are generally required and about 40% of patients do not respond even to very high dosages. A number of adverse effects of epoetin therapy have been observed in patients with renal failure. The most prominent include hypertension, headaches, seizures and thrombotic events. These complications can also occur in patients with renal failure who are not receiving epoetin. Their exact incidence has been assessed in placebo-controlled studies, which have demonstrated that there is no increased risk of thrombosis or seizure with epoetin. However, it is now generally accepted that 10 to 20% of haemodialysis patients will experience an elevation of blood pressure because of epoetin and there is no doubt that a rapid elevation of blood pressure may cause generalised seizures. In other settings, including anaemia associated with cancer, very few adverse effects have been attributed to epoetin. However, close monitoring of blood pressure should be implemented in patients with hypertension. There is no evidence that epoetin stimulates tumour growth. With the dosages of epoetin currently used, there is no evidence of stem cell competition, resulting in thrombocytopenia or neutropenia, or of stem cell exhaustion, producing secondary anaemia when treatment is stopped. Epoetin is a remarkably well tolerated drug that offers significant benefits in patients with cancer.
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PMID:A risk-benefit assessment of epoetin in the management of anaemia associated with cancer. 980 42

All patients (48) followed by the chronic dialysis program on either peritoneal dialysis or incenter hemodialysis who received epoetin were included in this 1 year retrospective study. Variables evaluated included appropriateness of patient selection, drug dosage, monitoring of epoetin therapy as well as treatment outcome, incidence of side effects, cost versus reimbursement of epoetin, and need for iron supplementation. The target hematocrit of 30 to 36% was reached by 84.6% of patients. The difference between the baseline and treatment hematocrits was statistically significant (p less than 0.01). The average number of transfusions dropped significantly from 0.66 to 0.11 per patient per month (p less than 0.01) and the mean percentage of cytotoxic panel reactivity antibody was also significantly reduced (p less than 0.01) during treatment with epoetin. Serious side effects of epoetin therapy were rare, but four hemodialysis patients experienced five episodes of clotted accesses. The incidence of hypertension requiring addition or change of antihypertensive medication was 17.1%. No seizures were observed during the study period. The results of this study also revealed that more careful attention to iron status was needed during the period of data collection. A nomogram for prediction of iron need based on initial hemoglobin and ferritin levels was also studied and found to be accurate in 87.5% of patients.
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PMID:Drug usage evaluation of epoetin in chronic renal failure. 1012 21

Target hematocrit/hemoglobin values in dialysis patients are still controversial. The Spanish Cooperative Renal Patients Quality of Life Study Group (including 34 hemodialysis units) conducted a prospective, 6-mo study of the effect on patient functional status and quality of life of using epoetin to achieve normal hematocrit in hemodialysis patients with anemia. The possible adverse effects of increased hematocrit, patient hospitalization, and epoetin requirements were also studied. The study included 156 patients (age range, 18 to 65 yr). Given the minimal experience in the safety of increasing hematocrit in dialysis patients to normal levels with epoetin, stable patients on hemodialysis who had received epoetin treatment for at least 3 mo and had a stable hemoglobin level of > or = 9 g/dl were included in the study. Patients with antecedents of congestive cardiac failure, ischemic cardiopathy, diabetes mellitus, uncontrolled hypertension, cerebrovascular accident or seizures, malfunction of the vascular access or severe comorbidity (defined by a comorbidity index), and those over 65 yr of age were excluded from the study. Quality of life was measured with the Sickness Impact Profile (SIP) and Karnofsky scale. Patients completed questionnaires at home at onset and conclusion of the 6-mo study. Mean hematocrit increased from 30.9 to 38.4% and hemoglobin from 10.2 to 12.5 g/dl during the study. Health indicator scores improved significantly: mean Physical Dimension (SIP) from 5.38 to 4.1 (P < 0.005); mean Psychosocial Dimension from 9.2 to 7 (P < 0.001); mean global SIP from 8.9 to 7.25 (P < 0.001); mean Karnofsky scale score from 75.6 to 78.4 (P < 0.01). (SIP is scaled so that lower scores represent better functional status, and vice versa for the Karnofsky scale). Therefore, functional status and quality of life improved with increased hematocrit. No deaths occurred. Three patients (2%) were censored for hypertension and nine (5.7%) for thrombosis of the vascular access. The cumulative probability of thrombosis of the vascular access was 0.067. The average epoetin dose rose from 93 +/- 62 U/kg per wk at onset to 141 +/- 80 U/kg per wk at conclusion, a 51% increase. The number of patients hospitalized decreased and hospital lengths of stay were shorter during the study period than in the same patients in the 6-mo period preceding the study (P < 0.05). Nine patients (5.7%) had thrombosis of the vascular access. There were no changes in the prevalence of arterial hypertension, but three patients (2%) showed hypertension that was difficult to control. It is concluded that normalization of hematocrit in selected hemodialysis patients, i.e., nondiabetic patients without severe cardiovascular or cerebrovascular comorbidities, improves quality of life and decreases morbidity without significant adverse effects.
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PMID:Increasing the hematocrit has a beneficial effect on quality of life and is safe in selected hemodialysis patients. Spanish Cooperative Renal Patients Quality of Life Study Group of the Spanish Society of Nephrology. 1066 41

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