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Hydroxyurea and Erythropoietin to Treat Sickle Cell Anemia

Chronic Kidney Disease Clinical Trial

Official title:
Evaluation of Synergy of Combining Hydroxyurea With Recombinant Human Erythropoietin Glycoform Alpha (Rhu Erythropoietin-alpha) on Fetal Hemoglobin Synthesis in Patients With Sickle Cell Anemia

Clinical Trial Summary

This study will examine the use of hydroxyurea and erythropoietin for treating sickle cell disease in patients who also have kidney disease or pulmonary hypertension (high blood pressure in the lungs). Hydroxyurea increases production of fetal hemoglobin in the red blood cells of patients with sickle cell disease, reducing the amount of sickle cells that cause pain and other complications requiring hospitalizations. However, hydroxyurea treatment has limitations: patients with sickle cell disease who have developed kidney disease may not be able to get the full benefit of the medicine, and hydroxyurea alone may not be able to treat life-threatening complications such as pulmonary hypertension or stroke. This study will determine which of two dosing schedules of hydroxyurea and erythropoietin is more effective for treating patients with sickle cell disease who also have kidney disease or pulmonary hypertension, and will examine whether the two drugs can lower blood pressure in the lungs.

Patients 18 years of age and older with sickle cell anemia and kidney disease or pulmonary hypertension, or both, may be eligible for this study. Candidates are screened with a medical history, physical examination, blood tests, a 6-minute walk test (test to see how far the subject can walk in 6 minutes), and echocardiogram (ultrasound of the heart to measure blood pressure in the lungs).

Participants undergo the following tests and procedures:

Stabilization Phase: Patients take 2 hydroxyurea tablets a day until their fetal hemoglobin levels stabilize, usually over 2 to 4 months. They have blood tests every 2 weeks to monitor hemoglobin and fetal hemoglobin levels. At some time during this period, they undergo a test to measure kidney function, in which they are injected with an iodine-containing dye and wear a small pump for 1 day that injects a small amount of dye under the skin over 24 hours. They come to the clinic for 2 or 3 blood tests collected over 4 hours.

Sequence I (Standard): When the fetal hemoglobin levels have been stable for 2 months, patients have a repeat echocardiogram and 6-minute walk test. Erythropoietin is then added to the hydroxyurea regimen. It is given 3 days a week, as an injection under the skin, along with iron supplements. Patients have blood tests and blood pressure measurements every week or every other week. Patients with pulmonary hypertension have another echocardiogram and 6-minute walk test once the hemoglobin level is stable.

Sequence II (Cycled): When hemoglobin levels have stabilized with hydroxyurea once a day and erythropoietin 3 times a week, the hydroxyurea is adjusted so that the amount taken in 7 days is "cycled" over 4 days, and the erythropoietin is cycled over 3 days, with the dose increased twice, every 3 to 4 weeks. Blood pressure and hemoglobin are monitored once or twice a month. Patients with pulmonary hypertension have another echocardiogram and 6-minute walk test once the hemoglobin level is stable.

Patients who develop complications while taking the drugs have their treatment regimens adjusted as needed.

Clinical Trial Description

Sickle cell disease (SCD) is a genetic disease that afflicts over eighty thousand Americans, 4 to 5,000 newborns per year in the US, and 100s of thousands of children and adults world-wide. This disease arises from a single amino acid mutation of the beta globin chain of hemoglobin, which results in abnormal polymerization of deoxygenated hemoglobin. The deceptively simple biologic origin for SCD belies the debilitating chronic multi-faceted clinical syndrome with which it is associated; SCD is characterized by lifelong hemolysis, chronic anemia, recurrent painful vaso-occlusive crises (VOC), hepatic, renal, musculo-skeletal, and central nervous system complications, and a shortened life-expectancy. Our group has found an up to 33% incidence of pulmonary hypertension in adult patients with SCD who were screened and followed prospectively; with two-year follow-up, this pulmonary hypertension is associated with a 10-fold increased mortality rate.

Hydroxyurea has emerged as a useful therapy in sickle cell disease. It is a cell-cycle specific agent that blocks DNA synthesis by inhibiting ribonucleotide reductase, the enzyme that converts ribonucleotides to deoxyribonucleotides. Hydroxyurea has been shown to induce the production of fetal hemoglobin (HbF) in patients with sickle cell anemia, with associated diminished morbidity and, likely, mortality in these patients. Any HbF is good in SCD, although it is estimated that levels of 20 percent HbF are required to substantially reduce the sickling propensity of red cells and to modulate disease severity. The majority of patients with SCD respond to hydroxyurea with a more than two-fold increase in HbF levels; in some patients the percent of HbF exceeds 10 or 15 percent, but it is not uniformly distributed in all cells, i.e. has a hetero-cellular rather than a pan-cellular distribution. The mechanism through which hydroxyurea augments fetal Hgb is incompletely characterized. An additional benefit of hydroxyurea may be through effects on the nitric oxide (NO) system. Recently, members of our group found that hydroxyurea therapy is associated with the intravascular and intra-erythrocytic generation of NO, and that NO increases HbF expression via the guanylyl cyclase/cGMP dependent pathways.

We have treated more than 30 patients chronically with hydroxyurea to determine hematological changes Iongitudinally, and have established the maximal HbF raising effect of hydroxyurea in these patients. We have found that the levels of HbF that are induced by hydroxyurea alone are insufficient, and insufficiently widely distributed, to ameliorate the life-threatening complications of pulmonary HTN and of on-going hemolysis in patients with sickle cell disease.

Earlier studies had suggested that the addition of erythropoietin (Erythropoietin) therapy to chronic hydroxyurea therapy may induce fetal hemoglobin at higher, more widely distributed, levels. We plan to test this in patients with sickle cell disease who have chronic kidney disease, which, presumably, leaves them with a depressed Erythropoietin reserve and an inability to tolerate standard doses of F-inducing therapy with hydroxyurea, and in patients with pulmonary HTN, which carries an ominous prognosis in SCD. A secondary endpoint of this study will be to evaluate if hydroxyurea plus Erythropoietin therapy can improve cardiovascular aerobic capacity in general, and in particular minimize symptoms and morbidity in patients with both chronic kidney disease and pulmonary HTN. ;

Study Design

Related Conditions & MeSH terms

Clinical Trial Details
NCT number NCT00270478
Study type Interventional
Source National Institutes of Health Clinical Center (CC)
Contact
Status Completed
Phase Phase 1
Start date December 21, 2005
Completion date August 31, 2009
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