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5-Azacytidine and Phenylbutyrate to Treat Severe Thalassemia

Primary Purpose

Beta Thalassemia

Status
Completed
Phase
Phase 2
Locations
United States
Study Type
Interventional
Intervention
5-Azacytidine
Sponsored by
National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK)
About
Eligibility
Locations
Outcomes
Full info

About this trial

This is an interventional treatment trial for Beta Thalassemia focused on measuring Fetal Hemoglobin, 5-Azacytidine, Phenylbutyrate, Thalassemia, Hemoglobin, Anemia, Blood, Thalassemia Major, Beta Thalassemia

Eligibility Criteria

undefined - undefined (Child, Adult, Older Adult)All SexesDoes not accept healthy volunteers

INCLUSION CRITERIA: Thalassemia major with progressive disease or complications of iron overload despite traditional transfusion and iron chelation therapy Thalassemia major in which standard transfusion therapy or iron chelation therapy is contraindicated ECOG performance status must be less than or equal to 2 NYHA less than or equal to class II status Progressive disease is defined as 1) an increasing transfusion requirement or difficulty in maintenance of hemoglobin levels greater than 7g/dl as a consequence of autologous or allogeneic antibodies or 2) increasing extramedullary hematopoiesis causing compression phenomena. Complications of iron overload despite iron chelation therapy is defined as difficulty in achieving negative iron balance when complications of iron overload exist. Complications of iron overload include heart failure, or decreased cardiac ejection fraction, endocrinopathy and evidence of progressive liver dysfunction. EXCLUSION CRITERIA: Severe sepsis or septic shock Current pregnancy or breast feeding Not able to give informed consent Altered mental status or seizure disorder AST or ALT greater than 3X upper limit of normal Bilirubin greater than1.5X upper limit of normal, unless the abnormal bilirubin can be accounted for by indirect hyperbilirubinemia due to hemolysis or Gilbert's Disease Serum albumin less than 3g/dl Creatinine greater than 2mg/dl and creatinine clearance less than 60ml/min Patients who are moribund or patients with concurrent hepatic, renal, cardiac, metabolic, or any disease of such severity that death within 7-10 days is likely Concurrent myelodysplastic syndrome or leukemia NYHA class III/IV status ECOG performance status greater than 2 Age less than 18 years

Sites / Locations

  • National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK)

Outcomes

Primary Outcome Measures

Secondary Outcome Measures

Full Information

First Posted
July 6, 2000
Last Updated
March 3, 2008
Sponsor
National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK)
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1. Study Identification

Unique Protocol Identification Number
NCT00005934
Brief Title
5-Azacytidine and Phenylbutyrate to Treat Severe Thalassemia
Official Title
A Pilot Study of 5-Azacytidine and Oral Sodium Phenylbutyrate in Severe Thalassemia
Study Type
Interventional

2. Study Status

Record Verification Date
June 2003
Overall Recruitment Status
Completed
Study Start Date
June 2000 (undefined)
Primary Completion Date
undefined (undefined)
Study Completion Date
June 2003 (undefined)

3. Sponsor/Collaborators

Name of the Sponsor
National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK)

4. Oversight

5. Study Description

Brief Summary
This study will evaluate the safety and effectiveness of 5-azacytidine and phenylbutyrate for treating thalassemia major. Patients with this disease have abnormal production of hemoglobin (the oxygen-carrying protein in red blood cells), which leads to red blood cell destruction. As a result, patients require frequent red cell transfusions over many years. Because of these transfusions, however, excess iron is deposited in various body organs-such as the heart, liver, thyroid gland and, in men, the testes-impairing their function. Fetal hemoglobin-a type of hemoglobin that is produced during fetal and infant life-can substitute for adult hemoglobin and increase the levels of red cells in the body. After infancy, however, this type of hemoglobin is no longer produced in large quantities. 5-azacytidine can increase fetal hemoglobin levels, but this drug can damage DNA, which in turn can increase the risk of cancer. This study will try to lessen the harmful effects of 5-azacytidine by using only one or two doses of it, followed by long-term therapy with phenylbutyrate, a drug that may be as effective as 5-azacytidine with less harmful side effects. Patients 18 years of age and older with severe thalassemia major may be eligible for this study. Before beginning treatment, candidates will have a medical history and physical examination, blood tests, chest X-ray, electrocardiogram (EKG), bone marrow biopsy (removal of a small sample of bone marrow from the hip for microscopic examination) and whole-body magnetic resonance imaging (MRI). For the biopsy, the area of the hip is anesthetized and a special needle is inserted to draw bone marrow from the hipbone. For the MRI scan, a strong magnetic field is used to produce images that will identify sites where the body is making red blood cells. During this procedure, the patient lies on a table in a narrow cylinder containing a magnetic field. Earplugs are placed in the ears to muffle the loud thumping sounds the machine makes when the magnetic fields are being switched. An intravenous (IV) catheter (flexible tube inserted into a vein) is placed in a large vein of the patient's neck, chest or arm for infusion of 5-azacytidine at a constant rate over 4 days. Patients who do not respond to this first dose of 5-azacytidine will be given the drug again after about 50 days. If they do not respond to the second dose, alternate treatments will have to be considered. Patients who respond to 5-azacytidine will begin taking phenylbutyrate on the 14th day after 5-azacytidine was started. They will take about 10 large pills 3 times a day, continuing for as long as the treatment is beneficial. All patients will be hospitalized for at least 6 days starting with the beginning of 5-azacytidine therapy. Those who are well enough may then be discharged and continue treatment as an outpatient. Patients will be monitored with blood tests daily for 2 weeks and then will be seen weekly for about another 5 weeks. Bone marrow biopsies will be repeated 6 days after treatment begins and again at 2 weeks and 7 weeks. MRI will be repeated 7 weeks after treatment begins. After 7 weeks, patients will be seen at 3-month intervals. Bone marrow biopsies will be done every 6 months for the first 3 years after treatment. Patients will have red cell transfusions as needed and chelation therapy to remove excess iron.
Detailed Description
Individuals with homozygous beta-thalassemia are either severely anemic or dependent on blood transfusion to sustain life. Deficient synthesis of the beta chain leads to imbalanced chain synthesis with an excess of alpha globin. This alpha globin precipitates, causing ineffective erythropoiesis and shortened red cell survival. In patients with homozygous beta-thalassemia, enhanced gamma globin synthesis could partially compensate for the deficient synthesis of beta globin rendering chain synthesis more balanced and reducing the relative excess of alpha chains. The purpose of this protocol is to test the hypothesis that induction therapy with 5-azacytidine, followed by maintenance treatment with oral phenylbutyrate will enhance gamma globin synthesis, increase red cell production and partially or substantially correct the anemia in patients with homozygous beta-thalassemia.

6. Conditions and Keywords

Primary Disease or Condition Being Studied in the Trial, or the Focus of the Study
Beta Thalassemia
Keywords
Fetal Hemoglobin, 5-Azacytidine, Phenylbutyrate, Thalassemia, Hemoglobin, Anemia, Blood, Thalassemia Major, Beta Thalassemia

7. Study Design

Primary Purpose
Treatment
Study Phase
Phase 2
Enrollment
24 (false)

8. Arms, Groups, and Interventions

Intervention Type
Drug
Intervention Name(s)
5-Azacytidine

10. Eligibility

Sex
All
Accepts Healthy Volunteers
No
Eligibility Criteria
INCLUSION CRITERIA: Thalassemia major with progressive disease or complications of iron overload despite traditional transfusion and iron chelation therapy Thalassemia major in which standard transfusion therapy or iron chelation therapy is contraindicated ECOG performance status must be less than or equal to 2 NYHA less than or equal to class II status Progressive disease is defined as 1) an increasing transfusion requirement or difficulty in maintenance of hemoglobin levels greater than 7g/dl as a consequence of autologous or allogeneic antibodies or 2) increasing extramedullary hematopoiesis causing compression phenomena. Complications of iron overload despite iron chelation therapy is defined as difficulty in achieving negative iron balance when complications of iron overload exist. Complications of iron overload include heart failure, or decreased cardiac ejection fraction, endocrinopathy and evidence of progressive liver dysfunction. EXCLUSION CRITERIA: Severe sepsis or septic shock Current pregnancy or breast feeding Not able to give informed consent Altered mental status or seizure disorder AST or ALT greater than 3X upper limit of normal Bilirubin greater than1.5X upper limit of normal, unless the abnormal bilirubin can be accounted for by indirect hyperbilirubinemia due to hemolysis or Gilbert's Disease Serum albumin less than 3g/dl Creatinine greater than 2mg/dl and creatinine clearance less than 60ml/min Patients who are moribund or patients with concurrent hepatic, renal, cardiac, metabolic, or any disease of such severity that death within 7-10 days is likely Concurrent myelodysplastic syndrome or leukemia NYHA class III/IV status ECOG performance status greater than 2 Age less than 18 years
Facility Information:
Facility Name
National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK)
City
Bethesda
State/Province
Maryland
ZIP/Postal Code
20892
Country
United States

12. IPD Sharing Statement

Citations:
PubMed Identifier
6124668
Citation
Thomas ED, Buckner CD, Sanders JE, Papayannopoulou T, Borgna-Pignatti C, De Stefano P, Sullivan KM, Clift RA, Storb R. Marrow transplantation for thalassaemia. Lancet. 1982 Jul 31;2(8292):227-9. doi: 10.1016/s0140-6736(82)90319-1. No abstract available.
Results Reference
background
PubMed Identifier
4000198
Citation
Wolfe L, Olivieri N, Sallan D, Colan S, Rose V, Propper R, Freedman MH, Nathan DG. Prevention of cardiac disease by subcutaneous deferoxamine in patients with thalassemia major. N Engl J Med. 1985 Jun 20;312(25):1600-3. doi: 10.1056/NEJM198506203122503.
Results Reference
background
PubMed Identifier
6660889
Citation
Modell B, Petrou M. Management of thalassaemia major. Arch Dis Child. 1983 Dec;58(12):1026-30. doi: 10.1136/adc.58.12.1026. No abstract available.
Results Reference
background

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5-Azacytidine and Phenylbutyrate to Treat Severe Thalassemia

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