Treatment of Sickle Cell Anemia With Stem Cell Transplant

Not Applicable

Terminated

Conditions: Sickle Cell Anemia
Sickle Cell-hemoglobin C Disease
Sickle Cell-β0-thalassemia

Interventions: Drug: Fludarabine
Drug: Cytarabine
Device: Cellular Infusions
Radiation: Total Body Irradiation
Drug: Cyclophosphamide
Drug: Bortezomib
Drug: Rituximab
Procedure: Plasmapheresis

Registration Number: NCT01350232

Lead Sponsor: Sidney Kimmel Cancer Center at Thomas Jefferson University

Brief Summary: This is a clinical research trial in which a novel preparatory regimen was developed for bone marrow transplant (BMT) which eliminates the primary obstacle to transplant, the lack of a matched sibling donor. It is believed this regimen is sufficiently efficacious and sufficiently gentle to apply to patients with sickle cell anemia and related disorders. It is proposed to characterize the efficacy and toxicity of this regimen in high risk patients with sickle cell anemia using criteria for patient selection that have been accepted in prior BMT trials in patients with sickle cell disease, specifically only the subset of patients whose prior clinical behavior indicates that they are at high risk for serious morbidity and early mortality. In addition, it is proposed to characterize the pathophysiology of a consistent febrile response seen in the haploidentical BMT regimen the investigators have developed at Thomas Jefferson University (TJU).

The primary goal of this study is to determine the response rate to a reduced intensity conditioning regimen which consists of fludarabine, cytarabine, low dose total body irradiation and cyclophosphamide in patients with severe sickle cell anemia.

Detailed Description: Hemoglobinopathies, such as sickle cell disease and thalassemia major, constitute a group of genetic diseases associated with significant morbidity and premature death. In the 1970s, the mean survival of patients with sickle cell disease was 14.3 years. With improvements in medical practice, this has improved such that estimates are now into the third decade of life.

In patients with sickle cell disease, a single amino acid substitution in beta-hemoglobin causes erythrocytes to sickle in response to oxidative stress. The sequelae of this defect are vaso-occlusive crises, resulting in episodes of bony pain and infarction, acute chest syndrome, and strokes. Life long need for transfusion leads to complications including alloimmunization and iron overload. The latter condition is frequently associated with significant end-organ damage.

In recent years, new strategies in supportive care, such as the use of hydroxyurea to stimulate fetal hemoglobin production in patients with sickle cell anemia, have resulted in the amelioration of some of the devastating manifestations of this disease. However, this therapy does not benefit all patients, and there have been concerns about the possible risk of latent transformation to leukemia with prolonged use of this drug. Clearly, better treatment strategies are needed for this devastating group of diseases.

Patients with sickle cell anemia will be offered enrollment on a clinical trial of reduced intensity stem cell transplant. The transplant donors will be either HLA matched siblings or family members who are 50% matched for HLA. Patients will receive therapy in 2 steps.

For patients who are allo-immunized against the donor (patients who have made an immune response already against the donor's HLA type), there will be a desensitization process. This will be outpatient therapy and will include therapy with bortezomib on the 1st, 4th, 8th and 11th day of a 21 day cycle. This will be repeated for a second cycle, for a total of 8 doses of bortezomib over a 6 week period. In addition, they will receive rituximab on the 1st and 8th day of each cycle. These therapies are designed to decrease the subject's chance of rejecting the transplant, as it is known that patients with sickle cell anemia are likely to be heavily immunized against donors. For patients who have high levels of antibodies against the donors, a plasmapheresis procedure will be performed prior to admission as well. All patients will undergo red cell exchange prior to admission.

During the transplant admission, subjects will receive a "Two Step" chemotherapy and transplant regimen. The chemotherapy "first step" will be with fludarabine and cytarabine and a low dose of total body irradiation. This will be followed by the "first step" of the transplant graft - the donor lymphocytes. The "second step" of the chemotherapy will be two doses of cyclophosphamide. This will then be followed by the "second step" of the transplant graft - the stem cells.

Recruitment & Eligibility

Status: TERMINATED

Sex: All

Target Recruitment: 2

Inclusion Criteria

Patient Selection:

i) Patients with sickle cell disease (sickle cell anemia, sickle cell-hemoglobin C disease, or sickle cell-β0-thalassemia) confirmed by hemoglobin electrophoresis.

ii) Patients should have one or more of the following:

History of acute chest syndrome requiring recurrent hospitalization or exchange transfusion (Acute chest syndrome is defined as pulmonary infiltrate involving at least one complete lung segment, consistent with alveolar consolidation but not atelectasis, accompanied by chest pain, fever, cough, tachypnea or wheezing)
History of nonhemorrhagic stroke or central nervous system event lasting longer than 24 hours
Recurrent vaso-occlusive pain (≥5 episodes during the past two years) or recurrent priapism requiring hospitalization or visits to the emergency room or sickle cell day unit
Sickle nephropathy (moderate or severe proteinuria or a glomerular filtration rate 30-50% of normal predicted value) with progression on ACE inhibitor therapy iii) Patient must have failed therapy with hydroxyurea, as HU as evidenced by at least 6 months of maximum HU dosage for sickle cell disease, i.e. dose escalation to a level which caused some minimal hematologic toxicity in terms of CBC values. Failure to respond must also be documented by no significant increase in subjects HbF levels at this maximally tolerated dosage.AND development/ persistence of items listed in (ii) Patients who are deemed not eligible for hydroxyurea by the primary hematologist will be considered eligible without having failed hydroxyurea. Non-eligibility for hydroxyurea therapy is based on:

(1) the diagnoses of SC disease and sickle cell-β0-thalassemia in which no clear evidence supports the use of hydroxyurea therapy and thus treatment with hydroxyurea is not considered the standard of care in these entities (2) the presence of high hemoglobin F levels in patients with sickle cell anemia and documented Hereditary Persistence of Fetal Hemoglobin (HPFH) in which hydroxyurea is not considered the standard of care (3) severe adverse reactions to hydroxyurea in patients with sickle cell anemia based on, but not limited to, count suppression, GI intolerance, and dermatomyositis Patient unwillingness to be compliant with hydroxyurea therapy is not an acceptable reason for non-eligibility iv) Patients must have an acceptable related donor

who is matched at the HLA-A;B; C; DR loci (8 of 8 match) or mismatched for at most one locus (7 of 8 match) (well matched related donor
who is mismatched at 2-4 alleles (haplo-identical) v) Patient age greater than 18 - 45 years vi) ECOG performance status 0-2/ Karnofsky 70-100% vii) Written informed consent obtained from the patient. viii) Transaminases <3X ULN; patients with transaminases greater than the ULN but less than 3XULN will be evaluated by the hepatology service and will undergo further imaging and biopsy as deemed necessary by hepatology. They will not be considered eligible unless cleared by hepatology.

Exclusion Criteria

Patient Selection:

i) Pregnancy/ unwillingness to use adequate contraception during study period ii) Liver disease including

Acute hepatitis (transaminases >3x normal value)
Chronic hepatitis C
Chronic hepatitis B or history of exposure to hepatitis B iii) Cardiac ejection fraction < 50% iv) Pulmonary hypertension - as evidenced by findings on resting echocardiogram of pulmonary artery systolic pressure ≥ 40 mmHg or any evidence of right ventricular dysfunction (hypokinesis or RV dilation) v) Severe renal impairment (GFR <30% of predicted normal value) vi) Severe residual functional neurologic impairment (other than hemiplegia alone) vii) DLCO ≤50 viii) Any evidence of infection by the human immunodeficiency virus ix) Psychiatric disorder that would preclude patients from signing an informed consent x) Severe neuro-cognitive or executive function making informed consent possible

Study & Design

Study Type: INTERVENTIONAL

Study Design: SINGLE_GROUP

Arm && Interventions

Group	Intervention	Description
HSCT	Cellular Infusions	Subjects receive the preparative regimen in 2 steps. The "first step" will be with fludarabine and cytarabine and a low dose of total body irradiation. This will be followed by the "first step" of the transplant graft - the donor lymphocytes. The "second step" of the chemotherapy will be two doses of cyclophosphamide. This will then be followed by the "second step" of the transplant graft - the stem cells. Only subjects with prior alloimmunization against donor will receive desensitization. Subjects who demonstrate alloimmunization against the HLA of the donor will receive bortezomib and rituximab in combination with plasmapheresis prior to the admission for transplant.
HSCT	Total Body Irradiation	Subjects receive the preparative regimen in 2 steps. The "first step" will be with fludarabine and cytarabine and a low dose of total body irradiation. This will be followed by the "first step" of the transplant graft - the donor lymphocytes. The "second step" of the chemotherapy will be two doses of cyclophosphamide. This will then be followed by the "second step" of the transplant graft - the stem cells. Only subjects with prior alloimmunization against donor will receive desensitization. Subjects who demonstrate alloimmunization against the HLA of the donor will receive bortezomib and rituximab in combination with plasmapheresis prior to the admission for transplant.
HSCT	Cyclophosphamide	Subjects receive the preparative regimen in 2 steps. The "first step" will be with fludarabine and cytarabine and a low dose of total body irradiation. This will be followed by the "first step" of the transplant graft - the donor lymphocytes. The "second step" of the chemotherapy will be two doses of cyclophosphamide. This will then be followed by the "second step" of the transplant graft - the stem cells. Only subjects with prior alloimmunization against donor will receive desensitization. Subjects who demonstrate alloimmunization against the HLA of the donor will receive bortezomib and rituximab in combination with plasmapheresis prior to the admission for transplant.
HSCT	Bortezomib	Subjects receive the preparative regimen in 2 steps. The "first step" will be with fludarabine and cytarabine and a low dose of total body irradiation. This will be followed by the "first step" of the transplant graft - the donor lymphocytes. The "second step" of the chemotherapy will be two doses of cyclophosphamide. This will then be followed by the "second step" of the transplant graft - the stem cells. Only subjects with prior alloimmunization against donor will receive desensitization. Subjects who demonstrate alloimmunization against the HLA of the donor will receive bortezomib and rituximab in combination with plasmapheresis prior to the admission for transplant.
HSCT	Plasmapheresis	Subjects receive the preparative regimen in 2 steps. The "first step" will be with fludarabine and cytarabine and a low dose of total body irradiation. This will be followed by the "first step" of the transplant graft - the donor lymphocytes. The "second step" of the chemotherapy will be two doses of cyclophosphamide. This will then be followed by the "second step" of the transplant graft - the stem cells. Only subjects with prior alloimmunization against donor will receive desensitization. Subjects who demonstrate alloimmunization against the HLA of the donor will receive bortezomib and rituximab in combination with plasmapheresis prior to the admission for transplant.
HSCT	Fludarabine	Subjects receive the preparative regimen in 2 steps. The "first step" will be with fludarabine and cytarabine and a low dose of total body irradiation. This will be followed by the "first step" of the transplant graft - the donor lymphocytes. The "second step" of the chemotherapy will be two doses of cyclophosphamide. This will then be followed by the "second step" of the transplant graft - the stem cells. Only subjects with prior alloimmunization against donor will receive desensitization. Subjects who demonstrate alloimmunization against the HLA of the donor will receive bortezomib and rituximab in combination with plasmapheresis prior to the admission for transplant.
HSCT	Cytarabine	Subjects receive the preparative regimen in 2 steps. The "first step" will be with fludarabine and cytarabine and a low dose of total body irradiation. This will be followed by the "first step" of the transplant graft - the donor lymphocytes. The "second step" of the chemotherapy will be two doses of cyclophosphamide. This will then be followed by the "second step" of the transplant graft - the stem cells. Only subjects with prior alloimmunization against donor will receive desensitization. Subjects who demonstrate alloimmunization against the HLA of the donor will receive bortezomib and rituximab in combination with plasmapheresis prior to the admission for transplant.
HSCT	Rituximab	Subjects receive the preparative regimen in 2 steps. The "first step" will be with fludarabine and cytarabine and a low dose of total body irradiation. This will be followed by the "first step" of the transplant graft - the donor lymphocytes. The "second step" of the chemotherapy will be two doses of cyclophosphamide. This will then be followed by the "second step" of the transplant graft - the stem cells. Only subjects with prior alloimmunization against donor will receive desensitization. Subjects who demonstrate alloimmunization against the HLA of the donor will receive bortezomib and rituximab in combination with plasmapheresis prior to the admission for transplant.

Primary Outcome Measures

Name	Time	Method
Stable Engraftment	180 days post-infusion	To determine if the reduced intensity preparative regimen of fludarabine, cytarabine, cyclophosphamide and low-dose total body irradiation will generate stable engraftment with donor hematopoietic stem cells in at least 80% of patients with severe sickle cell anemia.

Secondary Outcome Measures

Name	Time	Method
Correction of Hemoglobinopathy	100 days post infusion through 5 years post infusion	To evaluate the extent of correction of hemoglobinopathy following this reduced intensity transplant.
Organ Toxicity	30 days post infusion	To assess organ toxicity related to fludarabine, cytarabine, cyclophosphamide and low-dose total body irradiation in a population with severe sickle cell anemia.
Overall Survival	6 months post infusion	To determine the overall survival at 6 months post-transplant in patients receiving a matched or partially-matched related donor transplant after reduced-intensity conditioning.
Acute Graft Versus Host Disease	100 days post infusion	To describe the incidence and severity of acute and chronic GVHD following this reduced intensity transplant from partially matched related donors using a combination of cyclophosphamide, tacrolimus and mycophenolate mofetil (MMF) as GVHD prophylaxis.
Immune Recovery	100 days post infusion through 5 years post infusion	To assess the pace of lymphoid recovery and associated risk for opportunistic infections and relapse (return to recipient erythropoiesis) in this patient population.
Quality of Life	Through 5 years post infusion	To describe the quality of life and functional status following transplantation.
Cytokine Profile	Through 5 years after infusion	To characterize the profiles of cytokines released following administration of the lymphoid portion of the transplant (donor lymphocyte infusion \[DLI\]).