Aplastic Anemia Clinical Trial
Official title:
A Pilot Study of G-CSF Induced Stem Cell Mobilization Potential in Patients With Relapsed Severe Aplastic Anemia
This study will examine 1) whether it is possible to collect enough stem cells (cells
produced by the bone marrow that mature into white and red blood cells and platelets) from
patients with aplastic anemia to use for future treatment, and 2) whether patients who have
been treated successfully and relapse will benefit from autologous stem cell transfusion
(transfusion of their own stem cells).
Patients 12 years of age or older with aplastic anemia who have been successfully treated
with immunosuppressive drugs and are now in remission may be eligible for this study.
Participants will undergo a complete history and physical examination, bone marrow biopsy
(removal of a small sample of bone marrow from the hip bone) and blood tests, plus
procedures to collect stem cells, as follows:
- G-CSF (Filgrastim) administration - G-CSF will be given by injection under the skin
daily for up to 10 days. This drug causes stem cells to move from the marrow into the
blood where they can be collected more easily.
- Apheresis - Stem cells will be collected through apheresis, usually starting the 5th to
6th day of Filgrastim injections. For this procedure, whole blood is collected through
a needle in an arm vein. The blood circulates through a cell separator machine where
the white cells and stem cells are removed. The red cells, platelets and plasma are
returned to the body through a second needle in the other arm. The procedure takes
about 5 hours. Up to five procedures, done on consecutive days, may be required to
collect enough cells for transplantation. If enough cells are collected, they will be
purified (treated to remove the white blood cells) using an experimental device.
Removing the lymphocytes may reduce the chance of relapse of aplastic anemia following
the stem cell transplant. The stem cells will be frozen for later use, if needed.
- Follow-up - Participants are followed at NIH at 6-month intervals.
Immune mechanisms are responsible for hematopoietic failure in most cases of acquired
aplastic anemia (AA), a disease characterized by hypocellular bone marrow and pancytopenia.
In aplastic anemia, much experimental data points toward an immune-mediated pathophysiology
of destruction of hematopoietic progenitor and stem cells. Clinically, immunosuppressive
therapies, usually anti-thymocyte globulin (ATG) and cyclosporine (CsA), have been shown to
be effective in a large proportion of patients with severe AA. However, at 2 years after
initial treatment as many as 35% of patients with initially good response and normal blood
counts relapse and require repeated cycles of intense immunosuppression and/or chronic
immunosuppressive regimens. Although relapse in previously immunosuppression-responsive
patients has a generally good prognosis, there is an increased risk of complications and
treatment-related toxicities. The outlook of patients who fail to respond to repeated
intensive immunosuppression is poor. While it is likely that some of the treatment failures
occurring with conventional immunosuppressive regimens (both at presentation and in relapsed
patients) may be due to inability to suppress the autoimmune process leading to the bone
marrow failure, more intense therapies such as cyclophosphamide have a high complication
rate due to prolonged and dose-related myelosuppression. In this protocol, we propose that
patients with severe AA who show a good response to the initial round of immunosuppression
undergo stem cell mobilization, collection, and cryopreservation.
This pilot study of 20 patients is designed to evaluate: 1) the CD34+ cell mobilization
response to administration of standard doses of granulocyte-colony stimulating factor
(G-CSF) and 2) the potential for collecting stem cells from patients with a history of
severe AA who have been given G-CSF. Outcome parameters to be monitored are the mobilization
response to G-CSF, and the safety profile and tolerance of G-CSF and leukapheresis.
Effectiveness will be gauged by historical comparison of these parameters to normal healthy
age-matched volunteers.
It is important to point out that there is no therapeutic intent to the majority of this
protocol or direct benefit for enrolled patients. We do plan, however, to cryopreserve the
remainder of the mobilized cells collected by apheresis for possible autologous
transplantation in the event of the patient's progression to leukemia or bone marrow failure
in the future.
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