Diamond Blackfan Anemia Clinical Trial
Official title:
Investigation of G-CSF-Induced Stem Cell Mobilization Potential in Patients With Diamond-Blackfan Anemia
This study will provide information needed to develop more effective treatments for patients
with Diamond-Blackfan anemia (DBA). Current treatments include steroids, such as prednisone,
and blood transfusions. These treatments have potential long-term risk and side effects,
including osteoporosis and impaired growth from steroids or iron overload from transfusions.
In addition, as patients reach adulthood, they can develop acute leukemia or bone marrow
failure. The only cure for DBA is bone marrow transplant, a procedure that itself carries
serious risks and is an option for only about 25 percent of patients.
DBA is caused by a mutation (error) in a gene that codes for producing red blood cells from
stem cells (blood-forming cells produced by the bone marrow). In 5 to 10 years, gene
transfer therapy may prove to be an effective treatment for DBA. Before this treatment can
be considered, however, more information is needed about DBA patients and how their stem
cells function. This study will examine: 1) whether stem cells of patients with DBA respond
to G-CSF the same way those of healthy people do. (G-CSF is a drug that causes stem cells to
move from the bone marrow to the blood stream, where they can be collected more easily and
in larger numbers by a procedure called leukapheresis, described below. If G-CSF does not
work well in DBA patients, other collection strategies will have to be explored); and 2)
whether the genetic error in DBA can be corrected by gene transfer into patients' stem
cells.
Patients with Diamond-Blackfan anemia 4 years of age and older who weigh at least 27 pounds
and who are dependent on red blood cell transfusions may be eligible for this study.
Candidates will have a medical history taken and a physical examination and will be seen by
the Clinical Center's Department of Medicine Transfusion for leukapheresis evaluation. They
will have a bone marrow aspiration and biopsy to confirm the diagnosis of DBA. For these
tests, the hip area is anesthetized and a needle is used to draw bone marrow from the
hipbone. If needed, the procedure will be done under sedation.
Patients will be given G-CSF by injection under the skin for up to 6 days. Blood and stem
cell counts will be measured from a teaspoon of blood drawn each morning. On the morning of
the fifth dose, the patient will undergo leukapheresis for collection of stem cells. For
this procedure, a large catheter (with a diameter no larger than that of a straw) is placed
in an arm vein to allow blood to flow into a cell separator machine. Most children and some
adults do not have veins large and strong enough for this tubing, so a large intravenous
line called a "central line" is placed into a large vein in the neck or groin. This is done
under sedation and with a local anesthetic. While the patient lies on a bed or recliner,
whole blood is collected through a catheter in one arm or the central line, the stem cells
are separated out by spinning, then the red cells, platelets and plasma are returned through
a second catheter in the other arm or a second opening in the central line. The procedure
takes about 3 to 5 hours, during which the patient can watch television or videos and have
family members at the bedside for company. When the procedure is completed, the patient's
participation in the protocol ends.
Some of the stem cells collected by leukapheresis will be used for research and some will be
frozen and stored for possible future transplantation into the patient, if required.
Diamond-Blackfan anemia (DBA) is a congenital hypoproliferative anemia that generally
presents in infancy. The mainstays of treatment, prednisone and transfusion therapy, have
long-term toxicity in many patients, and bone marrow transplantation with an HLA-matched
donor is an option for only a minority of patients. Most importantly, patients with DBA have
an increased risk of progression of myelodysplastic syndrome, leukemia, and aplastic anemia
compared to the general population.
The characterization of potentially mutated genes in DBA is an area of active research, and
at least one mutation present in about one-fourth of DBA patients may cause disease due to
decreased production of a ribosomal protein. This finding raises the possibility that the
disease, at least in some patients, may be correctable by genetic therapy, by which a normal
copy of the mutated gene can be introduced into the "stem cells" which give rise to red
cells.
It is therefore of interest to identify any particular characteristics of DBA patients which
might delay or hinder the application of gene therapy to their disease. This pilot study of
15 patients is designed to evaluate: 1) the CD34+ cell mobilization response to
administration of standard doses of granulocyte-colony stimulating factor (G-CSF), 2) the
potential for stem cells from DBA patients to be collected by large volume leukapheresis of
subjects who have been given G-CSF, and 3) the ability of these G-CSF mobilized cells to be
transduced with vectors being developed for gene therapy applications. Outcome parameters to
be monitored are the mobilization response to G-CSF, the safety profile and tolerance of
G-CSF and leukapheresis, and the efficiency of transduction of DBA stem cells with standard
gene therapy vectors. Effectiveness will be gauged by historical comparison of these
parameters to normal healthy age-matched volunteer.
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 of bone marrow failure
in the future.
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