Multiple Myeloma Clinical Trial
Official title:
Peripheral Blood Mobilized Hematopoietic Precursor Cell Transplantation Followed by T-Cell Add-Back for Hematological Malignancies - Role of Cyclosporine
Cancers of the blood, sometimes referred to as hematologic malignancies, are disorders of
bone marrow cells that lead to the failure of the normal function of bone marrow and the
uncontrolled growth of cancerous cells in the bone marrow. These cancerous cells can spill
over into the bloodstream and affect other organs causing widespread symptoms. The disease is
life threatening because it blocks the normal function of the marrow, which is to produce red
cells (preventing anemia), white cells (preventing infection), and platelets (preventing
progression).
Bone marrow transplants are a potential form of therapy for patients with hematologic
malignancies. However, BMT is a complicated procedure and can be associated with dangerous
side effects.
In this study researchers are attempting to find ways to reduce the complications of BMT, so
that it would be possible to use it more safely and can be offered more patients. In order to
do this, researchers are developing new techniques to make BMT safer. It requires making
small changes to the standard procedure, which may improve the outcome.
The experimental procedures researchers are evaluating are:
1. <TAB>T-cell depleted peripheral blood progenitor cell (PBPC) transplantation
2. <TAB> Cyclosporine given immediately after the transplant
3. <TAB>Add-back of donor lymphocytes
Patients undergoing these experimental techniques must be monitored closely to see if any
benefit or harmful effects will occur. Information gathered from this study can be used to
develop further research studies and potential new therapies for hematologic malignancies.
Bone marrow stem cell transplant studies carried out by the NHLBI BMT Unit have focused on
approaches to optimize the stem cell and lymphocyte dose in order to improve transplant
survival and increase the graft-vs.-leukemia effect. A CD34 stem cell dose of greater than 3
x 10(6)/kg was found to increase survival and reduce relapse, while a CD3+ lymphocyte dose of
less than 1 x 10(5)/kg was associated with a very low incidence of GVHD. Although processing
of 2 peripheral blood progenitor cell (PBPC) collections with the CellPro immunoabsorption
method (combined CD34-positive selection and CD2-negative selection) provided an improvement
over previous methods, the system did not always achieve these optimal cell doses. A recent
preclinical evaluation by the Department of Transfusion Medicine of a new immunomagnetic cell
selection system available from Nexell, Inc. has demonstrated improved recovery of CD34+
cells and increased depletion of T lymphocytes, compared to the CellPro method. Incorporation
of the Nexell system (Isolex 300i) into this clinical protocol will allow us to more
consistently achieve CD34+ cell doses above the threshold of 3 x 10(6)/kg and CD3+ lymphocyte
dosing in the region of 0.5 x 10(5)/kg. This will make it possible to test (1) the potential
benefit of optimized transplant cell doses, (2) elimination of post transplant
immunosuppression to enhance immune recovery.
In this study, we will use the Nexell Isolex 300i system to obtain more data on the
relationship between CD34+ stem cell dose and outcome. In recipients who receive a T cell
dose less than 0.5 x 10(5) CD3+ cells/kg the effect of withdrawing cyclosporine on
development of GVHD will be evaluated in a cohort study: 20 patients will receive low dose
cyclosporine. If the incidence of grade II or worse GVHD is 10% or less, no post transplant
immunosuppression will be given to the next cohort and the incidence and severity of acute
GVHD again assessed. Stopping rules for unacceptable GVHD severity will be applied. Two match
groups HLA 6/6 and 5/6 donor-recipient pairs will be separately studied using this approach.
In a second phase of the study we will continue to accumulate data on T lymphocyte add-back
given on day 45 and day 100 after transplant. For this phase, cyclosporine will be
reintroduced on day 44 and continued until day 120 to accelerate immune recovery.
Up to 70 patients aged between 10 and 55 years will be studied in each subset (HLA 6/6 and
5/6 matched cohorts). The major endpoint of the study is acute GVHD after transplant. We will
also measure engraftment, acute and chronic GVHD, leukemic relapse, transplant-related and
all causes of mortality, cytomegalovirus reactivation and leukemia-free survival. Patients
will be followed for a minimum of 5 years.
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