Targeting the IPA and Matching for the Non-Inherited Maternal Antigen for Haplo-Cord Transplantation
Status: | Recruiting |
---|---|
Conditions: | Blood Cancer |
Therapuetic Areas: | Oncology |
Healthy: | No |
Age Range: | 18 - Any |
Updated: | 3/28/2019 |
Start Date: | October 16, 2012 |
End Date: | December 2022 |
Contact: | June Greenberg, RN |
Email: | jdg2002@med.cornell.edu |
Phone: | 212-746-2651 |
A Prospective Study of Optimal Cord Selection for Haplo-Cord Transplantation: Targeting the Inherited Paternal Antigen (IPA) and Matching for the Non-Inherited Maternal Antigen (NIMA)
In this trial, we aim to improve the outcomes of haplo cord transplant. Haplo cord transplant
is a novel and promising way to improve transplant outcomes. We hypothesize that
identification of a graft that is at least 5/6 matched and inherited paternal antigen (IPA)
targeted (i.e., cord blood grafts share one or more IPA antigens with the prospective
recipient) is more important to the outcome of haplo cord transplant than the nucleated cell
dose. The identification of such a graft for a large proportion of the subjects may
necessitate accepting a lower umbilical cord graft dose.
In addition to a umbilical cord blood transplant, recipients will receive stem cells from a
family member ( a haplo-identical donor) . After collection and prior to infusion, these
cells will be purified using a device called a CliniMACS CD34 selection device. The subject
will undergo a chemotherapy conditioning regimen prior to transplantation. No experimental
drugs are used in this study, and the combinations of drugs that will be used in the
conditioning regimen are combinations that have been used in the past.
is a novel and promising way to improve transplant outcomes. We hypothesize that
identification of a graft that is at least 5/6 matched and inherited paternal antigen (IPA)
targeted (i.e., cord blood grafts share one or more IPA antigens with the prospective
recipient) is more important to the outcome of haplo cord transplant than the nucleated cell
dose. The identification of such a graft for a large proportion of the subjects may
necessitate accepting a lower umbilical cord graft dose.
In addition to a umbilical cord blood transplant, recipients will receive stem cells from a
family member ( a haplo-identical donor) . After collection and prior to infusion, these
cells will be purified using a device called a CliniMACS CD34 selection device. The subject
will undergo a chemotherapy conditioning regimen prior to transplantation. No experimental
drugs are used in this study, and the combinations of drugs that will be used in the
conditioning regimen are combinations that have been used in the past.
This is a clinical trial for subjects with hematologic malignancies ( acute leukemia,
myeloproliferative disorders, lymphoma, myeloma) who are in need of a donor stem cell
transplant, and for whom an umbilical cord blood transplant is thought to be the best option.
As donors for allogeneic transplant, we typically try to use related family members, such as
brothers or sisters, or volunteer donors who are 'HLA matched', i.e. share similar proteins
on their cells. This study is for subjects for whom such a matched sibling donor or a matched
unrelated donor is not available.
For such subjects a commonly used transplant procedure is to use stem cells from one or two
umbilical cords (UCB) from a newborn. These umbilical cord blood grafts, despite not
completely matching the recipient, cause few problems with graft vs host disease (a common
complication of transplant). But they tend to grow very slowly and subjects often have very
prolonged hospital stays and are at high risk for complications due to low blood counts.
Umbilical cord blood transplant will be the standard arm for this protocol.
This study uses a new method of bone marrow transplantation called combined haplo-identical
cord (haplo-cord) transplantation. In this procedure, cells from a related donor who shares
half of the HLA proteins ( haplo-identical) are collected from the blood, as well as cells
from an umbilical cord, and then both are transplanted. It is hoped that by using cells from
a haplo-identical relative, subjects will have a faster recovery and require fewer
transfusions. Over time the haplo-identical cells from the relative are replaced by the cells
from the cord blood. The combined transplantation of haplo-identical stem cells and cord
blood has previously been used in approximately 60 subjects with very encouraging results.
Traditionally it has been felt that the most important determinant of outcome of an UCB stem
cell transplant is the cord blood cell dose. The second determinant is the degree of matching
between donor and recipient. Many times, we have difficulty identifying UCB units of
sufficient cell dose that are well matched. Of interest,in our prior study of haplo-cord SCT
indicated outcomes seemed independent of the UCB cell dose. If this preliminary observation
is correct, we may be able to improve the outcomes of haplo cord transplant further by
accepting lower threshold UCB doses and rather focusing on optimal matching (including
matching for HLA and another characteristic called IPA). This is the primary objective of
this study.
myeloproliferative disorders, lymphoma, myeloma) who are in need of a donor stem cell
transplant, and for whom an umbilical cord blood transplant is thought to be the best option.
As donors for allogeneic transplant, we typically try to use related family members, such as
brothers or sisters, or volunteer donors who are 'HLA matched', i.e. share similar proteins
on their cells. This study is for subjects for whom such a matched sibling donor or a matched
unrelated donor is not available.
For such subjects a commonly used transplant procedure is to use stem cells from one or two
umbilical cords (UCB) from a newborn. These umbilical cord blood grafts, despite not
completely matching the recipient, cause few problems with graft vs host disease (a common
complication of transplant). But they tend to grow very slowly and subjects often have very
prolonged hospital stays and are at high risk for complications due to low blood counts.
Umbilical cord blood transplant will be the standard arm for this protocol.
This study uses a new method of bone marrow transplantation called combined haplo-identical
cord (haplo-cord) transplantation. In this procedure, cells from a related donor who shares
half of the HLA proteins ( haplo-identical) are collected from the blood, as well as cells
from an umbilical cord, and then both are transplanted. It is hoped that by using cells from
a haplo-identical relative, subjects will have a faster recovery and require fewer
transfusions. Over time the haplo-identical cells from the relative are replaced by the cells
from the cord blood. The combined transplantation of haplo-identical stem cells and cord
blood has previously been used in approximately 60 subjects with very encouraging results.
Traditionally it has been felt that the most important determinant of outcome of an UCB stem
cell transplant is the cord blood cell dose. The second determinant is the degree of matching
between donor and recipient. Many times, we have difficulty identifying UCB units of
sufficient cell dose that are well matched. Of interest,in our prior study of haplo-cord SCT
indicated outcomes seemed independent of the UCB cell dose. If this preliminary observation
is correct, we may be able to improve the outcomes of haplo cord transplant further by
accepting lower threshold UCB doses and rather focusing on optimal matching (including
matching for HLA and another characteristic called IPA). This is the primary objective of
this study.
Inclusion Criteria:
- Subject must have a confirmed diagnosis of:
1. Previously Relapsed or refractory acute leukemia (myeloid or lymphoid)
2. Acute leukemia in first remission at high-risk for recurrence
3. Chronic myelogenous leukemia in chronic, accelerated phase or blast-crisis
4. Recurrent or refractory malignant lymphoma or Hodgkin lymphoma
5. Chronic lymphocytic leukemia, relapsed or with poor prognostic features
6. Multiple myeloma
7. Myelodysplastic syndrome
8. Chronic myeloproliferative disease
9. Hemoglobinopathies
10. Aplastic anemia
11. Other hematological disorder in need of allogeneic transplant (e.g. blastoid
dendritic cell neoplasm)
- Age ≥ 18 years
- Likely to benefit from allogeneic transplant in the opinion of the transplant
physician
- An HLA-identical related or unrelated donor cannot be identified within an appropriate
time frame.
- Karnofsky (KPS) Performance status of >= 70%
- Acceptable organ function as defined below: Serum bilirubin: < 2.0mg/dL ALT(SGPT): < 3
X upper limit of normal Creatinine Clearance: > 50 mL/min/1.73m2 (as estimated by the
modified MDRD equation)
- Ability to understand and the willingness to sign a written informed consent document
Exclusion Criteria:
- Life expectancy is severely limited by concomitant illness or uncontrolled infection
- Severely decreased Left Ventricular Ejection Fraction (LVEF) or impaired pulmonary
function tests (PFT's)
- Evidence of chronic active hepatitis or cirrhosis
- Uncontrolled HIV disease
- Pregnant or lactating
We found this trial at
2
sites
5841 S Maryland Ave
Chicago, Illinois 60637
Chicago, Illinois 60637
(773) 702-1000
Principal Investigator: Andrew Artz,, MD, PhD
Phone: 773-834-0982
University of Chicago Medical Center The University of Chicago Medicine has been at the forefront...
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