Acute Myeloid Leukemia Clinical Trial
Official title:
A Phase I/II Clinical Trial Testing the Safety and Feasibility of IL-21- Expanded Natural Killer Cells for the Induction of Relapsed/Refractory Acute Myeloid Leukemia
Relapsed acute myeloblastic leukemia (AML) requires remission prior to allogeneic
Hematopoietic Stem Cell Transplant (HSCT) for optimal survival, but is a disease with poor
response to chemotherapy. Human leukocyte antigen (HLA) haploidentical, Natural killer (NK)
enriched peripheral blood cell infusions have shown safety in patients with poor prognosis
AML. Though not powered for such an assessment, this trial showed a promising but not
statistically significant trend in remission rate. NK cell therapy was limited by small
numbers of NK cells attainable through leukapheresis. We have now demonstrated that large
numbers of NK cells can be propagated ex vivo from a small volume blood draw, obviating the
need for donor leukapheresis. The purpose of this trial is to determine the feasibility and
maximum tolerated dose of expanded NK cells and estimate the toxicity of treating
relapsed/refractory AML with fludarabine + high-dose cytarabine + G-CSF (FLAG) chemotherapy
followed by haploidentical expanded natural killer (NK) cells.
The first NK cell dosing cohort will be well below the currently-established safe dose of
pheresis-derived NK cells, as expanded NK cells may have increased toxicity because of their
activated phenotype. In order to avoid accruing patients at suboptimal doses, a dose
escalation schema based on the principles of an accelerated titration design is used in this
study to allow expeditious advancement up to the current safe dose of NK cells.
While growing the NK cells from the blood in the lab, mismatched T cells may also grow, which
can cause a reaction against normal tissue called graft-vs-host disease (GvHD). In the lab,
the T cells will be removed from the cell product using special magnets and antibody-coated
magnetic beads. The drug aldesleukin (interleukin-2) is then added to the NK cells to improve
their function. The aldesleukin will be washed out of the cell product before it is given to
you.
The NK cells will be donated from a family member who has a certain genetic type in their
blood called HLA that partly matches yours.
If you agree to take part in this study, you will be assigned to a dose level of NK cells
based on when you joined this study. The first group of participants will receive the lowest
dose level. Each new group will receive a higher dose than the group before it, if no
intolerable side effects were seen. This will continue for up to 6 dose levels or until the
highest tolerable dose of NK cells is found. One (1) to 10 participants will be treated in
each dose level.
The day you receive the first NK cell infusion is called Day 0. The days before you receive
your NK cell infusion are called minus days (D-). The days after you receive the NK cell
infusion are called plus days (D+).
Study Drug Administration:
On Day -7, you will be admitted to the hospital and given fluids by vein to hydrate you.
On Days -6, -5, -4, -3, and -2, you will receive fludarabine by vein over about 30 minutes.
About 4 hours later, you will receive cytarabine by vein over about 1 hour. If you are 60
years old or older, you will "rest" (not receive chemotherapy) on Day -2.
On Day -1, you will rest.
Three (3) times a week for 2 weeks, you will receive NK cells by vein over 30 minutes. You
will be given standard drugs to help decrease the risk of side effects. You may ask the study
staff for information about how the drugs are given and their risks.
You will receive filgrastim as an injection under the skin 1 time a day, starting on Day -7
and continuing until your white blood cell levels are high enough. Filgrastim is designed to
help with the growth of white blood cells.
Study Visits:
Before treatment starts:
Your medical history will be recorded. You will have a physical exam, including measurement
of your vital signs (blood pressure, heart rate, temperature, and breathing rate).
Blood (about 2 teaspoons) will be drawn for routine tests.
Before each NK cell infusion:
Your medical history will be recorded. You will have a physical exam, including measurement
of your vital signs. Blood (about 2 teaspoons) will be drawn for routine tests. The amount of
oxygen in your blood will be measured by placing a sensor on the tip of your finger.
Twice a week, while your blood counts are low, you will have blood (about 2 teaspoons) drawn
for routine tests.
Once your blood counts are high enough, you will have blood (about 2 teaspoons) drawn for
routine tests once a week until Day +56.
Once your blood counts are high enough or around Day +28 (whichever is earlier), you will
have a bone marrow aspiration and biopsy to check the status of the disease and DNA tests to
check if the cells in your bone marrow are yours or your NK cell donor's. To collect a bone
marrow aspiration/biopsy, an area of the hip or other site is numbed with anesthetic, and a
small amount of bone marrow and bone is withdrawn through a large needle.
Blood (about 2 teaspoons) will be drawn to test the genetic makeup and function of the
infused NK cells and to check the status of the disease:
Before treatment starts. Before and about 1-3 hours after each NK cell infusion. Once a day
on Days +14, +16, +18, +21, and then weekly until Day +56.
Length of Study:
Your participation on the study will be over on Day +56.
You will be taken off study early if the disease gets worse, if intolerable side effects
occur, if not enough NK cells can be collected, or if you are unable to follow study
directions.
This is an investigational study. Cytarabine, fludarabine, and filgrastim are FDA approved
and commercially available for the treatment of AML. The investigational part of this study
is to find the best dose of NK cells that can be given with the goal of helping to prevent
the cancer from coming back. The way the researchers process the NK cells is investigational
and is not FDA approved.
Up to 30 patients will take part in this study. All will be enrolled at Cellular Therapy
Center (HCPA)
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