Cytomegalovirus Infections Clinical Trial
Official title:
Virus Specific Cytotoxic T-Lymphocytes for the Treatment of CMV After Allogeneic Stem Cell Transplant: A Dose-Finding Trial
Patients have a type of blood cell cancer, other blood disease or a genetic disease for
which they will receive a stem cell transplant. The donor of the stem cells will be either a
brother or sister or another relative or a closely matched unrelated donor. We are asking
patients to participate in this study which tests if blood cells from the donor that have
been grown in a special way, can prevent the patients from getting an infection with a virus
called Cytomegalovirus or CMV.
CMV is a virus that can cause serious infections in patients with suppressed immune systems.
It usually affects the lungs and can cause a very serious pneumonia, but it can also affect
the intestinal tract, the liver and the eyes. Approximately 2/3 of normal people harbor this
virus in their body. In healthy people CMV rarely causes any problems because the immune
system can keep it under control. If the patient and/or their donor is positive for CMV,
they are at risk of developing CMV disease while the patients immune system is weak post
transplant. Usually, this risk is highest during the first 3-4 months after the transplant.
CMV disease can be prevented during this time in most people by using drugs that can kill
the virus such as Ganciclovir, Foscarnet, or Cidofovir . However, these medications have
many side effects and have to be given daily by vein for approximately 4-5 months after
transplant. One of the side effects is that it takes the new immune system much longer to
develop an effective defense against the virus. Therefore, once the medicines are stopped,
the patients still have a chance to develop CMV disease.
We want to see if we can use a kind of white blood cell called T cells that we have grown
from the stem cell donor instead of the regular treatment with Ganciclovir or Foscarnet to
prevent CMV from "flaring up". These cells have been trained to attack CMV virus infected
cells. We will grow these T cells from blood taken from the donor before the patients
transplant. These cells are called CMV-specific cytotoxic T-lymphocytes or CMV CTL, and they
will be given to the patient around 30 days after their transplant.
We have used this sort of therapy to treat a different virus which can cause problems after
transplant called Epstein Barr Virus (EBV). Doctors at other places have used similar T
cells to treat or prevent CMV infections after transplant and have not seen any significant
problems. These CMV specific cytotoxic T cells are an investigational product not approved
by the Food and Drug Administration.
If the patient and their donor are eligible, we will take 100-120 ml (20-24 teaspoonfuls) of
blood from the donor 3-4 weeks before the transplant. We will only take as much blood as is
safe for the patient and their donor.
We will use this blood to grow T cells. We will first infect the peripheral blood
mononuclear cells with a specially produced human virus adenovirus) that carries part of the
CMV gene to the monocytes which will stimulate the T cells. This stimulation will train the
T cells to kill cells with the pp65 from the CMV virus on their surface. If this approach is
insufficient to stimulate T cells which will kill the pp65 from the CMV virus then we will
grow a special type of cell called dendritic cells which will stimulate the T cells and we
will put the specially produced human virus (adenovirus) that carries the parts of the CMV
gene (called pp65) into the dendritic cells. These dendritic cells will then be treated with
radiation so they cannot grow. They will then be used to stimulate T cells. This stimulation
will train the T cells to kill cells with the pp65 from the CMV virus on their surface.
We will then grow these CMV specific CTLs by more stimulation with EBV infected cells (which
we will make from the blood of the donor by infecting them with EBV in the laboratory). We
will also put the adenovirus that carries the CMV pp65 gene into these EBV infected cells so
that they too have CMVpp65. These EBV infected cells will be treated with radiation so they
cannot grow. Once we have made sufficient numbers of T cells we will test them to make sure
they kill cells with CMVpp65 on their surface. To make sure that these cells won't attack
the patients tissues, we test these cells against the lymphoblasts that we grow in the
laboratory. These will be used to check if the CMV CTL can attack them. Alternatively, we
could take a small piece of skin from the patient to grow skin cells which can also be used
to check if CMV CTL can attack them. The skin biopsy can be done at the same time of another
procedure such as a bone marrow.
The donor's CMV CTL cells will be thawed and injected into the patients intravenous line for
a period of 10 minutes after the patient received Benadryl and Tylenol. The patient will
receive the dose of CMV CTL cells on or after day 30 following their transplant if they
agree and are well enough. We will not give antiviral medications during this study but we
will monitor the CMV levels weekly for at least 30 days after the transplant. If after the
initial dose of CMV CTL cells the patient develops a viral infection, then they may be
eligible to receive one additional injection of CTLs at the same dose as the first
injection. If the CMV levels in the blood continue to rise after the dose of T cells then
the patient will receive treatment with Ganciclovir, Foscarnet, or Cidofuvir.
The patient will continue to be followed in the BMT clinic after the injection. They will be
seen in the clinic, in the hospital or contacted by the research nurse and have blood tests
(to monitor the blood counts, the kidney and liver function and to monitor for viruses)
weekly for the first 60 days after the CTL infusion, then at 3, 6, 9 and 12 months. To learn
more about the way the T cells are working in the body, an extra 20-40 mls (4-8 teaspoons)
of blood will be taken before the infusion and then 24 hours after the infusion (optional
depending on the patients preference), and then at 1, 2, 4 and 6 weeks after the infusion.
After this, blood will be taken every 3 months for 1 year. The amount of blood taken in the
first 12 months will be 260-460mls (1-2 cups). Total time participation for this study will
be 1 year.
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Endpoint Classification: Safety/Efficacy Study, Intervention Model: Single Group Assignment, Masking: Open Label, Primary Purpose: Treatment
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