Breast Neoplasms Clinical Trial
Official title:
A Multicenter Phase I-II Study of Tumor Vaccine Following Chemotherapy in Patients With Metastatic Breast Cancer Untreated With Chemo/Radiation in the Previous 18 Months: Vaccine-Induced Bias of T-Cell Repertoire Reconstitution After T-Cell Re-Infusion
This study will evaluate the effectiveness of chemotherapy and a combination of vaccines to
treat metastatic breast cancer (breast cancer that has spread beyond the breast) in patients
whose cancer cells have a protein called carcinoembryonic antigen (CEA) on their surface.
Patients who require surgery or radiation therapy, or both, will receive these treatments as
well.
Patients 18 years of age and older with previously untreated metastatic breast cancer may be
eligible for this study. Newly diagnosed patients may not have received prior chemotherapy.
Patients previously diagnosed with local disease may have received chemotherapy or radiation
therapy at least 18 months before entering the current study. Patients may have received
hormonal therapy for stage IV disease. Candidates are screened with a medical history and
physical examination, blood and urine tests, x-rays, heart and lung tests, and a test to
determine the presence of CEA on their tumor cells.
Participants undergo the following procedures:
1. Central venous line: Under local or general anesthesia, an intravenous catheter
(plastic tube) is inserted into a major vein in the chest. It is used to give
chemotherapy and other medications and to withdraw blood samples.
2. Apheresis: Before beginning treatment and at various times before and after
chemotherapy, patients undergo apheresis to collect white blood cells for later
re-infusion at the time of immunizations and to evaluate the body's response to the
vaccines. For this procedure, blood is collected through the central venous catheter
and circulated through a machine that separates the white cells from the rest of the
blood. The white cells are removed and frozen for later use. The rest of the blood is
returned to the patient through the catheter.
3. First vaccine: Before starting chemotherapy, patients receive one subcutaneous (under
the skin) injection of a vaccine called rV-CEA-Tricom, along with subcutaneous
injections of granulocyte macrophage colony stimulating factor (GM-CSF) (Sargramostim),
a drug that stimulates the bone marrow to release white blood cells and white cell
precursors into the bloodstream.
4. Chemotherapy:
- Taxol (paclitaxel)/Cytoxan (cyclophosphamide): Patients receive three to five
cycles of Taxol and Cytoxan. Taxol is given as a continuous 72-hour intravenous
(intravenous (IV), through a vein) infusion and Cytoxan is given daily for 3 days,
intravenously, over 1 hour. Cycles are 21 to 42 (usually 28) days. After each
cycle, patients also receive growth colony stimulating factor (G-CSF) (a drug that
helps boost white cells.
BACKGROUND: Metastatic breast cancer remains to this day a mostly incurable disease, with
less than 10% of patients reaching a long-term disease free survival. This study proposes
using an immune-depleting chemotherapy as platform for immunotherapy. It is based on the
following hypotheses and understanding:
- The combination of dose-intensive followed by immune-depleting chemotherapy provides a
platform for subsequent immunotherapy by:
1. Lengthening the progression-free survival period, thus allowing time for a slow
acting therapy such as vaccination to be effective.
2. Maximally decreasing the patient's tumor burden. This has been shown both in
clinical and experimental settings to be desirable if not necessary for
immunotherapy to be effective.
3. Decreasing the tumor burden which may also decrease a tumor-induced
immuno-suppressive effect linked to tumor bulk.
4. Providing tumor antigen exposure following immune depletion in the form of
repeated immunizations. This may take advantage of the pattern of immune
reconstitution following immune depleting therapy at early time points
(antigen-driven peripheral expansion of T-cells) and the renewal of a T-cell
repertoire biased towards tumor antigens and anti-tumor responses at later time
points.
- Low antigenicity of tumor antigens and immune tolerance may be overcome in a clinically
relevant fashion by providing exposure to the tumor antigens (the carcino-embryonic
antigen CEA) in a more immunogenic presentation along with added co-stimulatory signal
(in the form of two poxvirus-based recombinant vaccines).
- Due to the post immune depletion defects and delay in immune reconstitution, an
adequate immune response to vaccines may not occur unless the patients are provided,
following immune depletion, with unaltered T-cells in the form of re-infusion of
pre-chemotherapy lymphocytes.
The late recovery of thymic function (18 to 24 months) with reappearance of naive T-cells
may play a determinant role in the prevention of later disease progression. It is the
rationale for a late series of immunizations.
ELIGIBILITY: Patients with metastatic breast cancer untreated with chemotherapy or radiation
in the previous 18 months with CEA positivity in either the tumor or the serum.
OBJECTIVES: The primary objectives are to evaluate biologically this immunization strategy
by assessing CEA specific T-cell responses as well as clinically by comparing the patient
event free survival (EFS) to our historical control (protocol 96-C-0104) in which patients
have received the same conventional therapy but no immunization
DESIGN: Before any chemotherapy patients will be immunized with one of two tumor-specific,
recombinant, poxvirus-based deoxyribonucleic acid (DNA) Tricom vaccines and sensitized
lymphocytes will be cryopreserved. Patients will then receive conventional induction therapy
with Paclitaxel, Cyclophosphamide and Doxorubicin, surgery and / or radiation as indicated
for local control, then immune depleting chemotherapy with Fludarabine & Cyclophosphamide.
Following immune depletion, patients will receive 9 immunization boosts over the next 30
months. Patients whose disease progress through the vaccination schedule, may, under certain
circumstances, receive further vaccinations under a more intensive schedule (monthly).
;
Allocation: Non-Randomized, Endpoint Classification: Safety/Efficacy Study, Intervention Model: Single Group Assignment, Masking: Open Label, Primary Purpose: Treatment
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