Glioma Clinical Trial
Official title:
A Phase II Trial of Tamoxifen and Bortezomib in Patients With Recurrent High-Grade Gliomas
This study will determine whether the drugs tamoxifen and bortezomib can delay tumor growth
in patients with recurrent glioma (malignant brain tumor). Tamoxifen may work by interfering
with the internal signaling needed for the cancer to grow. Bortezomib may also interfere
with tumor growth processes. Laboratory studies show that low doses of bortezomib
significantly enhance glioma cell death when used with tamoxifen.
Patients 18 years of age and older with glioma whose tumor does not respond to standard
medical treatment and who are not taking enzyme-inducing anti-seizure medications such as
Dilantin, phenobarbitol, or Tegretol, may be eligible for this study. Candidates are
screened with a physical examination, blood tests, and magnetic resonance imaging (MRI) or
computed tomography (CT). MRI and CT scans produce images of the brain that can show if the
brain tumor is growing (see below).
Participants receive treatment in 6-week cycles for up to 1 year. (The treatment duration
may be extended in some patients who continue to tolerate the drug and show no signs of
tumor growth after 1 year.) During each cycle, patients take six tamoxifen tablets twice a
day every day and receive bortezomib by infusion into a vein on days 3, 6, 10, 13, 24, 27,
31 and 34. Treatment may continue as long as the tumor does not grow and the patient does
not develop unacceptable side effects. In addition to drug treatment, patients undergo the
following tests and procedures:
- Periodic routine blood tests.
- MRI or CT scan of the head before starting each new cycle. MRI uses a magnetic field
and radio waves to produce images of body tissues and organs. CT uses x-rays to provide
3-dimensional views of the part of the body being studied. For both procedures, the
patient lies on a table that slides into the cylindrical scanner.
- Blood test to measure levels of bortezomib. Blood is drawn before the bortezomib
infusion on days 3 and 24, and 4 hours after the infusion on day 24 of the first
treatment cycle only.
- Dynamic MRI with spectroscopy or positron emission tomography (PET). Patients may be
asked to undergo one of these tests, which help distinguish live tumor from dying
tumor. The experience of dynamic MRI with spectroscopy is the same as standard MRI and
is done at the same time as the standard procedure (see above). PET uses a radioactive
substance to show cellular activity in specific tissues of the body. The patient is
given an injection of a sugar solution in which a radioactive isotope has been attached
to the sugar molecule. A special camera detects the radiation emitted by the
radioisotope, and the resulting images show how much glucose is being used in various
parts of the body. Because rapidly growing cells, such as tumors, take up and use more
glucose than normal cells do, this test can be used to show active tumors.
- Drug diary. Patients maintain a calendar to record when they take their study drugs and
what side effects they develop.
Background:
Tamoxifen (TAM), a member of the selective estrogen receptor modulator (SERM) family, is
widely used in the treatment of estrogen receptor (ER) expressing breast cancer. It has
previously been shown that high-dose TAM has cytotoxic activity against glioma cells, but
whether this effect is drug-specific or represents a general property of SERMs was unknown.
We have now demonstrated that suppression of nuclear factor kappa-light-chain-enhancer of
activated B cells (NF-kB) activation markedly enhances SERM-induced apoptosis, suggesting a
role for NF-kB in protecting glioma cells from SERM-induced cytotoxicity.
Bortezomib is a potent inhibitor of the 26S proteosome and causes significant
anti-proliferative and cytotoxic effects in a number of cell lines through its protean
effects on a variety of cellular signaling pathways, including its ability to potently
inhibit the NF-kB pathway. We have recently demonstrated that bortezomib has significant
anti-glioma activity in vitro and a ongoing clinical trial has demonstrated some possible
activity in patients with recurrent gliomas. We have now also generated preclinical data
demonstrating that bortezomib in combination with Tamoxifen has synergistic cytotoxic
effects on glioma cells.
Thus, given the minimal to modest activity of both drugs in patients with recurrent gliomas,
given their spectrum of non-overlapping toxicities, and given the marked synergistic glioma
cell killing of the combination of drugs in our preclinical screens, we are now proposing a
phase II trial of bortezomib in combination with Tamoxifen in patients with recurrent
gliomas not taking enzyme inducing anti-epileptic drugs (EIAEDs).
Objectives:
The primary statistical endpoint will be response (defined as either stable disease or
objective response as is standard in neuro-oncology clinical trials) after 6 weeks of
treatment.
Eligibility:
Patients with histologically proven high-grade gliomas or patients with a clinical and
radiographic diagnosis of brainstem glioma will be eligible for this protocol.
Design:
The phase II study will be stratified by the type of high grade glioma (anaplastic glioma
(AA) or glioblastoma (GBM)) and a two-stage min-max design with a maximum of 41 patients in
the GBM stratum and 36 patients in the AA stratum.
;
Allocation: Randomized, Intervention Model: Parallel Assignment, Masking: Open Label, Primary Purpose: Treatment
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