Glioblastoma Multiforme, Adult Clinical Trial
Official title:
Pre-operative Radiation Therapy (RT) and Temozolomide (TMZ) in Patients With Newly Diagnosed Glioblastoma. A Phase I Study. (PARADIGMA)
Glioblastoma (GBM) is the most common primary brain cancer in adults. Despite surgery,
conventional radiotherapy, and chemotherapy, the average survival for GBM is 15-16 months.
Although additional chemoradiotherapy has been shown to increase survival, the majority recur
at the original location.
Despite many efforts to improve the local control by improving surgical techniques,
increasing the radiotherapy dose or adding newer chemotherapy agents, these attempts have
failed to show a survival benefit or an improved cancer control. People who are not
participating in a study are usually treated with surgery followed by radiation (6 weeks
duration) together with temozolomide (chemotherapy drug) followed by temozolomide alone. For
patients who receive this usual treatment approach for this cancer, about 4 out of 100 are
free of cancer growth five years later. Because GBM invades the surrounding normal brain,
this study is looking into the possibility of minimizing invasion by starting treatment using
the combination of radiotherapy and chemotherapy prior to surgery. This approach is an
experimental form of treatment and the diagnosis is based exclusively on imaging and not on
histology of the tumour tissue, and there is a possibility that your tumor may not be a GB
but of other origins.
One of the deadly properties of GBM is its capacity to diffusely infiltrate the surrounding
normal brain tissue. Unlikely many malignancies, in GBM local disease progression, rather
than metastatic disease, is the leading cause of death. Extent of resection plays a key role
in the treatment of these patients with complete surgical resection improving outcome. In a
prospective, non- interventional, multi-institutional study of over 140 patients with GBM and
minimal or no residual tumor on post-operative MRI, Stummer et al.have shown that extent of
resection is indeed associated with improved survival. However, despite evidence of complete
resection on post-operative imaging studies, surgery is rarely truly complete. GBMs are
invasive tumors and, at time of surgery, a clear boundary is not clearly identifiable, either
on pre- or intra- operative imaging. Even when sophisticated imaging'techniques are used,
they are unable to detect invasive brain cancer cell for proper pre-operative surgical
planning to optimally delineate the tumor boundaries for a truly complete resection. Even if
they were, brain eloquence would preclude a complete resection of most GBMs.
Despite extensive and complete surgical tumor removal coupled with radiation and
chemotherapy, even in high doses, 90% of patients still fail at the border or within a few
centimeters from the surgical cavity. Glioma cell migration outside the original tumor site
may be responsible for this recurrence pattern. Cell migration is a complex, dynamic process
and is well-documented in GBM. It involves, at least, 3 independent but coordinated biologic
processes: 1) cell adhesion to components of the extracellular matrix, 2) cell's own motility
and 3) invasion. Giese et al.) reported that cell migration is established by several
independent mechanisms, facilitating the spread of tumor astrocytes, but with cell motility
being the possible common denominator for this biologic behavior.
Invasion of tumor glioma cells is a multi-factorial process. To migrate, the cell needs a
change in morphology and to interact with the extracellular matrix. It is possible that the
surgical insult at the time of tumor removal may facilitate such an environment. Also,
Wild-Bode et al.(6) have shown, in animal models, that sub-lethal doses of irradiation
promote the migration and invasiveness of glioma cells. It is conceivable that the use of
conventionally fractionated radiation therapy (2 Gy per day), even in doses above 60 Gy,
leads to only sub-lethal damage potentially promoting cell migration.
In a recently completed Phase 2 study for patients with newly diagnosed GBM, our group has
shown that the use of concurrent temozolomide and hypofractionated radiation therapy to a
dose of 60 Gy given in 20 fractions (daily dose of 3 Gy) preceded by 2 weeks of temozolomide
given in the post-operative setting was associated with 2-year survival rates of 63% and 29%
for MGMT methylated and unmethylated tumors, respectively (Dr. G. Shenouda, personal
information. Manuscript submitted for publication). These promising results may be possibly
due to a dual effect of the use of neoadjuvant temozolomide (prior to radiation therapy) and
the use of a hypofractionated radiotherapy regimen. The upfront use of temozolomide may have
affected tumor control by interfering with the upstream signaling event triggered by the RT
preventing cell migration and also by promoting inhibition of glioma cell invasion.
GBMs are one of the most rapidly growing tumors. Primary GBMs typically develop and grow to
be greater than 3 cm in less than 4 months. Under the current standard treatment approach,
patients undergo surgery and, rather than starting adjuvant therapy immediately at a moment
when there is the least amount of residual tumor burden, they wait 3-4 weeks, for practical
reasons, to start adjuvant treatment with RT and TMZ. In addition, the combined treatment
takes an additional 6 weeks to complete. Thus it takes 9-10 weeks for patients to complete
maximum local treatment. In other words, one of the most aggressive tumors has been given
another 9-10 weeks to proliferate, repopulate and invade. It is conceivable that this delay
in adjuvant treatment gives the residual brain cancer cells the opportunity to regrow and
invade prior to completion of RT and TMZ thus contributing to 85% of all failures occurring
at or within 2 cm of the original resection cavity margin.
The use of pre-operative RT, either alone or in combination with chemotherapy, has been
successfully used in other pathologies. In patients with soft tissue sarcoma, localized .
rectal cancer, locally advanced breast cancer, and esophageal cancer the use of pre-operative
RT has been associated with improved local control (8-11). Recently, the use of neoadjuvant
radiosurgery has been explored in patients harboring resectable metastatic brain lesions
(12). A total of 47 patients underwent radiosurgery prior to the surgical procedure (total of
51 lesions) and the authors report high rates of local control with limited toxicity. The use
of pre-operative RT has several theoretical advantages in patients with GBM. Neoadjuvant RT
is delivered prior to the surgical procedure minimizing, theoretically, the risk of local
cell migration at the time of the surgical intervention. It has also the advantage of
treating a target that has an intact blood supply and, most importantly, RT will be delivered
to a better defined target. It also allows a definitive portion of the treatment paradigm to
be delivered in a timely manner with no prolonged delay.
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