Squamous Cell Carcinoma of the Head and Neck Clinical Trial
Official title:
Phase II Study of RAD001 for Treatment of Refractory, Recurrent, Locally Advanced Squamous Cell Carcinoma of the Head and Neck
To carry out exploratory studies to determine if activity of this regimen correlates with
tumor and patient associated markers of the EGF-R/mTOR pathway These markers may correlate
with activity of this regimen and provide exploratory insights in to the mechanism of this
treatment approach.
Expression of the pathway components including EGF-R and phosphorylated EGF-R (p-EGF-R), ERK
and p-ERK, Akt and p-Akt(T308 and S473), p70s6k and p-p70s6k, S6 and p-S6, HIF-1-alpha, p27
and 4E-BP1 will be assessed. Mutation and FISH analysis for EGF-R expression will also be
performed on tumor samples. Biopsies will be obtained at the following times: pre-treatment,
and after 4 weeks (one cycle) of treatment. If available, original diagnostic tissue may be
submitted in place of the pre-treatment biopsy.
The study of the efficacy of RAD001 will proceed in two stages after the method of Simon . In
the first stage 15 patients will be accrued and treated. If 9 or fewer patients show clinical
benefit the study will be terminated. If 10 or more patients show clinical benefit the study
will proceed to the second stage, accruing an additional 26 patients. If the second stage is
complete and a total of 29 or more patients show clinical benefit among the 41 patients
treated, the treatment CBR for will be considered high enough to warrant further study.
Conversely, if the evaluation of RAD001 concludes at the first stage, or if 28 or fewer
patients experience a clinical benefit after completing the second stage, the therapy will
not be considered for further study.
Current knowledge about the molecular mechanisms of cancer-related pathways involved in
cellular signaling, cell cycle regulation and cell death is yielding therapies directed at
specific components of these pathways, such as the epidermal growth factor receptor (EGF-R),
the mammalian target of rapamycin (mTOR), the vascular endothelial growth factor receptor
(VEGF-R) and the insulin-like growth factor receptor (IFG-R). Both small molecule and
monoclonal antibody therapies directed against these targets are available. Furthermore,
immunohistochemistry (IHC), fluorescence in situ hybridization (FISH) and mutation analysis
are available for profiling expression of pathway components, raising the possibility of
individualized prognosis and therapy.
One receptor in particular, is both a prognostic factor and a therapeutic target in HNSCC.
Upregulation of EGF-R expression and aberrant activation of kinase cascades downstream of
this receptor occur early in the process of carcinogenesis and play a major role in malignant
progression.1 The level of EGF-R expression correlates with recurrence and poor prognosis in
HNSCC. A well tolerated anti-EGF-R monoclonal antibody, cetuximab, has shown remarkable
activity against HNSCC, including statistically significant improvement in survival for
patients with locally advanced disease treated with radiotherapy, leading to its regulatory
approval for this disease.2 Unfortunately, despite survival advances achieved with EGF-R
inhibitors, the majority (~60%) of patients with advanced disease are refractory to EGF-R
directed therapies.3 One anticipated mechanism by which the current regimen may fail in some
patients is the upregulation of escape pathways downstream of the EGF-R. A pathway of
particular interest is the PI3/AKT/mTOR axis, within which the mTOR protein may be targeted
by the tyrosine kinase inhibitor RAD001.
In order to investigate pathway components that may act as an escape mechanism while
concurrently targeting a downstream kinase that may enable rescue from resistance to EGF-R
directed therapies, we propose this prospective, phase II, single-arm, single-agent
interventional clinical trial of RAD001 for patients with refractory SCCHN. The primary
outcome is activity of RAD001 while secondary outcomes include safety, toxicity and extensive
laboratory correlates to be performed on tumor tissues. By carrying out this
clinic-translational trial of the novel mTOR inhibitor, RAD001, in patients with refractory
SCCHN, we aim to explore mechanisms of activity of and resistance to inhibitors of the EGF-R
pathway components while measuring the clinical activity of RAD001.
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