Lung Neoplasms Clinical Trial
Official title:
Use of a New Blood Test to Identify Response to Targeted Treatment in Patients With EGFR Mutated Lung Cancer. Evaluation in a Multicenter Study
In non-small celled lung cancer (NSCLC) 10-15% of the patients harbor a mutation in the
tumor's epidermal growth factor receptor (EGFR M+). This receptor is the target for treatment
with erlotinib. Identification of EGFR M+ is done on a biopsy, which can be difficult to
retrieve. A new blood based test identifies EGFR M+ in plasma, which makes it possible to
monitor the level of EGFR M+ in the patient's blood during treatment. This enables both a
closer monitoring of the treatment with erlotinib and a closer study of the resistance
mechanisms that almost inevitably develop during treatment. A pilot study demonstrated that
the quantity of EGFR M+ in plasma correlates to the response to treatment and might be used
to predict disease progression.
Patients with EGFR M+ NSCLC referred to a participating oncology department may be enrolled
in the project. The investigators expect to include 250 patients over a four-year period.
Patients will receive standard treatment and follow up. Standard 1st line treatment for
patients with metastatic disease is tyrosine kinase inhibitors (TKI) eg. erlotinib. A biopsy
and blood sample will be retrieved before treatment with is initiated. The patient will be
monitored prospectively with blood samples every 3rd-6th week both during erlotinib
treatment, subsequent lines of treatment and treatment intermissions. The blood samples are
analyzed for subtypes of EGFR M+ both sensitizing mutations and mutations known to drive
resistance to erlotinib treatment. In the event of occurring resistance mutations or
unexpected increase in quantity of sensitizing mutations clinical action will be taken;
initially in the form of additional scans searching for signs of disease progression.
Clinical data will be retrieved from the patient's medical journal. Patients are followed
until death or at least 24 months after inclusion. Any excess biological material will be
stored for up to 15 years in a bio bank for future research purposes.
We expect our results to validate the use of EGFR M+ detection and quantification via blood
samples in a clinically relevant setting. The investigators expect earlier identification of
disease progression to allow more cases of local treatment thus - hopefully - increasing the
progression free survival. Continued blood monitoring in subsequent lines of treatment and
treatment intermissions will add to our knowledge of the nature of EGFR M+ NSCLC. The
sampling of biological material allows us to further investigate the biology of resistance.
Background Non-small celled lung cancer (NSCLC) is one of the most common cancers in the
world, and Denmark has one of the highest incidences of approximately 3800 new patients each
year who are diagnosed with NSCLC, and the overall prognosis is very poor.
The EGF (epidermal growth factor) system with its known receptors and related proteins are
known to play an active role in the development of cancer. In non-small cell lung cancer
(NSCLC) especially EGFR has been studied. Inhibition of EGFR is associated with prolonged
survival especially in patients with mutations in the EGFR (EGFR M+) 10-15% of the patients
with NSCLC harbor a mutation in the tumor's EGFR. This receptor is the target for treatment
with the tyrosine kinase inhibitor (TKI) erlotinib. The response rate for erlotinib treatment
in EGFR M+ NSCLC is around 75% as opposed to response rates around 30% for treatment with
traditional chemotherapy.
Recently, resistance mechanisms that cause progression on TKI treatment has been elucidated.
The most common is the T790M mutation in EGFR, but other mechanisms such as increased MET and
HER3 expression is also described. It is estimated that T790M mutations in EGFR accounts for
50% of the cases with TKI resistance development. With the exception of HER3 and MET, which
is estimated to represent less than 5% of the cases with the development of resistance, are
the mutations which cause the remaining 50% of cases, resistance remains unknown. The
revelation of further resistance mutations hampered by the problems of obtaining biopsies
when progression occurs.
Identification of EGFR M+ is done on a tumor biopsy, which can be difficult to retrieve.
Furthermore a biopsy only provides information about a certain part of the one tumor site,
that is tested. The investigators know that tumors especially in NSCLC is a very heterogenous
group. A blood test provides us with e more overall information about the tumor mass of each
specific patient. However tumor DNA is also present in blood of cancer patients in the form
of circulating free DNA. A new blood based test identifies EGFR M+ in plasma, which makes it
possible to monitor the level of EGFR M+ in the patient's blood during treatment. This
enables both a closer monitoring of the treatment with erlotinib and a closer study of the
resistance mechanisms that almost inevitably develop during treatment.
A pilot study with 23 EGFR M+ NSCLC patients demonstrated that the quantity of EGFR M+ in
plasma correlates to the response to treatment and might be used to predict disease
progression. In this study resistance mutations were detected between 20-300 days prior to
clinical evidence of disease progression via CT scans.
Retrospective studies suggest that local treatment of oligoprogressive disease markedly
increases progression free survival thus prolonging the time until a change to subsequent
lines of systemic treatment is necessary.
Methods Patients with EGFR M+ NSCLC referred to one of the participating oncology departments
may be offered enrollment in the project. A multicenter collaboration allows us to identify
250 EGFR M+ patients in a two-year period (200 patients with metastatic disease and 50
patients with localized disease). The EGFR mutation must be diagnosed via a diagnostic tissue
sample. Patients must be over 18 years and give a written consent before entering the study.
Patients can at any time withdraw their consent.
The patients will receive standard treatment and follow up. Standard 1st line treatment for
patients with disseminated EGFR M+ disease is erlotinib. Standard follow up during this
treatment is blood testing and clinical evaluation every 6th week and a CT scan evaluated by
the RECIST criteria every 12th week. Additional tests are ordered on clinical indication. A
biopsy and blood sample will be retrieved before treatment with is initiated. The patient
will be monitored prospectively with blood samples (2x10 ml EDTA tubes) every 3rd-6th week
both during erlotinib treatment, subsequent lines of treatment and treatment intermissions.
The blood samples will be transported to the Department of Clinical Biochemistry, Aarhus
University Hospital where it will be analyzed for subtypes of EGFR M+ both sensitizing
mutations and mutations known to drive resistance to erlotinib treatment. Analyses are
performed using the COBAS 4800 light cycler. In the event of occurring resistance mutations
or unexpected increase in quantity of sensitizing mutations clinical action will be taken;
initially in the form of additional scans searching for signs of disease progression.
Clinical data will be retrieved from the patient's medical journal. These data include TNM
status, histology, treatment modality and patient characteristics (gender, age, smoking
status and performance status) Patients are followed until death or at least 24 months after
inclusion.
Tissue samples will be examined retrospectively using exom sequencing. Any excess biological
material will with the patients' consent be stored for up to 15 years in a bio bank at -80
degrees celsius. This allows optimal use of the material, because it will make it possible to
conduct future research in the cancer field.
Aims and perspectives The overall purpose of this study is to increase our knowledge
concerning molecular mechanisms - especially the development of resistance - in EGFR M+
NSCLC. Increased molecular knowledge is crucial in the development towards a more
personalized cancer care. It provides us with better methods in selecting which treatment is
the optimal choice for each individual patient. The investigators expect our results to
validate the use of EGFR M+ detection and quantification via blood samples in a clinically
relevant setting complementing CT scans in treatment evaluation. The investigators expect to
be able to identify disease progression earlier than it would be possible using CT scans
alone and thereby discovering more cases of oligoprogressive disease eligible for local
treatment thus - hopefully - increasing the progression free survival.
The continuation of blood monitoring in subsequent lines of treatment and treatment
intermissions will add to our knowledge of the nature of EGFR M+ NSCLC.
Additionally the sampling of biological material makes it possible for us to further
investigate the biology of resistance.
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