Lung Cancer Clinical Trial
Official title:
Evaluation of the Prognostic and Predictive Significance of EGFR, Kirsten Rat Sarcoma (KRAS), Anaplastic Lymphoma Kinase , Programmed Death-Ligand 1 (PD-L1) Protein and Microsatellite Instability (MSI) in Lung Cancer
Construction of a large cohort of lung cancer patients to evaluate the Prognostic and Predictive Significance of the molecular biomarkers Epidermal growth factor receptor (EGFR), KRAS, Anaplastic lymphoma kinase (EML4-ALK), Programmed Death-Ligand 1 (PD-L1) protein and Microsatellite Instability (MSI) in lung cancer: A tissue microarray-based study of 500 cases.
Research hypothesis The research hypothesis for this study is that the expression/status of
various molecular biomarkers (mainly including EGFR, KRAS, ALK, PD-L1 and MSI) may confer
additional prognostic ( in terms of disease outcome i.e. PFS and OS) and/or predictive ( in
terms of treatment response) information for lung cancer patients.
The research hypothesis is reflected in the primary objective of this study, which is to
further evaluate the prognostic and predictive significance of currently existing molecular
markers (EGFR, KRAS, ALK, PD-L1 and MSI), as well as of future biomarkers that may evolve.
Secondary objectives include the evaluation of the differential expression/status of the
examined biomarkers (EGFR, KRAS, ALK, PD-L1 and MSI) and standard clinicopathologic
parameters including: PFS, OS and treatment response as well as age, gender, smoking
history/status, performance status (PS), serum lactate dehydrogenase (LDH) and albumin
levels, disease stage, tumor size, histology and grade, presence or absence of brain
metastases, presence or absence of liver metastases and number of metastatic sites (all at
diagnosis), and treatment data (type of treatment(s) received and treatment response.
Potential correlations/interactions between the examined biomarkers will also be explored.
Rationale for conducting this study Rationale for biomarker selection The primary aim of this
study is to further clarify the differential expression/status and frequency of EGFR and KRAS
mutations, ALK rearrangements, PD-L1 protein and MSI, as well as their association with
various clinicopathologic parameters, including treatment response, progression-free survival
(PFS) and overall survival (OS), in a large and heterogeneous cohort of patients with lung
cancer (including both NSCLC and SCLC).
EGFR, KRAS and ALK are among the most clinically important biomarkers of treatment response
in NSCLC; EGFR and ALK represent major therapeutic targets in NSCLC. However, relatively
little is known as regards their expression and potential clinical significance in SCLC.
PD-L1 protein represents a candidate biomarker of prognosis as well as therapeutic target.
Previous experimental and clinical research data have strongly suggested that immune check
point inhibitors, including anti-PD-1 and anti-PD-L1 agents, may increase tumor cell
vulnerability to immune destruction and potentially improve survival of patients with lung
cancer. The MSI phenotype may also affect prognosis of NSCLC patients and response to
treatment, including immune checkpoint blockade with PD-1 inhibitors.
Rationale for the use of TMAs TMA-based immunohistochemistry represents an innovative
diagnostic approach with several important advantages as compared to conventional
immunohistochemical methods. As widely acknowledged, the main and foremost advantage of this
technology is its impressive potential to maximize and preserve tissue resources. Moreover,
it provides an efficient and cost-effective alternative to conventional histopathologic
processing for the performance of large-scale analyses with considerable savings in time,
labor, reagents and other laboratory consumables [31]. Most importantly, and aside from cost
reductions alone, another advantage of the TMA technique is the identical treatment of all
studied samples. Since TMAs contain multiple tissue samples on a single slide, all these
specimens are simultaneously subjected to the exact same environmental and experimental
conditions (i.e. temperature, reagents concentration, incubation time, antigen retrieval
procedure). This stands in sharp contrast to the substantial slide-to-slide variability
associated with individual processing of whole tissue sections, thus underlying the superior
standardization of the TMA technology [30].
Briefly, construction of TMAs will allow for simultaneous analysis of a large number of
biomarkers, either at the protein or at the RNA level.
Benefit/risk and ethical assessment Potential risks and benefits As this is a
non-interventional study, there are no physical potential risks to participants, other than
potential breach of confidentiality; for the same reason, there are no potential benefits to
participants.
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