This is a single center, clinical trial evaluating the relevance of intratumoral washing for detection of generic alteration with Next Generation Sequencing.
This is a prospective, single-arm, open-label study to assess evaluate the relevance of intratumoral washing by ultrathin bronchoscopy (outer diameter; 3mm) for detection of genetic alterations using Next Generation Sequencing in patients with NSCLC.
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
DIAGNOSTIC
Masking
NONE
Enrollment
65
Each subject suspected or diagnosed of lung cancer will undergo bronchoscopic procedure. First, ultrathin bronchoscope is inserted and placed within tumor under radial EBUS, virtual bronchoscopic navigation, and fluoroscopy guidance. Then, intratumoral washing is performed. Subsequently, transbronchial lung biopsy is performed under radial EBUS, virtual bronchoscopic navigation, and fluoroscopy guidance.
Pusan National University hospital
Busan, South Korea
Comparison of the detection rate of druggable genetic alteration using Next Generation Sequencing in bronchial washing fluid, tissue, and plasma across the full patient set
Detection rate of druggable genetic alteration is defined as the number of true positive druggable genetic alterations detected by Next Generation Sequencing, divided by the total number of attempts. Druggable mutations were defined the presence of following genetic alterations: 1) EGFR mutation, 2) KRAS G12C mutation, 3) ALK rearrangement, 4) ROS1 rearrangement, 5) BRAF V600E mutation, 6) NTRK1/2/3 gene fusion, 7) METex14 skipping mutation, 8) RET rearrangement and 9) ERBB2 (HER2) mutation. The full patient set included all enrolled subjects.
Time frame: through study completion, an average of 1 year
The concordance rate for the detection of druggable genetic mutations among bronchial washing fluid, plasma, and tissue samples using Next Generation Sequencing in the analysis intent group
The concordance rate of druggable genetic alterations detected in bronchial washing fluid by Next Generation Sequencing is compared with that in plasma and tissue in the analysis intent group. Druggable mutations were defined the presence of following genetic alterations: 1) EGFR mutation, 2) KRAS G12C mutation, 3) ALK rearrangement, 4) ROS1 rearrangement, 5) BRAF V600E mutation, 6) NTRK1/2/3 gene fusion, 7) METex14 skipping mutation, 8) RET rearrangement and 9) ERBB2 (HER2) mutation. The analysis intent group consisted of the subset of subjects for whom Next Generation Sequencing testing was successfully performed with tissue samples.
Time frame: through study completion, an average of 1 year
Comparisons of the detection rates of representative co-occurring genetic alterations in bronchial washing, plasma, and tissue samples across the full patient set
Detection rate of co-occuring genetic alteration is defined as the number of true positive co-occurring genetic alterations detected by Next Generation Sequencing, divided by the total number of attempts. Co-occurring genetic alterations were defined as the presence of following GAs: 1) ATM mutation, 2) CDKN2A mutation, 3) CTNNB1 mutation, 4) FGFR1 mutation, 5) KEAP1 mutation, 6) MDM2 amplification, 7) MET amplification, 8) MYC amplification, 9) PIK3CA mutation 10) RB1 mutation, 11) STK11 mutation and 12) TP53 mutation. The full patient set included all enrolled subjects.
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Time frame: through study completion, an average of 1 year
The incidence of adverse events associated with the bronchial washing procedure
The frequency and severity of adverse events resulting from bronchial washing procedures
Time frame: through study completion, an average of 1 year