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Narumol Trachu
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P3.09 - Pathology (Not CME Accredited Session) (ID 975)
- Event: WCLC 2018
- Type: Poster Viewing in the Exhibit Hall
- Track:
- Presentations: 2
- Moderators:
- Coordinates: 9/26/2018, 12:00 - 13:30, Exhibit Hall
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P3.09-08 - Tumor Heterogeneity and Molecular Profile of NSCLC in Thai Population (ID 14016)
12:00 - 13:30 | Author(s): Narumol Trachu
- Abstract
Background
Oncogenic driven mutation is the key to develop targeted therapy in lung cancer. Different ethnicity and tumor heterogeneity affect the prevalence of molecular alteration. This study aimed to explore the unique molecular profile of lung adenocarcinoma in Thai population.
a9ded1e5ce5d75814730bb4caaf49419 Method
We studied 166 lung adenocarcinoma patients’ molecular profile using Next Generation Sequencing (NGS) on 45 genes lung cancer panel (Ion Torrent system). Variants from NGS with coverage of higher than 1000X and cut off at 2% alternate variant frequency were considered positive. We validated the positive mutation of EGFR, BRAF, and KRAS by Real- Time PCR using the Amoy DX kit.
4c3880bb027f159e801041b1021e88e8 Result
This study found 68%(113/166) of EGFR mutation, 9.6%(16/166) of BRAF V600E, 32.5% (54/166) of KRAS mutation, 9%(15/166) of MET exon14 splice site, 4.8% (8/166) AKT mutation (E17K), 2.4% (4/166) of ROS1 mutation, 0.6% (1/166) of PIK3CA mutation (H1047R), and 0.6% (1/166) of PTEN mutation. Furthermore, we also found 40 patients (24.1%) who had more than one mutation in each person. We further validated the positive results by Real-Time PCR. Thirteen patients were obtained tissue from different organs and some with different period of time. T790M usually develop later in EGFR-positive patients who failed 1st or 2nd generation EGFR-TKI. Two patients (patient 5&9) who had lung surgery different lobe in same operation, had different mutation in tissues and one patient (patient 13) who obtained tissue from lung and pleural effusion cell block in different period of time had totally different mutation (Table1).
Table1 Tumor heterogeneity profile in lung cancer patients
case
Hetrogenety in different organ
date obtained tissue
Gene mutation
EGFR
KRAS
ROS
PTEN
AKT
MET
BRAF
1
RLL lobectomy
12-Jun-2012
Exon 19 Deletion
negative
negative
negative
negative
negative
negative
Right lung
4-May-2016
Exon 19 Deletion T790M
negative
negative
negative
negative
negative
negative
2
lymph node
16-Mar-2017
negative
negative
negative
negative
negative
negative
negative
Bone
9-Apr-2017
negative
negative
negative
negative
negative
negative
negative
3
Right upper lung biopsy
20-Jan-2016
Exon 19 Deletion
negative
negative
negative
negative
negative
negative
Lung biopsy
31-Mar-2017
T790M
negative
negative
negative
E17K
negative
negative
4
lymph node
13-Jan-2016
negative
G12A
negative
negative
negative
negative
negative
skin
17-Jan-2016
negative
G12V G12D
negative
negative
negative
negative
negative
left humerous
30-Jun-2016
negative
G12V
negative
negative
negative
negative
negative
5
RML lobectomy
13-Nov-2013
Exon 19 Deletion
G13D
negative
negative
negative
negative
negative
LUL lobectomy
14-May-2014
negative
G12D G13D
negative
R233*
negative
negative
negative
LUL lobectomy
14-May-2014
negative
G12V G12D
D2033N
negative
negative
negative
negative
6
Right pleura biopsy
11-Jan-2016
Exon 19 Deletion
negative
negative
negative
negative
negative
negative
RUL biopsy
1-Mar-2017
Exon 19 Deletion
negative
negative
negative
negative
negative
negative
7
RUL biopsy
28-Sep-2015
L858R
negative
negative
negative
negative
negative
negative
Left pleural fluid cell block
27-Jun-2016
negative
negative
negative
negative
negative
negative
negative
8
Right pleural fluid cell block
25-Mar-2016
Exon 19 Deletion
negative
negative
negative
negative
negative
negative
Left pleural fluid cell block
9-Dec-2016
T790M
negative
negative
negative
negative
negative
negative
9
RML lobectomy
14-Mar-2013
negative
G13S
negative
negative
E17K
negative
negative
RLL wedge resectionRLL lo
30-Mar-2017
G719A L861Q
negative
negative
negative
negative
negative
negative
10
RLL lobectomy
26-Aug-2013
negative
G12C G12D
negative
negative
negative
negative
negative
Left lingular lobe segmental resection
9-Oct-2014
negative
G12D
negative
negative
negative
negative
negative
LUL wedge resection
11-Feb-2016
negative
G12D
negative
negative
negative
negative
negative
LUL lobectomy
4-Jun-2017
negative
G12D
negative
negative
negative
negative
negative
LLL resection
9-Oct-2014
negative
G12D
negative
negative
negative
negative
negative
11
Right pleural cell block
21-Jul-2014
L858R
negative
negative
negative
negative
c.3028G>A exon 14 splicing
negative
Ascites
9-Jun-2017
T790M L858R
negative
negative
negative
negative
negative
negative
12
LUL biopsy
24-Feb-2015
L858R
negative
negative
negative
negative
negative
V600E
Lt lung biopsy
8-Jul-2016
L858R
negative
negative
negative
negative
negative
negative
13
RLL biopsy
14-Oct-2015
negative
negative
negative
negative
negative
c.3028+1G>T exon 14 splicing
negative
pleural fluid cell block
15-Nov-2016
Exon 19 Deletion T790M
negative
negative
negative
negative
negative
negative
Thai populations have unique molecular alteration compared to the other ethnicities, especially, higher of BRAF V600E and MET exon14 splice site. Our population also has high co-mutation prevalence. Tumor heterogeneity is needed to explore in the larger cohort.
6f8b794f3246b0c1e1780bb4d4d5dc53 -
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P3.09-19 - Matched Thai Lung Cancer Patients Tissue and cfDNA Molecular Profile by NGS (ID 14341)
12:00 - 13:30 | Presenting Author(s): Narumol Trachu
- Abstract
Background
Liquid biopsy is the new non-invasive technology to explore the molecular profile. We evaluate molecular alteration from matched tissue and liquid specimen in NSCLC patients using NGS.
a9ded1e5ce5d75814730bb4caaf49419 Method
A total 61 matched tumors and cfDNA in NSCLC patients were retrieved for DNA extraction. All qualified samples were analyzed by using Next Generation Sequencing (NGS) with Gene read Qiagen Lung Cancer Panel sequencing 45 Genes on Ion Torrent system.Variants from NGS with coverage of higher than 1000X of tissues and 10000X of liquid biopsy, cutoff at 3% variant frequency were considered positive. Each detected mutation was validated by the different method. EGFR-mutation detected at this cutoff was validated by Real-time PCR technique using the ARMS-PCR (Amoy DX Kit) for tissue samples and droplet-digital PCR (ddPCR) for blood samples in all samples.
4c3880bb027f159e801041b1021e88e8 Result
This study found 59.0% and 19.7% of EGFR mutation, 14.75% and 8.20% of KRAS mutation in tissues and cfDNA, respectively. Moreover, we found 3.29% of BRAF V600E, 1.64% of MET exon14 splice site, and 1.64% of ROS1 mutation in tissue NGS and also confirmed by the other techniques, but there was none of these mutations in the blood sample. Looking at EGFR-mutation detected by different techniques, higher sensitivity, specificity, positive-predictive value, negative-predictive values, and concordant rate were found in tissue NGS and liquid ddPCR compared with liquid NGS at cutoff 3% of variant frequency detection, when the gold standard for validation was ARMS-PCR in tissue testing (Table1).
Table1. Performance of NGS, ARMS and ddPCR for EGFR mutation detection in matched tissue and cfDNA in lung cancer patients. Tissue by ARMS PCR
Result
Tissues by NGS
negative
positive
total
Sensitivity= 87.7%
negative
14
11
25
Specificity= 100%
positive
0
36
36
Positive predictive value= 100%
Total
14
47
61
Negative predictive value= 75.6%
Concordance = 82%
Tissue by ARMS PCR
cfDNA by NGS
negative
positive
total
Sensitivity= 35.7%
negative
12
37
49
Specificity= 98.2%
positive
2
10
12
Positive predictive value= 97.9%
Total
14
47
61
Negative predictive value= 38.9%
Concordance = 42.6%
Tissue by ARMS PCR
cfDNA by ddPCR
negative
positive
total
Sensitivity= 82.7%
negative
14
14
28
Specificity= 100%
positive
0
33
33
Positive predictive value= 100%
Total
14
47
61
Negative predictive value= 69.4%
Concordance = 77.05%
Tissue by NGS
cfDNA by NGS
negative
positive
total
Sensitivity= 36%
negative
20
29
49
Specificity= 93.2%
positive
5
7
12
Positive predictive value= 84.8%
Total
25
36
61
Negative predictive value= 55.8%
Concordance = 60.66%
cfDNA by ddPCR
cfDNA by NGS
negative
positive
total
Sensitivity= 45.5%
negative
25
24
49
Specificity= 97.7%
positive
3
9
12
Positive predictive value= 94.5%
Total
28
33
61
Negative predictive value= 65.6%
Concordance = 65.58%
Using tissue for molecular profile testing is still being the gold standard testing. Liquid biopsy is less invasive, but in our study, liquid NGS performed less sensitivity, specificity, PPV, NPV, and concordance rate compared with tissue NGS. We need to explore more for proper cutoff of variant allele frequency to develop more sensitivity and specificity of liquid NGS.
6f8b794f3246b0c1e1780bb4d4d5dc53