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M. Costantini
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MINI 10 - ALK and EGFR (ID 105)
- Event: WCLC 2015
- Type: Mini Oral
- Track: Biology, Pathology, and Molecular Testing
- Presentations: 1
- Moderators:T. Yap, T. Li
- Coordinates: 9/07/2015, 16:45 - 18:15, Mile High Ballroom 1a-1f
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MINI10.01 - Frequency of Concomitant EGFR, EML4-ALK or KRAS Alterations in NSCLC Patients and Correlation with Response to Treatment (ID 942)
16:45 - 16:50 | Author(s): M. Costantini
- Abstract
- Presentation
Background:
Epidermal growth factor receptor (EGFR) and KRAS mutations, and echinoderm microtubule-associated protein-like 4 (EML4) anaplastic lymphoma kinase (ALK) translocation are generally considered to be mutually exclusive. However, some reports show that a number of patients may have concomitant mutations, and it is not yet clear what impact these double mutations could have on response to targeted therapy.
Methods:
We took into consideration 380 NSCLC patients who underwent non-sequential testing for EGFR and KRAS mutations and EML4-ALK translocation between January 2010 and December 2013. EGFR mutation and EML4-ALK translocation analysis were performed on the entire case series and KRAS mutation analysis was performed on 282 cases.
Results:
EGFR mutation and EML4-ALK translocation were present in 44 (11.6%) and 32 (8.4%) of patients, respectively. Ninety-two patients (32.6%) showed a KRAS mutation. Two concomitant mutations among EGFR, KRAS or EML4-ALK genes were observed in 16 patients. In particular, 6 of the 380 (1.6%) patients analyzed had concomitant EGFR mutation and EML4-ALK translocation. Of the 282 patients who also underwent KRAS mutation, 3 (1.1%) showed a concomitant EGFR and KRAS mutation and 7 (2.5%) a concomitant EML4-ALK and KRAS alteration. Of the 44 EGFR-mutated patients, 28 received a TKI-based treatment (24 with gefitinib and 4 with erlotinib) as first-line therapy, and 6 of these also had an EML4-ALK translocation. Among the 22 patients with EGFR mutation only, we observed 2 complete response (CR) (9%), 16 partial response (PR) (72.7%) and 4 progressive disease (PD) (18%). Of the 6 patients who also had an EML4-ALK translocation, one had CR (17%), 3 PR (50%) and 2 PD (33%). No differences were seen in terms of overall survival (OS). Of the 32 patients harboring the EML4-ALK translocation, 6 (those also carrying the EGFR mutation) were treated with a TKI as first-line therapy, while the others received chemotherapy. Twelve patients received crizotinib as second-line treatment and 7 progressed within 3 months of starting therapy. Of these, 2 showed a concomitant KRAS mutation (G12C) and one a concomitant EGFR mutation (exon 19 del). Two patients had stable disease, one of whom also showed a KRAS mutation (G12V). Two patients had PR and one had CR, all of whom showed a EML4-ALK translocation only. The median OS of the patients carrying an EML4-ALK translocation alone or a concomitant KRAS mutation was 57.1 (range 10.7-nr) and 10.7 (range 4.6-nr) months, respectively.
Conclusion:
The concomitant presence of EGFR, EML4-ALK or KRAS mutations is a possible event in NSCLC. KRAS mutation in patients with EML4-ALK translocation represents the most common double mutation and seems to confer a poor prognosis.
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