James C-H Yang1, Lecia V Sequist2, Sarayut Lucien Geater3, Chun-Ming Tsai4, Tony Shu Kam Mok5, Martin Schuler6, Nobuyuki Yamamoto7, Chong-Jen Yu8, Sai-Hong I Ou9, Caicun Zhou10, Daniel Massey11, Victoria Zazulina12, Yi-Long Wu13. 1. Graduate Institute of Oncology, National Taiwan University and National Taiwan University Hospital, Taiwan. 2. Massachusetts General Hospital Cancer Center, Boston, MA, USA. 3. Internal Medicine, Faculty of Medicine, Prince of Songkla University, Thailand. 4. Department of Chest Medicine, Taipei Veterans General Hospital and School of Medicine National Yang-Ming University, Taipei, Taiwan. 5. Clinical Oncology, The Chinese University of Hong Kong, Hong Kong. 6. West German Cancer Center, Department of Medical Oncology, University Hospital Essen, Germany and German Cancer Consortium (DKTK), Heidelberg, Germany. 7. Third Department of Internal Medicine, Wakayama Medical University, Japan. 8. Department of Internal Medicine, National Taiwan University and National Taiwan University Hospital, Taiwan. 9. Chao Family Comprehensive Cancer Center, University of California Irvine School of Medicine, Orange, CA, USA. 10. Shanghai Pulmonary Hospital, Shanghai, China. 11. Boehringer Ingelheim, Bracknell, UK. 12. Clinical Development and Medical Affairs, Bracknell, UK. 13. Guangdong Lung Cancer Institute, Guangdong General Hospital and Guangdong Academy of Medical Sciences, China. Electronic address: syylwu@live.cn.
Abstract
BACKGROUND: Most patients with non-small-cell lung cancer tumours that have EGFR mutations have deletion mutations in exon 19 or the Leu858Arg point mutation in exon 21, or both (ie, common mutations). However, a subset of patients (10%) with mutations in EGFR have tumours that harbour uncommon mutations. There is a paucity of data regarding the sensitivity of these tumours to EGFR inhibitors. Here we present data for the activity of afatinib in patients with advanced non-small-cell lung cancer that have tumours harbouring uncommon EGFR mutations. METHODS: In this post-hoc analysis, we used prospectively collected data from tyrosine kinase inhibitor-naive patients with EGFR mutation-positive advanced (stage IIIb-IV) lung adenocarcinomas who were givenafatinib in a single group phase 2 trial (LUX-Lung 2), and randomised phase 3 trials (LUX-Lung 3 and LUX-Lung 6). Analyses were done in the intention-to-treat population, including all randomly assigned patients with uncommon EGFR mutations. The type of EGFR mutation (exon 19 deletion [del19], Leu858Arg point mutation in exon 21, or other) and ethnic origin (LUX-Lung 3 only; Asian vs non-Asian) were pre-specified stratification factors in the randomised trials. We categorised all uncommon mutations as: point mutations or duplications in exons 18-21 (group 1); de-novo Thr790Met mutations in exon 20 alone or in combination with other mutations (group 2); or exon 20 insertions (group 3). We also assessed outcomes in patients with the most frequent uncommon mutations, Gly719Xaa, Leu861Gln, and Ser768Ile, alone or in combination with other mutations. Response was established by independent radiological review. These trials are registered with ClinicalTrials.gov, numbers NCT00525148, NCT00949650, and NCT01121393. FINDINGS: Of 600 patients given afatinib across the three trials, 75 (12%) patients had uncommon EGFR mutations (38 in group 1, 14 in group 2, 23 in group 3). 27 (71·1%, 95% CI 54·1-84·6) patients in group 1 had objective responses, as did two (14·3%, 1·8-42·8) in group 2 and two (8·7%, 1·1-28·0) in group 3. Median progression-free survival was 10·7 months (95% CI 5·6-14·7) in group 1, 2·9 months (1·2-8·3) in group 2; and 2·7 months (1·8-4·2) in group 3. Median overall survival was 19·4 months (95% CI 16·4-26·9) in group 1, 14·9 months (8·1-24·9) in group 2, and 9·2 months (4·1-14·2) in group 3. For the most frequent uncommon mutations, 14 (77·8%, 95% CI 52·4-93·6) patients with Gly719Xaa had an objective response, as did nine (56·3%, 29·9-80·2) with Leu861Gln, and eight (100·0%, 63·1-100·0) with Ser768Ile. INTERPRETATION:Afatinib was active in non-small-cell lung cancer tumours that harboured certain types of uncommon EGFR mutations, especially Gly719Xaa, Leu861Gln, and Ser768Ile, but less active in other mutations types. Clinical benefit was lower in patients with de-novo Thr790Met and exon 20 insertion mutations. These data could help inform clinical decisions for patients with non-small-cell lung cancer harbouring uncommon EGFR mutations. FUNDING: Boehringer Ingelheim.
RCT Entities:
BACKGROUND: Most patients with non-small-cell lung cancer tumours that have EGFR mutations have deletion mutations in exon 19 or the Leu858Arg point mutation in exon 21, or both (ie, common mutations). However, a subset of patients (10%) with mutations in EGFR have tumours that harbour uncommon mutations. There is a paucity of data regarding the sensitivity of these tumours to EGFR inhibitors. Here we present data for the activity of afatinib in patients with advanced non-small-cell lung cancer that have tumours harbouring uncommon EGFR mutations. METHODS: In this post-hoc analysis, we used prospectively collected data from tyrosine kinase inhibitor-naive patients with EGFR mutation-positive advanced (stage IIIb-IV) lung adenocarcinomas who were given afatinib in a single group phase 2 trial (LUX-Lung 2), and randomised phase 3 trials (LUX-Lung 3 and LUX-Lung 6). Analyses were done in the intention-to-treat population, including all randomly assigned patients with uncommon EGFR mutations. The type of EGFR mutation (exon 19 deletion [del19], Leu858Arg point mutation in exon 21, or other) and ethnic origin (LUX-Lung 3 only; Asian vs non-Asian) were pre-specified stratification factors in the randomised trials. We categorised all uncommon mutations as: point mutations or duplications in exons 18-21 (group 1); de-novo Thr790Met mutations in exon 20 alone or in combination with other mutations (group 2); or exon 20 insertions (group 3). We also assessed outcomes in patients with the most frequent uncommon mutations, Gly719Xaa, Leu861Gln, and Ser768Ile, alone or in combination with other mutations. Response was established by independent radiological review. These trials are registered with ClinicalTrials.gov, numbers NCT00525148, NCT00949650, and NCT01121393. FINDINGS: Of 600 patients given afatinib across the three trials, 75 (12%) patients had uncommon EGFR mutations (38 in group 1, 14 in group 2, 23 in group 3). 27 (71·1%, 95% CI 54·1-84·6) patients in group 1 had objective responses, as did two (14·3%, 1·8-42·8) in group 2 and two (8·7%, 1·1-28·0) in group 3. Median progression-free survival was 10·7 months (95% CI 5·6-14·7) in group 1, 2·9 months (1·2-8·3) in group 2; and 2·7 months (1·8-4·2) in group 3. Median overall survival was 19·4 months (95% CI 16·4-26·9) in group 1, 14·9 months (8·1-24·9) in group 2, and 9·2 months (4·1-14·2) in group 3. For the most frequent uncommon mutations, 14 (77·8%, 95% CI 52·4-93·6) patients with Gly719Xaa had an objective response, as did nine (56·3%, 29·9-80·2) with Leu861Gln, and eight (100·0%, 63·1-100·0) with Ser768Ile. INTERPRETATION:Afatinib was active in non-small-cell lung cancer tumours that harboured certain types of uncommon EGFR mutations, especially Gly719Xaa, Leu861Gln, and Ser768Ile, but less active in other mutations types. Clinical benefit was lower in patients with de-novo Thr790Met and exon 20 insertion mutations. These data could help inform clinical decisions for patients with non-small-cell lung cancer harbouring uncommon EGFR mutations. FUNDING: Boehringer Ingelheim.
Authors: Tejas Patil; Rao Mushtaq; Sydney Marsh; Christine Azelby; Miheer Pujara; Kurtis D Davies; Dara L Aisner; William T Purcell; Erin L Schenk; Jose M Pacheco; Paul A Bunn; D Ross Camidge; Robert C Doebele Journal: Clin Lung Cancer Date: 2019-11-21 Impact factor: 4.785
Authors: Matteo Canale; Luigi Pasini; Giuseppe Bronte; Angelo Delmonte; Paola Cravero; Lucio Crinò; Paola Ulivi Journal: Transl Lung Cancer Res Date: 2019-11