EGFR mutation testing in lung cancer: a review of available methods and their use for analysis of tumour tissue and cytology samples
TLDR
Cytology samples including fine needle aspirate and pleural effusion can be used successfully to determine EGFR mutation status provided that sensitive testing methods are employed, and several different testing methods offer a more sensitive alternative to direct sequencing for the detection of common EGFR mutations.Abstract:
Aims Activating mutations in the gene encoding epidermal growth factor receptor (EGFR) can confer sensitivity to EGFR tyrosine kinase inhibitors such as gefitinib in patients with advanced non-small-cell lung cancer. Testing for mutations in EGFR is therefore an important step in the treatment-decision pathway. We reviewed reported methods for EGFR mutation testing in patients with lung cancer, initially focusing on studies involving standard tumour tissue samples. We also evaluated data on the use of cytology samples in order to determine their suitability for EGFR mutation analysis.
Methods We searched the MEDLINE database for studies reporting on EGFR mutation testing methods in patients with lung cancer.
Results Various methods have been investigated as potential alternatives to the historical standard for EGFR mutation testing, direct DNA sequencing. Many of these are targeted methods that specifically detect the most common EGFR mutations. The development of targeted mutation testing methods and commercially available test kits has enabled sensitive, rapid and robust analysis of clinical samples. The use of screening methods, subsequent to sample micro dissection, has also ensured that identification of more rare, uncommon mutations is now feasible. Cytology samples including fine needle aspirate and pleural effusion can be used successfully to determine EGFR mutation status provided that sensitive testing methods are employed.
Conclusions Several different testing methods offer a more sensitive alternative to direct sequencing for the detection of common EGFR mutations. Evidence published to date suggests cytology samples are viable alternatives for mutation testing when tumour tissue samples are not available.read more
Citations
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Molecular Testing for Targeted Therapy in Advanced Non-Small Cell Lung Cancer: Suitability of Endobronchial Ultrasound Transbronchial Needle Aspiration.
Chiara Casadio,Juliana Guarize,Stefano Donghi,Clementina Di Tonno,Caterina Fumagalli,Davide Vacirca,Patrizia Dell'Orto,Filippo de Marinis,Lorenzo Spaggiari,Giuseppe Viale,Massimo Barberis +10 more
TL;DR: This study demonstrates that EBUS-TBNA can be effectively used not just for diagnosis but also for complete mutational testing, comparing the results with a series of patients who underwent diagnostic surgical procedures in the same institution.
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Molecular Pathology of Lung Cancer Cytology Specimens: A Concise Review.
TL;DR: Mutation testing is feasible on a variety of cytologic specimen types and preparations, however, a thorough understanding of the cytology workflow for the processing of samples and appropriate background knowledge of the molecular tests are necessary for triaging, and optimum use of these specimens is necessary to guide patient management.
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EGFR T790M resistance mutation in non small-cell lung carcinoma
TL;DR: This review will focus on the methods that have been used to detect the T790M mutation, and its potential clinical applications both in TKI naïve patients and in patients with an acquired resistance.
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Treatment of advanced non-small-cell lung cancer with epidermal growth factor receptor (EGFR) mutation or ALK gene rearrangement: results of an international expert panel meeting of the Italian Association of Thoracic Oncology.
Cesare Gridelli,Filippo de Marinis,Federico Cappuzzo,Massimo Di Maio,Fred R. Hirsch,Tony Mok,Floriana Morgillo,Rafael Rosell,David R. Spigel,James Chih-Hsin Yang,Fortunato Ciardiello +10 more
TL;DR: An International Experts Panel Meeting to review strengths and limitations of the available evidence for the diagnosis and treatment of advanced NSCLC with EGFR or anaplastic lymphoma kinase (ALK) alterations agreed that the use of crizotinib is justified in any line of treatment.
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J. Guillermo Paez,Pasi A. Jänne,Pasi A. Jänne,Jeffrey C. Lee,Sean Tracy,Heidi Greulich,Heidi Greulich,Stacey Gabriel,Paula Herman,Frederic J. Kaye,Neal I. Lindeman,Titus J. Boggon,Katsuhiko Naoki,Hidefumini Sasaki,Yoshitaka Fujii,Michael J. Eck,William R. Sellers,William R. Sellers,William R. Sellers,Bruce E. Johnson,Bruce E. Johnson,Matthew Meyerson,Matthew Meyerson +22 more
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Gefitinib or Carboplatin–Paclitaxel in Pulmonary Adenocarcinoma
Tony Mok,Yi-Long Wu,Sumitra Thongprasert,Chih-Hsin Yang,Da Tong Chu,Nagahiro Saijo,Patrapim Sunpaweravong,Baohui Han,Benjamin Margono,Benjamin Margono,Yukito Ichinose,Yutaka Nishiwaki,Yuichiro Ohe,Jin Ji Yang,Busyamas Chewaskulyong,Haiyi Jiang,Emma Duffield,Claire Watkins,Alison Armour,Masahiro Fukuoka +19 more
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Gefitinib or Chemotherapy for Non–Small-Cell Lung Cancer with Mutated EGFR
Makoto Maemondo,Akira Inoue,Kunihiko Kobayashi,Shunichi Sugawara,Satoshi Oizumi,Hiroshi Isobe,Akihiko Gemma,Masao Harada,Hirohisa Yoshizawa,Ichiro Kinoshita,Yuka Fujita,Shoji Okinaga,Haruto Hirano,Kozo Yoshimori,Toshiyuki Harada,Takashi Ogura,Masahiro Ando,Hitoshi Miyazawa,Tomoaki Tanaka,Yasuo Saijo,Koichi Hagiwara,Satoshi Morita,Toshihiro Nukiwa +22 more
TL;DR: First-line gefitinib for patients with advanced non-small-cell lung cancer who were selected on the basis of EGFR mutations improved progression-free survival, with acceptable toxicity, as compared with standard chemotherapy.
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