Cancer Medicine (Sep 2021)

LungBEAM: A prospective multicenter study to monitor stage IV NSCLC patients with EGFR mutations using BEAMing technology

  • Pilar Garrido,
  • Luis Paz‐Ares,
  • Margarita Majem,
  • Teresa Morán,
  • José Manuel Trigo,
  • Joaquim Bosch‐Barrera,
  • Rosario Garcίa‐Campelo,
  • José Luis González‐Larriba,
  • José Miguel Sánchez‐Torres,
  • Dolores Isla,
  • Núria Viñolas,
  • Carlos Camps,
  • Amelia Insa,
  • Óscar Juan,
  • Bartomeu Massuti,
  • Alfredo Paredes,
  • Ángel Artal,
  • Marta López‐Brea,
  • José Palacios,
  • Enriqueta Felip

DOI
https://doi.org/10.1002/cam4.4135
Journal volume & issue
Vol. 10, no. 17
pp. 5878 – 5888

Abstract

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Abstract Objectives The aim of LungBEAM was to determine the value of a novel epidermal growth factor receptor (EGFR) mutation test in blood based on BEAMing technology to predict disease progression in advanced non‐small cell lung cancer (NSCLC) patients treated with first‐ or second‐generation EGFR‐tyrosine kinase inhibitors (EGFR‐TKIs). Another goal was to monitor the dynamics of EGFR mutations, as well as to track EGFR exon 20 p.T790M (p.T790M) resistance during treatment, as critical indicators of therapeutic efficacy and patient survival. Methods Stage IV NSCLC patients with locally confirmed EGFR‐TKI sensitizing mutations (ex19del and/or L858R) in biopsy tissue who were candidates to receive first‐ or second‐generation EGFR‐TKI as first‐line therapy were included. Plasma samples were obtained at baseline and every 4 weeks during treatment until a progression‐free survival (PFS) event or until study completion (72‐week follow‐up). The mutant allele fraction (MAF) was determined for each identified mutation using BEAMing. Results A total of 68 of the 110 (61.8%) patients experienced a PFS event. Twenty‐six patients (23.6%) presented with an emergent p.T790M mutation in plasma at some point during follow‐up, preceding radiologic progression with a median of 76 (interquartile ratio: 54–111) days. Disease progression correlated with the appearance of p.T790M in plasma with a hazard ratio (HR) of 1.94 (95% confidence interval [CI], 1.48–2.54; p < 0.001). The HR for progression in patients showing increasing plasma sensitizing mutation levels (positive MAF slope) versus patients showing either decreasing or unchanged plasma mutation levels (negative or null MAF slopes) was 3.85 (95% CI, 2.01–7.36; p < 0.001). Conclusion Detection and quantification of EGFR mutations in circulating tumor DNA using the highly sensitive BEAMing method should greatly assist in optimizing treatment decisions for advanced NSCLC patients.

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