Biopsy Method and Needle Size on Success of Next-Generation Sequencing in NSCLC: A Brief Report
Raymond Diep, Madeline MacDonald, Ryan Cooper, Anna Grzegorczyk, Rastko Rakočević, Ching‐Fei Chang, Angeline Uy, Nicholas Cowgill, Jorgé Nieva
Abstract
Introduction: Next-generation sequencing (NGS) is essential to the care of patients with NSCLC. Nevertheless, NGS is dependent on adequate material from biopsy. We evaluated the impact of biopsy method and needle gauge necessary for optimizing success in tissue NGS. Methods: A total of 1660 formalin-fixed, paraffin-embedded samples were submitted to Caris Life Sciences from 2007 to 2022 for tumor profiling. The results of NGS assays were linked with retrospective biopsy data for patients with lung cancer treated at USC/Norris Cancer Center to create a database with the following parameters: demographics, biopsy method, tumor location (lung mass versus lymph node versus metastasis), needle gauge, number of needle passes, complications, tumor volume, DNA content, and status of NGS. Fisher's exact test and analysis of variance were performed to determine the impact of biopsy method and needle gauge (G). Results: = 0.035). Conclusions: The less invasive EBUS-TBNAs had higher success rates in NGS than CT-TTCN biopsies and resulted in higher DNA concentrations. In CT-TTCN biopsies, use of 20G or smaller needles is associated with a higher risk of obtaining an inadequate specimen regardless of the number of passes taken. Surgical and bronchial forceps biopsies had highest success in achieving NGS.