Comprehensive next-generation sequencing unambiguously distinguishes separate primary lung carcinomas from intrapulmonary metastases: Comparison with standard histopathologic approach Journal Article
| Authors: | Chang, J. C.; Alex, D.; Bott, M.; Tan, K. S.; Seshan, V.; Golden, A.; Sauter, J. L.; Buonocore, D. J.; Vanderbilt, C. M.; Gupta, S.; Desmeules, P.; Bodd, F. M.; Riely, G. J.; Rusch, V. W.; Jones, D. R.; Arcila, M. E.; Travis, W. D.; Ladanyi, M.; Rekhtman, N. |
| Article Title: | Comprehensive next-generation sequencing unambiguously distinguishes separate primary lung carcinomas from intrapulmonary metastases: Comparison with standard histopathologic approach |
| Abstract: | Purpose: In patients with >1 non–small cell lung carcinoma (NSCLC), the distinction between separate primary lung carcinomas (SPLCs) and intrapulmonary metastases (IPMs) is a common diagnostic dilemma with critical staging implications. Here, we compared the performance of comprehensive next-generation sequencing (NGS) with standard histopathologic approaches for distinguishing NSCLC clonal relationships in clinical practice. Experimental Design: We queried 4,119 NSCLCs analyzed by 341–468 gene MSK-IMPACT NGS assay for patients with >1 surgically resected tumor profiled by NGS. Tumor relatedness predicted by prospective histopathologic assessment was contrasted with comparative genomic profiling by subsequent NGS. Results: Sixty patients with NGS performed on >1 NSCLCs were identified, yielding 76 tumor pairs. NGS classified tumor pairs into 51 definite SPLCs (median, 14; up to 72 unique somatic mutations per pair), and 25 IPMs (24 definite, one high probability; median, 5; up to 16 shared somatic mutations per pair). Prospective histologic prediction was discordant with NGS in 17 cases (22%), particularly in the prediction of IPMs (44% discordant). Retrospective review highlighted several histologic challenges, including morphologic progression in some IPMs. We subsampled MSK-IMPACT data to model the performance of less comprehensive assays, and identified several clinicopathologic differences between NGS-defined tumor pairs, including increased risk of subsequent recurrence for IPMs. Conclusions: Comprehensive NGS allows unambiguous delineation of clonal relationship among NSCLCs. In comparison, standard histopathologic approach is adequate in most cases, but has notable limitations in the recognition of IPMs. Our results support the adoption of broad panel NGS to supplement histology for robust discrimination of NSCLC clonal relationships in clinical practice. © 2019 American Association for Cancer Research. |
| Keywords: | human tissue; major clinical study; somatic mutation; histopathology; cancer recurrence; cancer growth; retrospective study; prediction; lung metastasis; clonal variation; intermethod comparison; lung carcinoma; tumor classification; cancer morphology; non small cell lung cancer; next generation sequencing; human; priority journal; article; separate primary lung carcinoma |
| Journal Title: | Clinical Cancer Research |
| Volume: | 25 |
| Issue: | 23 |
| ISSN: | 1078-0432 |
| Publisher: | American Association for Cancer Research |
| Date Published: | 2019-12-01 |
| Start Page: | 7113 |
| End Page: | 7125 |
| Language: | English |
| DOI: | 10.1158/1078-0432.Ccr-19-1700 |
| PUBMED: | 31471310 |
| PROVIDER: | scopus |
| PMCID: | PMC7713586 |
| DOI/URL: | |
| Notes: | Source: Scopus |
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