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Adénocarcinomes multiples pulmonaires : apport de la biologie moléculaire et de l’histologie pour distinguer les tumeurs multi-primitives des métastases

Marc Barritault Audrey Mansuet Lupo Aurélie Janet Vendroux Makhmoud Zarmaev Aurelie Bony Marco alifano Jean-François Regnard Pierre Laurent-Puig Diane Damotte Helene Blons 《Morphologie : bulletin de l'Association des anatomistes》2018,102(338):145-146

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Proposal for a Combined Histomolecular Algorithm to Distinguish Multiple Primary Adenocarcinomas from Intrapulmonary Metastasis in Patients with Multiple Lung Tumors

Audrey Mansuet-Lupo Marc Barritault Marco Alifano Aurélie Janet-Vendroux Makmoud Zarmaev Jérôme Biton Yoan Velut Christine Le Hay Isabelle Cremer Jean-François Régnard Ludovic Fournel Bastien Rance Marie Wislez Pierre Laurent-Puig Ronald Herbst Diane Damotte Hélène Blons 《Journal of thoracic oncology》2019,14(5):844-856

Introduction

Multiple nodules in the lung are being diagnosed with an increasing frequency thanks to high-quality computed tomography imaging. In patients with lung cancer, this situation represents up to 10% of patients who have an operation. For clinical management, it is important to classify the disease as intrapulmonary metastasis or multiple primary lung carcinoma to define TNM classification and optimize therapeutic options. In the present study, we evaluated the respective and combined input of histological and molecular classification to propose a classification algorithm for multiple nodules.

Methods

We studied consecutive patients undergoing an operation with curative intent for lung adenocarcinoma (N = 120) and harboring two tumors (N = 240). Histological diagnosis according to the WHO 2015 classification and molecular profiling using next-generation sequencing targeting 22 hotspot genes allowed classification of samples as multiple primary lung adenocarcinomas or as intrapulmonary metastasis.

Results

Next-generation sequencing identified molecular mutations in 91% of tumor pairs (109 of 120). Genomic and histological classification showed a fair agreement when the κ test was used (κ = 0.43). Discordant cases (30 of 109 [27%]) were reclassified by using a combined histomolecular algorithm. EGFR mutations (p = 0.03) and node involvement (p = 0.03) were significantly associated with intrapulmonary metastasis, whereas KRAS mutations (p = 0.00005) were significantly associated with multiple primary lung adenocarcinomas. EGFR mutations (p = 0.02) and node involvement (p = 0.004) were the only independent prognostic factors.

Conclusion

We showed that combined histomolecular algorithm represents a relevant tool to classify multifocal lung cancers, which could guide adjuvant treatment decisions. Survival analysis underlined the good prognosis of EGFR-mutated adenocarcinoma in patients with intrapulmonary metastasis. 相似文献