Why we should improve current practice of diagnosing and treating pulmonary large cell neuroendocrine carcinomas in patients with advanced disease
- Jules Derks1,
- Robert Jan van Suylen2,
- Erik Thunnissen3,
- Michael den Bakker4,5,
- Harry Groen6,
- Egbert Smit7,8,
- Ronald Damhuis9,
- Esther van den Broek10,
- Ernst-Jan Speel11 and
- Anne-Marie C. Dingemans1⇑
- 1Dept of Pulmonary Diseases, GROW school for Oncology and Developmental Biology, Maastricht University Medical Centre, Maastricht, The Netherlands
- 2Pathology-DNA, location Jeroen Bosch Hospital, s’ Hertogenbosch, The Netherlands
- 3Dept of Pathology, VU University Medical Centre, Amsterdam, The Netherlands
- 4Dept of Pathology, Maasstad hospital, Rotterdam, The Netherlands
- 5Dept of Pathology, Erasmus MC, Rotterdam, The Netherlands
- 6Dept of Pulmonary Diseases, University of Groningen and University Medical Centre, Groningen, The Netherlands
- 7Dept of Pulmonary Diseases, VU medical center, Amsterdam, The Netherlands
- 8Dept of Thoracic Oncology, Netherlands Cancer Institute, Amsterdam, The Netherlands
- 9Department Research, Comprehensive Cancer Association, Utrecht, The Netherlands
- 10PALGA Foundation, Houten, The Netherlands
- 11Dept of Pathology, GROW school for Oncology and Developmental Biology, Maastricht University Medical Centre, Maastricht, The Netherlands
- Anne-Marie. C. Dingemans, Dept of Pulmonology, P. Debyelaan 25, Postbox 5800 6202 AZ, Maastricht, The Netherlands. E-mail: a.dingemans{at}mumc.nl
Abstract
Current criteria for LCNEC diagnosed on a biopsy specimen are in need of improvement http://ow.ly/lRP730fu552
From the authors:
In response to our manuscript on first-line chemotherapy treatment for metastatic pulmonary large cell neuroendocrine carcinoma (LCNEC) [1], Rossi and co-workers raised their concerns about the validity of our results by questioning the accuracy of LCNEC diagnosis on a biopsy specimen. We would like to thank the authors for their critical appraisal, underscoring the need to increase awareness among pulmonologists, oncologists and pathologists of the diagnostic issues and consequences of metastatic LCNEC diagnosed on a biopsy specimen.
The diagnostic criteria for LCNEC according to the current World Health Organization (WHO) classification (2015) include a high number of mitoses (>10 mitoses per 2 mm2), neuroendocrine morphology such as rosettes, trabecular growth pattern or palisading of cells, and neuroendocrine differentiation identified by immunohistochemical markers or electron microscopy [2]. Although the current classification provides tools to diagnose lung cancer on small biopsies, this is not the case for LCNEC. Nevertheless a diagnosis of “nonsmall cell lung carcinoma (NSCLC) favouring LCNEC” can be made if the above criteria are identified in a biopsy specimen.
A comparison of pre-operative biopsy with the surgical resection specimen from identical anatomic locations including carcinoids and LCNEC/small cell lung cancer (SCLC), demonstrated that a Ki-67 cut-off of >20% is specific and sensitive on a biopsy specimen to separate carcinoid from high-grade neuroendocrine carcinomas [3]. We recently proposed introduction of neuroendocrine markers along with thyroid transcription factor-1 and p40 into the diagnostic panel aiming to increase the yield of LCNEC diagnoses on biopsies [4]. This is important because in pre-operatively obtained biopsy specimens of surgically confirmed LCNEC, neuroendocrine morphology may be difficult to recognise leading to a diagnosis of NSCLC-not otherwise specified (NOS) or favouring adenocarcinoma diagnosis. The application of additional neuroendocrine markers and use of core needle biopsies may solve these diagnostic issues in LCNEC (J. Derks and co-workers; unpublished data).
In our study on the treatment of metastatic LCNEC, three expert thoracic pathologists reviewed 207 cases that were diagnosed as LCNEC between 2003 and 2012 [1]. Eventually, 62% were confirmed as LCNEC, other diagnoses included were (atypical) carcinoid, SCLC and NSCLC with neuroendocrine differentiation. Since LCNEC has only been officially recognised by the WHO since 1999, it is understandable that the percentage of LCNEC identified in our study is higher than that in the work of Rossi et al. [5], who studied LCNEC from 1990 to 2004. In previous work, we reported that LCNEC is diagnosed with an increased frequency on biopsy specimens [6]. Thus, although the WHO 2015 classification may not promote the diagnosis of LCNEC on a biopsy specimen, this frequently occurs in daily practice, putting clinicians on the spot how to treat such patients.
The aim of our study was to evaluate different chemotherapy treatments in de novo metastatic LCNEC in current clinical practice. Our results indicate that LCNEC should not be routinely treated as SCLC. In addition to the results obtained in our study, this is also supported by a phase II trial showing favourable effects of carboplatin–paclitaxel chemotherapy followed by maintenance everolimus (mTOR inhibitor) [7]. Although the study of Rossi et al. [5] only included surgical resection specimens, the results may be biased as they compared only a few LCNEC patients (n=27) part of whom were treated with radiotherapy and/or without a platinum compound in the NSCLC treatment arm. Furthermore, the median survival rates observed for metastatic LCNEC in the study of Rossi et al. (i.e. 51 months in the platinum–etoposide arm versus ±7 months reported by a phase II study) seems unusually high and may suggest patient selection [8].
In their correspondence, Rossi and co-workers referred to molecular findings in LCNEC published by Rekhtman et al. [9] (n=45 LCNEC). Previously, similar data were also presented by George et al. [10] (n=75). Both studies proposed that LCNEC should be subdivided into at least two subtypes, i.e. a TP53-RB1 mutated subtype (SCLC like) and LCNEC exhibiting a mutation in STK11, KEAP1 or KRAS with wild-type RB1 (NSCLC like). It is tempting to speculate that these molecular subgroups relate to chemotherapy outcomes in LCNEC. In this context, at the American Society of Clinical Oncology 2017 meeting we presented our analysis of the, in part, current cohort of LCNEC (published in the European Respiratory Journal (ERJ)) for these molecular subtypes using next-generation sequencing [11]. This analysis indeed suggests that the treatment outcomes of metastatic LCNEC may be influenced by different molecular subtypes. Patients having LCNEC with RB1 wild-type (and/or STK11 mutations, i.e. “NSCLC like”) had longer overall and progression-free survival when treated with platinum-gemcitabine or taxane chemotherapy versus platinum-etoposide chemotherapy.
In summary, we support the call for a consensus definition from Rossi and co-workers. The WHO 2015 criteria for LCNEC diagnosed on a biopsy specimen are in need of improvement and should include, amongst others, molecular analysis of LCNEC validated within a large multicentre clinical trial. Nevertheless, until such studies have been performed, the work we presented in the ERJ represents the largest comparison of first-line chemotherapy treatment in carefully pathology revised confirmed metastatic LCNEC. Taken together, when it comes to studying LCNEC “size does matter” but it is likely that in the near future a “small (biopsy) size fits all”.
Footnotes
Conflict of interest: None declared.
- Received August 16, 2017.
- Accepted September 16, 2017.
- Copyright ©ERS 2017