Christopher Lanigan scite author profile

Recent evidence suggests a role for the nuclear marker INSM1 in the diagnosis of neuroendocrine lung neoplasms. The aim of this study was to determine the utility of INSM1 as a marker of neuroendocrine differentiation using a large series of whole-tissue sections of primary lung neoplasms. We stained 345 primary lung neoplasms with INSM1, including 292 whole-tissue sections. Most cases were also stained with synaptophysin, chromogranin, and CD56. The tumors included 64 small cell lung carcinomas, 24 large cell neuroendocrine carcinomas, 64 carcinoid tumors (48 typical, 16 atypical), 130 adenocarcinomas, and 33 squamous cell carcinomas. For small cell lung carcinoma, the sensitivity of INSM1 (98%) was similar to synaptophysin (100%) and CD56 (95%) but considerably higher than chromogranin (83%). For large cell neuroendocrine carcinoma, CD56 (92%) and synaptophysin (88%) were more sensitive than INSM1 (75%), while chromogranin was less sensitive (46%). All markers stained 100% of carcinoid tumors, except one atypical carcinoid tumor, which was negative for INSM1. The sensitivity of INSM1 for neuroendocrine lung neoplasms as a group (95%) was similar to synaptophysin (98%) and CD56 (97%), but higher than chromogranin (84%). The specificity of INSM1 for neuroendocrine lung neoplasms (97%) was similar to chromogranin (98%) but higher than synaptophysin (90%) and CD56 (87%). INSM1 staining was concordant in primary tumors and matched metastases. In conclusion, INSM1 is a reliable marker of neuroendocrine differentiation in primary lung neoplasms, with sensitivity similar to synaptophysin and CD56, and specificity similar to chromogranin.

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ALK Status Testing in Non–Small-Cell Lung Carcinoma by FISH on ThinPrep Slides with Cytology Material

Minca¹,

Lanigan²,

Reynolds³

et al. 2014

Journal of Thoracic Oncology

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Ultrasensitive RNA In Situ Hybridization for Detection of Restricted Clonal Expression of Low-Abundance Immunoglobulin Light Chain mRNA in B-Cell Lymphoproliferative Disorders

Tubbs

Wang

et al. 2013

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ALK Expression in Angiomatoid Fibrous Histiocytoma

Cheah

Zou²,

Lanigan

et al. 2019

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We recently encountered a case of primary pulmonary angiomatoid fibrous histiocytoma (AFH), which was initially misdiagnosed as inflammatory myofibroblastic tumor (IMT) based in part on anaplastic lymphoma kinase (ALK) expression by immunohistochemistry (IHC). Prompted by this experience, we evaluated ALK expression in 11 AFH, 15 IMT, and 11 follicular dendritic cell sarcomas using 3 different antibody clones: D5F3, 5A4, and ALK1. ALK IHC positive cases were analyzed with fluorescence in situ hybridization (FISH) using dual color ALK break-apart probe kit. The majority of AFH cases studied were positive for ALK IHC with at least 1 antibody (9/11 D5F3, 6/9 5A4, 1/9 ALK1), most demonstrating moderate to strong cytoplasmic staining. AFH with positive ALK IHC showed no ALK gene rearrangement by FISH (0/8) with ALK copy number ranging from 1.6 to 2.1. Sixty-seven percent of IMT were ALK positive by IHC (10/15 D5F3, 8/15 5A4, 7/15 ALK1), and 9 of the 10 cases were positive for ALK gene rearrangement by FISH. All follicular dendritic cell sarcomas were negative for ALK by IHC (D5F3 and 5A4). Our results indicate that ALK expression in AFH is common, particularly with the highly sensitive D5F3 and 5A4 antibodies and enhanced detection systems, and may be a potential source of diagnostic confusion with IMT. The underlying mechanism of ALK expression in AFH is unclear, although it does not appear to be from ALK rearrangement or amplification.

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Detection of immunoglobulin light‐chain restriction in cutaneous B‐cell lymphomas by ultrasensitive bright‐field mRNAin situ hybridization

Minca

Wang

et al. 2014

J Cutan Pathol

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