BACKGROUND: Pancreatic neuroendocrine neoplasms with a Ki-67 labeling index greater than 20% were reclassified in 2017 by the World Health Organization into well differentiated (WD) and poorly differentiated grade 3 neuroendocrine carcinoma (NEC). The authors describe the cytologic features of grade 3 WD pancreatic neuroendocrine neoplasms compared with grade 2 neoplasms and NEC. METHODS: Fine-needle aspirates from 65 pancreatic neuroendocrine neoplasms were reviewed, and their cytomorphologic features were compared across grade 2, WD grade 3, and PD small cell type (PD-S), large cell type (PD-L), and type not otherwise specified (PD-NOS) neoplasms. RESULTS: The 65 aspirates consisted of 19 grade 2 neoplasms, 32 WD grade 3 neoplasms, and 14 NECs (6 PD-S, 5 PD-L, and 3 PD-NOS). The medians Ki-67 proliferation index was 11% (range, 3.2%-17%) in grade 2 neoplasms, 40% (range, 21%-89%) in WD grade 3 neoplasms, 80% (range, 63%-95%) in PD-S neoplasms, 39% (range, 25%-61%) in PD-L neoplasms, and 70% (range, 30%-80%) in PD-NOS neoplasms. Both grade 2 and WD grade 3 neoplasms were associated with plasmacytoid morphology and smooth nuclear contours, but WD grade 3 neoplasms had significant increases in abundant cytoplasm (72% vs 17%; P = .007), nuclear tangles (75% vs 42%; P = .006), and apoptosis (86% vs 58%; P = .005). Compared with NECs, WD grade 3 neoplasms had increased plasmacytoid morphology (75% vs 7%; P < .001), smooth nuclear contours (94% vs 64%; P = .02), round nuclei (59% vs 21%; P = .01), and less pleomorphism (13% vs 50%; P = .004), molding (9% vs 79%; P < .001), and necrosis (13% vs 43%; P = .003). WD grade 3 neoplasms had less pleomorphism (13% vs 50%; P = .04), less necrosis (13% vs 60%; P = .04), and more plasmacytoid morphology (75% vs 20%; P = .03) than PD-L. CONCLUSIONS: The prevalence of cytologic features differs in WD grade 3 pancreatic neuroendocrine neoplasms compared with grade 2 neoplasms and NECs, and these differences assist in the recognition of this newly classified entity. Cancer Cytopathol 2018;126:326-35.
BACKGROUND:Pancreatic neuroendocrine neoplasms with a Ki-67 labeling index greater than 20% were reclassified in 2017 by the World Health Organization into welldifferentiated (WD) and poorly differentiated grade 3 neuroendocrine carcinoma (NEC). The authors describe the cytologic features of grade 3 WD pancreatic neuroendocrine neoplasms compared with grade 2 neoplasms and NEC. METHODS: Fine-needle aspirates from 65 pancreatic neuroendocrine neoplasms were reviewed, and their cytomorphologic features were compared across grade 2, WD grade 3, and PD small cell type (PD-S), large cell type (PD-L), and type not otherwise specified (PD-NOS) neoplasms. RESULTS: The 65 aspirates consisted of 19 grade 2 neoplasms, 32 WD grade 3 neoplasms, and 14 NECs (6 PD-S, 5 PD-L, and 3 PD-NOS). The medians Ki-67 proliferation index was 11% (range, 3.2%-17%) in grade 2 neoplasms, 40% (range, 21%-89%) in WD grade 3 neoplasms, 80% (range, 63%-95%) in PD-S neoplasms, 39% (range, 25%-61%) in PD-L neoplasms, and 70% (range, 30%-80%) in PD-NOS neoplasms. Both grade 2 and WD grade 3 neoplasms were associated with plasmacytoid morphology and smooth nuclear contours, but WD grade 3 neoplasms had significant increases in abundant cytoplasm (72% vs 17%; P = .007), nuclear tangles (75% vs 42%; P = .006), and apoptosis (86% vs 58%; P = .005). Compared with NECs, WD grade 3 neoplasms had increased plasmacytoid morphology (75% vs 7%; P < .001), smooth nuclear contours (94% vs 64%; P = .02), round nuclei (59% vs 21%; P = .01), and less pleomorphism (13% vs 50%; P = .004), molding (9% vs 79%; P < .001), and necrosis (13% vs 43%; P = .003). WD grade 3 neoplasms had less pleomorphism (13% vs 50%; P = .04), less necrosis (13% vs 60%; P = .04), and more plasmacytoid morphology (75% vs 20%; P = .03) than PD-L. CONCLUSIONS: The prevalence of cytologic features differs in WD grade 3 pancreatic neuroendocrine neoplasms compared with grade 2 neoplasms and NECs, and these differences assist in the recognition of this newly classified entity. Cancer Cytopathol 2018;126:326-35.
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