AIMS: To evaluate morphological and immunohistochemical (IHC) features helpful in distinguishing metanephric adenoma (MA) from solid papillary renal cell carcinoma (s-PRCC). METHODS AND RESULTS: We present a detailed study of 21 MA and 23 s-PRCC. The two entities exhibited significant similarities, both being well-circumscribed tumours composed of tightly packed small cells arranged in solid sheets or ill-defined tubules, often presenting glomeruloid bodies, psammoma bodies and dystrophic calcification, and showing overlapping immunoreactivity for S100, CD57 and CK7. Conversely, most MA were non-encapsulated, whereas most s-PRCC showed a thick fibrous pseudocapsule; MA cells had scanty cytoplasm and a high nuclear:cytoplasmic ratio in comparison to s-PRCC, where occasional tumour cells showed abundant cytoplasm and high nuclear grade. Polypoid branching fronds were common in MA, but absent in s-PRCC; multifocality and papillary hyperplasia/adenoma were seen only in s-PRCC. MA were positive for WT1 and negative for EMA and alpha-methylacyl-CoA racemase (AMACR); s-PRCC were positive for EMA and AMACR and negative for WT1. CONCLUSIONS: Despite overlapping features, careful morphological and architectural evaluation should result in accurate diagnosis of most MA and s-PRCC. In challenging cases, IHC stains for WT1, EMA and AMACR may help in distinguishing these two entities.
AIMS: To evaluate morphological and immunohistochemical (IHC) features helpful in distinguishing metanephric adenoma (MA) from solid papillary renal cell carcinoma (s-PRCC). METHODS AND RESULTS: We present a detailed study of 21 MA and 23 s-PRCC. The two entities exhibited significant similarities, both being well-circumscribed tumours composed of tightly packed small cells arranged in solid sheets or ill-defined tubules, often presenting glomeruloid bodies, psammoma bodies and dystrophic calcification, and showing overlapping immunoreactivity for S100, CD57 and CK7. Conversely, most MA were non-encapsulated, whereas most s-PRCC showed a thick fibrous pseudocapsule; MA cells had scanty cytoplasm and a high nuclear:cytoplasmic ratio in comparison to s-PRCC, where occasional tumour cells showed abundant cytoplasm and high nuclear grade. Polypoid branching fronds were common in MA, but absent in s-PRCC; multifocality and papillary hyperplasia/adenoma were seen only in s-PRCC. MA were positive for WT1 and negative for EMA and alpha-methylacyl-CoA racemase (AMACR); s-PRCC were positive for EMA and AMACR and negative for WT1. CONCLUSIONS: Despite overlapping features, careful morphological and architectural evaluation should result in accurate diagnosis of most MA and s-PRCC. In challenging cases, IHC stains for WT1, EMA and AMACR may help in distinguishing these two entities.
Authors: Stephanie N Kinney; John N Eble; Ondrej Hes; Sean R Williamson; David J Grignon; Mingsheng Wang; Shaobo Zhang; Lee Ann Baldrige; Guido Martignoni; Matteo Brunelli; Lisha Wang; Eva Comperat; Rong Fan; Rodolfo Montironi; Gregory T MacLennan; Liang Cheng Journal: Mod Pathol Date: 2015-08-07 Impact factor: 7.842
Authors: Francisco Javier Queipo Gutiérrez; Ángel Panizo; Antonio Tienza; Irene Rodriguez; Jesús Javier Sola; Jordi Temprana-Salvador; Inés de Torres; Javier Pardo-Mindán Journal: Virchows Arch Date: 2018-06-21 Impact factor: 4.064
Authors: Aaron M Udager; Jincheng Pan; Martin J Magers; Ganesh S Palapattu; Todd M Morgan; Jeffrey S Montgomery; Alon Z Weizer; Khaled S Hafez; David C Miller; James S Wolf; Jonathan B McHugh; Arul M Chinnaiyan; Saravana M Dhanasekaran; Rohit Mehra Journal: Am J Surg Pathol Date: 2015-04 Impact factor: 6.394