Jessica Sanchez scite author profile

Pleomorphic fibroma is a rare benign cutaneous neoplasm characterized by spindle-shaped cells and multinucleated giant cells scattered throughout collagenous stroma. These morphologic features can lead to diagnostic confusion, including atypical lipomatous tumor as one consideration. In contrast to atypical lipomatous tumor, previous studies have found pleomorphic fibroma to be negative for MDM2 immunohistochemical staining and MDM2 gene amplification. Here, we present a case of pleomorphic fibroma of skin with nuclear MDM2 immunoreactivity in the absence of MDM2 gene amplification, underscoring the superiority of fluorescence in situ hybridization as a diagnostic test in this differential diagnosis. The RB1 locus is also explored for differential diagnosis with pleomorphic/spindle cell lipoma and related entities. Figure 1E). The immunohistochemical staining for S100, neurofilament and CD68 was negative and CD31and D2-40 highlighted scattered vessels and rare lymphatic channels, respectively. Clinical and morphologic features were consistent with pleomorphic fibroma; however, the positivity of a subset of the spindle-shaped cells and pleomorphic cells for MDM2 was suggestive of an atypical lipomatous tumor. To further establish the diagnosis, we examined the 12q15 region for MDM2 gene amplification using FISH, which was negative ( Figure 1F), arguing against consideration of atypical lipomatous tumor. We further evaluated the status of RB1

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Marker chromosomes are a significant mechanism of high-level RUNX1 gene amplification in hematologic malignancies

Moosavi

Sanchez

Adeyinka

2009

Cancer Genetics and Cytogenetics

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Sclerosing TSC1 mutated renal cell carcinoma: An unusual pattern mimicking MITF family translocation renal cell carcinoma

Williamson

Cardili²,

Whiteley

et al. 2020

Genes Chromosomes & Cancer

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The tuberous sclerosis genes and MTOR are increasingly being found to have important roles in novel subtypes of renal cancer, particularly emerging entities eosinophilic solid and cystic renal cell carcinoma (RCC) and high‐grade oncocytic renal tumor (HOT)/RCC with eosinophilic and vacuolated cytoplasm. We report a unique renal neoplasm in a 66‐year‐old woman that initially mimicked MITF family translocation RCC due to mixed clear and eosinophilic cells, extensive stromal hyalinization, and psammoma bodies, yet which was negative for TFE3 and TFEB fluorescence in situ hybridization and a next generation sequencing (NGS) gene fusion assay. Cytoplasmic stippling triggered consideration of TSC‐associated neoplasms, and a targeted NGS assay revealed a variant in exon 21 of TSC1 resulting in c.2626G>T p.(Glu876*) truncating mutation. This report adds to the morphologic spectrum of TSC‐related renal neoplasms, including prominent stromal hyalinization as a potentially deceptive pattern. Due to the overlap in cytoplasmic stippling between eosinophilic solid and cystic RCC and HOT/RCC with eosinophilic and vacuolated cytoplasm, it is debatable which category this example would best fit. Further understanding of these entities and other renal neoplasms with alterations in the TSC genes will elucidate whether they should be considered a family of tumors.

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Jessica Sanchez

Loss of 17p is a major consequence of whole-arm chromosome translocations in hematologic malignancies

Isochromosome (X)(p10) in hematologic disorders: FISH study of 14 new cases show three types of centromere signal patterns

Pleomorphic fibroma of the skin with MDM2 immunoreactivity: A potential diagnostic pitfall

Marker chromosomes are a significant mechanism of high-level RUNX1 gene amplification in hematologic malignancies

Sclerosing TSC1 mutated renal cell carcinoma: An unusual pattern mimicking MITF family translocation renal cell carcinoma

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