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Abstract
Benign thyroid lesions such as multinodular goiter and adenomatoid nodules are well-circumscribed lesions displaying a macrofollicular growth pattern and lack of nuclear atypia. The highly unusual macrofollicular variant of follicular thyroid carcinoma (MV-FTC) mirrors these attributes and is thereby misclassified by cytological examination of fine-needle aspiration biopsies. The MV-FTC diagnosis is instead suggested following histological investigation, in which malignant attributes, most commonly capsular invasion, are noted. The bulk of MV-FTCs described in the literature arise in younger female patients and carry an excellent prognosis. A recent coupling to mutations in the DICER1 tumor suppressor gene has been proposed, possibly indicating aberrancies in micro-RNA (miRNA) patterns as responsible of the tumorigenic process. We describe the cytological, histological and molecular phenotype of a 35 mm large MV-FTC arising in the right thyroid lobe of a 33-year-old female with a family history of multinodular goiter. The tumor was encapsulated and strikingly inconspicuous in terms of cellularity and atypia, but nevertheless displayed multiple foci with capsular invasion. A next-generation molecular screening of tumor DNA revealed missense variants in DICER1 (p. D1709N) and MET (p. T1010I), but no established fusion gene events. After sequencing of germline DNA, the DICER1 mutation was confirmed as somatic, while the MET variant was constitutional. The patient is alive and well, currently awaiting radioiodine treatment. This MV-FTC mirrors previous publications, suggesting that these tumors carry a favorable prognosis and predominantly arise in younger females. Moreover, DICER1 mutations should be considered a common driver event in the development of MV-FTCs.
Highlights
Fine-needle aspiration biopsy (FNAB) followed by cytological examination is the gold standard technique for evaluating thyroid nodules, and the analysis provides an estimate of the risk of malignancy and strongly1 3 Vol:.(1234567890)Head and Neck Pathology (2021) 15:668–675 follicular-patterned thyrocytes without cellular atypia and nuclear changes associated with papillary thyroid carcinoma (PTC).The macrofollicular variant of follicular thyroid carcinoma (MV-FTC) is an exceedingly rare thyroid tumor, of which only four cases have been published prior to this case report [3,4,5]
Somatic dicer 1 ribonuclease III (DICER1) mutations are found in small subsets of follicular thyroid adenomas (FTAs), FTCs, PTCs and poorly differentiated thyroid carcinomas (PDTCs), most notably in pediatric or adolescent patients [10,11,12,13,14]
Even in the absence of inactivating mutations, DICER1 gene expression is reduced in the majority of follicular thyroid tumors, a process that has been linked to aberrant expression of the GABPA transcription factor
Summary
Fine-needle aspiration biopsy (FNAB) followed by cytological examination is the gold standard technique for evaluating thyroid nodules, and the analysis provides an estimate of the risk of malignancy and strongly. Following these initial absent findings, we expanded our investigations using the Oncomine Childhood Cancer Research Assay, a panel that screens for mutations in 126 genes (full exon coverage of 44 genes and hotspot mutational screening of additional 82 genes), copy number alterations of 24 genes and > 1700 gene fusion variants in 88 genes Both the Oncomine Solid Tumor Panel and the Oncomine Childhood Cancer Research Assay are used in clinical routine at our department, and the bioinformatics and associated interpretations were performed by one of the authors (KJ). The DICER1 variant D1709N locates to the functionally important RNAse IIIb domain of the mature DICER1 protein, and this specific variant is reported as a somatic mutation in several DICER1 syndrome-associated tumor forms, including ovarian Sertoli-Leydig cell tumors, pleuropulmonary blastoma and single cases of pediatric thyroid cancer [19,20,21,22]. The DICER1 variant was not detected in leukocyte DNA and thereby proved as somatic, while the T1010I MET variant was identified and classified as constitutional (Table 1)
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