Thyroid cancer is the most common type of endocrine malignancy with an incidence that has steadily increased for the past three decades. Deaths from thyroid cancers alone account for more deaths than all of the other endocrine malignancies combined. In the U.S., 64,300 new cases and 1,980 deaths are estimated for 2015 (ACS 2016).
Epithelial malignant cancers of the thyroid arise from two different types of parenchymal cells, follicular and parafollicular. Follicular cells line the colloid follicules, concentrate iodine and are predominantly involved in production of thyroid hormones. From these cells arise well differentiated and anaplastic thyroid cancers. The parafollicular or C cells, which are spread among the thyroid follicules, are responsible for the production of calcitonin and from these cells arise medullary thyroid cancers (Pitt and Moley 2010).
Well differentiated thyroid carcinomas (DTC) account for 90% of all thyroid cancers, while medullary thyroid carcinomas (MTC) account for 5 to 9%, and anaplastic carcinomas for the remaining 1 to 2%. Well differentiated carcinomas are further subdivided histologically as papillary thyroid cancer (80–85%), follicular thyroid cancer (10–15%) and Hurtle cell carcinoma (3–5%). Overall, DTCs have a very good prognosis with long term disease free survival close to 95% for papillary thyroid cancers (PTC) and 80% for follicular thyroid cancers (FTC). Their treatment is based on a three-pronged approach that includes thyroidectomy, radioactive iodine therapy and hormonal suppression (TSH) with thyroid replacement hormone. Their most important prognostic factor is distant metastasis which is found in only 5% of patients but carry a high mortality rate at 1 year (50%). In general, DTCs do not respond to chemotherapy (Espinosa, Porchia, and Ringel 2007; Sippos and Mazzaferri 2008).
Medullary thyroid cancers are clinically classified as sporadic or familial cancers. Sporadic MTCs occur as localized cancers with infrequent lymph node involvement (unifocal) and correspond to 70% of all cases, while familial cancers are typically diagnosed as advance disease (multifocal) in the remaining 30% of the cases. Familial MTCs have been described as part of the MEN 2a syndrome which includes the presence of pheochromocytoma and parathyroid hyperplasias, and of the MEN 2b syndromes that also include pheochromocytoma and mucosal neuromas and/or gastrointestinal ganglioneuromas. These cancers have a 5-year survival of 80 to 90%, and for a few decades, surgery was the only effective therapy (Nosé 2011). Just recently, the tyrosine kinase inhibitor, vandetanib, was approved by the FDA for treatment of metastatic MTC. It is the only targeted agent FDA approved for any thyroid cancer (Deshpande et al. 2011).
Thyroid cancers harbor multiple gene mutations or rearrangements which are mutually exclusive. Affected genes include RET, BRAF, PI3KCA, and RAS (Kimura et al. 2003).
Espinosa, A., J. Gilbert. 2016. Molecular Profiling of Thyroid Cancer. My Cancer Genome


No guideline available.


No case available.

External Links

No data available.

Research Progress

No data available.

Curated Knowledge

The below lists the genes that has strong relation to thyroid cancer.
Related references and evidence are provided.The badge shows that how many papers, studies, and other resources support the conclusion of the relationship.

No data available.

Statistics in Database

In this database, the most frequently mutated genes and most affected donors are below.

Most Frequently Mutated Genes

SymbolNameLocationLocus typeVariationsDonors affected
thyroid cancerAll tumour type
SymbolNameLocationLocus typeVariationsthyroid cancerAll tumour type


Most Affected Donors

IDGenderAgePrimary siteVariationsAffected genes
IDGenderAgePrimary siteVariationsAffected genes