Follicular thyroid cancer

For patient information, click here.
To review the wikidoc page on thyroid cancer , click here.

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-in-Chief: Ammu Susheela, M.D. [2]

Synonyms and keywords: Follicular neoplasm of thyroid; Follicular thyroid carcinoma; FTC; Hurthle cell carcinoma

Overview

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-in-Chief: Ammu Susheela, M.D. [2]

Overview

Thyroid cancer was first described by William Stewart Halsted, an American surgeon in the late nineteenth century. Follicular thyroid cancer may be classified according to WHO classification into 2 subtype including minimally invasive follicular thyroid carcinoma, and widely invasive follicular thyroid carcinoma. Follicular thyroid cancer arises from follicular cells of thyroid, which are secretory cells that are normally involved in production and secretion of thyroid hormones, thyroxine (T4) and triiodothyronine (T3). Genes involved in the pathogenesis of follicular thyroid cancer include Ras, PAX8/PPARγ, and PTEN. Follicular thyroid cancer must be differentiated from other diseases that cause neck masses such as goiter, Grave’s disease, Hurthle cell carcinoma, anaplastic thyroid carcinoma, papillary thyroid carcinoma, and medullary thyroid carcinoma. The incidence of follicular thyroid cancer is estimated to be 0.82 per 100 000 person-years. The female to male ratio is approximately 3 to 1. Common risk factors in the development of follicular thyroid cancer are iodine deficiency, family history of thyroid cancer, radiation exposure, and age. MRI may be helpful in the diagnosis of follicular thyroid cancer. MRI may also be performed to detect metastases of follicular thyroid cancer to brain and bones. On biopsy, follicular thyroid cancer is characterized by trabecular, solid, follicular tumor cells that invade tumor capsule or surrounding vascular structures. Surgery is the mainstay of treatment for follicular thyroid cancer.

Historical Perspective

In 1811, the first thyroid cancer case was reported. Thyroid cancer was first described by William Stewart Halsted, an American surgeon in the late nineteenth century.

Classification

Follicular thyroid cancer may be classified according to WHO classification into 2 subtypes including minimally invasive follicular thyroid carcinoma, and widely invasive follicular thyroid carcinoma.

Pathophysiology

Follicular thyroid cancer arises from follicular cells of thyroid, which are secretory cells that are normally involved in production and secretion of thyroid hormones, thyroxine (T4) and triiodothyronine (T3). Genes involved in the pathogenesis of follicular thyroid cancer include RAS, PAX8/PPARγ, and PTEN.

Causes

Follicular thyroid cancer is caused by a mutation in the RAS gene

Differential Diagnosis

Follicular thyroid cancer must be differentiated from other diseases that cause neck masses such as goiter, Grave’s disease, Hurthle cell carcinoma, anaplastic thyroid carcinoma, papillary thyroid carcinoma, and medullary thyroid carcinoma.

Epidemiology and Demographics

The incidence of follicular thyroid cancer is estimated to be 0.82 per 100 000 person-years. Females are more commonly affected with follicular thyroid cancer than males. The female to male ratio is approximately 3 to 1. The incidence of follicular thyroid cancer increases with age; the median age at diagnosis is 45 to 50 years.

Risk Factors

Common risk factors in the development of follicular thyroid cancer are iodine deficiency, family history of thyroid cancer, radiation exposure, and age.

Natural history, Complications and Prognosis

Depending on the extent of the tumor at the time of diagnosis, the prognosis of follicular thyroid cancer may vary. However, the prognosis is generally regarded as poor. The presence of metastasis is associated with a particularly poor prognosis among patients with follicular thyroid cancer.

Staging

According to the American Joint Committee on Cancer (AJCC) there are 4 stages of follicular thyroid cancer based on the clinical features and findings on imaging. Each stage is assigned a letter and a number that designate the tumor size, number of involved lymph node regions, and metastasis.

History and Symptoms

The hallmark of follicular thyroid cancer is swelling in the neck. A positive history of irradiation of head and neck, rapid growth of the nodule, hoarseness of voice, and family history of follicular carcinoma is suggestive of follicular thyroid cancer. The most common symptoms of follicular thyroid cancer include swelling in the neck, pain in the front of the neck, and hoarseness of voice.

Physical Examination

Patients with follicular thyroid cancer usually appear thin and cachectic. Physical examination of patients with follicular thyroid cancer is usually remarkable for thyromegaly, lymphadenopathy and anxiety.

Laboratory Findings

Laboratory findings consistent with the diagnosis of follicular thyroid cancer include elevated T3, elevated T4, and decreased thyroid stimulating hormone.

Chest x-ray

Chest x-ray may be helpful in the diagnosis of follicular thyroid cancer.

CT

CT scan may be helpful in the diagnosis of diffuse follicular thyroid cancer.

MRI

MRI may be helpful in the diagnosis of follicular thyroid cancer. MRI may also be performed to detect metastases of follicular thyroid cancer to brain and bones.

Echocardiography or Ultrasound

Neck ultrasound may be performed to detect follicular thyroid cancer.

Other Imaging Findings

Other diagnostic studies for follicular thyroid cancer include radioiodine scan, which demonstrates increased uptake of radioactive iodine at the areas of metastases and laryngoscopy which demonstrates vocal cord immobility.

Biopsy

On biopsy, follicular thyroid cancer is characterized by trabecular, solid, follicular tumor cells that invade tumor capsule or surrounding vascular structures.

Medical Therapy

Patients with follicular thyroid cancer are treated with radioactive iodine therapy and targeted medical therapy.

Surgery

Surgery is the mainstay of treatment for follicular thyroid cancer.

Prevention

Effective measures for the prevention of follicular thyroid cancer include avoidance of diets low in iodine and avoidance of ultraviolet exposure.

Reference

Historical Perspective

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-in-Chief: Ammu Susheela, M.D. [2]

Overview

In 1811, the first thyroid cancer case was reported. Thyroid cancer was first described by William Stewart Halsted, an American surgeon, in the late nineteenth century.

Historical Perspective

Discovery

Cancer of thyroid was the first ever described disease of thyroid.^[1]
Thyroid cancer was first described by William Stewart Halsted.
In 1951, head and neck irradiation demonstrated to cause thyroid cancer in children.

Landmark Events in the Development of Treatment Strategies

In 1884, thyroidectomies were performed successfully for thyroid disorders.
Theodore Kocher (1841 – 1917) was considered an expert in thyroidectomies in Switzerland.
Charles Horace Mayo was considered as an expert in thyroidectomies in the United States.

Reference

↑ Hegner CF (1932). “A History of Thyroid Surgery”. Ann. Surg. 95 (4): 481–92. PMC 1391584. PMID 17866746.

Classification

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-in-Chief: Ammu Susheela, M.D. [2] Sahar Memar Montazerin, M.D.[3]

Overview

Follicular thyroid cancer may be classified according to the degree of invasion into 3 sub-types: minimally invasive follicular thyroid carcinoma, encapsulated angioinvasive follicular thyroid cancer, and widely invasive follicular thyroid carcinoma.

Classification

Follicular thyroid cancer may be classified according to the degree of invasion into:^[1]
- Minimally invasive follicular thyroid carcinoma: when there is limited capsular and/or vascular invasion
- Encapsulated angioinvasive follicular thyroid cancer: when there is any evidence of vascular invasion.
- Widely invasive follicular thyroid carcinoma: when there is widespread infiltration of thyroid tissue and/or vascular invasion.

Follicular thyroid cancer

Minimally invasive follicular thyroid carcinoma

Encapsulated angioinvasive follicular thyroid cancer

Widely invasive follicular thyroid carcinoma

It has also been classified into conventional type and oncocytic type according to histologic factors.^[2]

Reference

↑ DeLellis, Ronald (2004). Pathology and genetics of tumours of endocrine organs. Lyon: IARC Press. ISBN 9789283224167.
↑ Sobrinho-Simões, Manuel; Eloy, Catarina; Magalhães, João; Lobo, Cláudia; Amaro, Teresina (2011). “Follicular thyroid carcinoma”. Modern Pathology. 24: S10–S18. doi:10.1038/modpathol.2010.133. ISSN 0893-3952.

Pathophysiology

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-in-Chief: Ammu Susheela, M.D. [2]

Overview

Follicular thyroid cancer arises from follicular cells of thyroid, which are secretory cells that are normally involved in production and secretion of thyroid hormones, thyroxine (T4) and triiodothyronine (T3). Genes involved in the pathogenesis of follicular thyroid cancer include RAS, PAX8/PPARγ, and PTEN.

Pathogenesis

Follicular thyroid cancer is the second most common type of cancer. It constitutes about 15% of thyroid cancers.

Follicular thyroid cancer occurs more commonly in women over 50 years of age.
Thyroglobulin (Tg) can be used as a tumor marker for well-differentiated follicular thyroid cancer.
Follicular carcinoma tends to metastasize to the lungs and bone via the bloodstream.
Follicular thyroid cancer metastasizes to lymph nodes late in the course of the disease, with only 5 – 10% of patients having nodal metastases at the time of diagnosis.
Hematogenous spread is however much more common with 20% of the patients having distant hematogenous metastases at at the time of diagnosis.^[1]
A Hürthle cell (also known as Askanazy cell) is an oncocytic cell in the thyroid that is often associated with Hashimoto’s thyroiditis as well as follicular thyroid cancer.^[2]

Genetics

The Ras oncogene is positive in a significant proportion of individuals.^[3]
The Ras oncogene acts through the RAF-MEK-MAPK kinase pathway.
Other genes involved in the pathogenesis of follicular thyroid cancer are:^[4]

RET/PTC (translocation) associated with MAPK and PI3K–AKT signaling pathways.

HRAS, KRAS, NRAS (mutation) associated with mitogen-activated protein kinase and PI3K–AKT signaling pathways.

PAX8/PPARγ (translocation) associated with PAX8-associated nuclear transcription signaling pathways. PAX8 is responsible for the follicular cell differentiation.

PTEN (mutation) associated with PI3K–AKT signaling pathways.

PTEN (deletion) associated with PI3K–AKT signaling pathways.

IDH1 (mutation) assciated with IDH1-associated metabolic pathways signaling pathways.

Phosphatase and tensin homologue suppressor gene and the phosphatidylinositol 3-kinase pathway are also involved in the pathogenesis of follicular thyroid tumor.
P53 (protein), c-myc, c-fos, and the thyrotropin (TSH) receptor are some other factors involved in the pathogenesis of follicular thyroid cancer.
MicroRNAs namely miR-192, miR-197, miR-328, and miR-346 have increased expression in follicular cell carcinoma.

Schema of key pathways in the development and progression of thyroid cancer.

Associated Conditions

Cowden disease
Carney complex, type I

Gross Pathology

Encapsulated tumors

Gross pathological section of a follicular thyroid carcinoma (tumor at the bottom).

Microscopic Pathology

On microscopic examination, trabecular, solid, follicular tumor cells that invade tumor capsule or surrounding vascular structures, are found.

Metastatic follicular thyroid carcinoma^[5]
Metastatic follicular thyroid carcinoma^[6]

Histopathological Video

Video

References

↑ “Radiopedia 2015 Follicular thyroid cancer [Dr Matt A. Morgan and Dr Frank Gaillard]”. Invalid parameter “0” in <ref> tag. The supported parameters are: dir, follow, group, name.
↑ Aytug, Serhat (June 13, 2006). “Hurthle Cell Carcinoma”. eMedicine. Check date values in: |date= (help)
↑ Martelli ML, Iuliano R, Le Pera I, Sama’ I, Monaco C, Cammarota S, Kroll T, Chiariotti L, Santoro M, Fusco A (October 2002). “Inhibitory effects of peroxisome poliferator-activated receptor gamma on thyroid carcinoma cell growth”. J. Clin. Endocrinol. Metab. 87 (10): 4728–35. doi:10.1210/jc.2001-012054. PMID 12364466.
↑ Zhu Z, Gandhi M, Nikiforova MN, Fischer AH, Nikiforov YE (July 2003). “Molecular profile and clinical-pathologic features of the follicular variant of papillary thyroid carcinoma. An unusually high prevalence of ras mutations”. Am. J. Clin. Pathol. 120 (1): 71–7. doi:10.1309/ND8D-9LAJ-TRCT-G6QD. PMID 12866375.
↑ http://librepathology.org/wiki/index.php/File:Metastatic_follicular_thyroid_carcinoma_-_Case_264_(8558730243).jpg Accessed on October, 29 2015
↑ http://librepathology.org/wiki/index.php/File:Metastatic_follicular_thyroid_carcinoma_-_Case_264_(8559837390).jpg Accessed on October, 29 2015

Causes

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-in-Chief: Ammu Susheela, M.D. [2]

Overview

Follicular thyroid cancer is caused by a mutation in the RAS gene.

Causes

Genetic mutation is suspected to be the main cause of follicular thyroid cancer.^[1]^[2]
It is caused by mutation in the RAS gene.

References

↑ Vasko, V.; Ferrand, M.; Di Cristofaro, J.; Carayon, P.; Henry, J. F.; de Micco, C. (2003). “Specific Pattern of RAS Oncogene Mutations in Follicular Thyroid Tumors”. The Journal of Clinical Endocrinology & Metabolism. 88 (6): 2745–2752. doi:10.1210/jc.2002-021186. ISSN 0021-972X.
↑ Thyroid Cancer Cancer.gov (2015). http://www.cancer.gov/types/thyroid/hp/thyroid-treatment-pdq#section/_6- Accessed on October, 29 2015

Differentiating Follicular thyroid cancer from other Diseases

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-in-Chief: Ammu Susheela, M.D. [2] Sahar Memar Montazerin, M.D.[3]

Overview

Follicular thyroid cancer must be differentiated from other diseases that cause neck masses such as goiter, Grave’s disease, Hurthle cell carcinoma, anaplastic thyroid carcinoma, papillary thyroid carcinoma, and medullary thyroid carcinoma.^[1]

Differentiating Follicular thyroid cancer from other Diseases

Follicular thyroid cancer must be differentiated from other thyroid cancers as well as other disorders such as:


Disease name	Age of onset	Gender preponderance	Signs/Symptoms	Imaging Feature(s)	Macroscopic feature(s)	Microscopic feature(s)	Laboratory Feature(s)	Other Feature(s)	Microscopic appearance
Follicular Thyroid Cancer^[2]^[3]^[4]	Peak incidence is 40-60 years of age	More commonly affects women	Asymptomatic thyroid mass or nodule Compressive symptoms such as: Difficulty swallowing/breathing Persistent cough Stridor Vocal chord paralysis Rapid enlarging mass	Ultrasound: solid hypoechoic nodule with a peripheral halo indicating fibrous capsule Irregular margin Imaging features are not characteristic for this cancer	Single encapsulated nodule, Thick and irregular capsule May have cystic or hemorrhage	Invades thyroid capsule and vasculature Uniform follicles	Thyroid function test may be normal Serum thyroglobulin may be used as a tumor marker	RAS mutation may be present PAX8-PPAR-γ translocations	Source:Wikimedia common
Papillary Thyroid Cancer^[5]^[2]^[3]	More common in middle aged (30-50 years of age)	More commonly affects women	Asymptomatic thyroid mass or nodule Compressive symptoms such as: Difficulty swallowing/breathing Persistent cough Stridor Vocal chord paralysis Rapid enlarging mass	Ultrasound: solitary mass with an irregular outline, in the subcapsular region and with high vascularity Imaging features are not characteristic for this cancer	Solitary hypoechogenic nodule with lobulated margin which may extend into adjacent tissues Calcification may be present or not	Empty-appearing nuclei with central clearing (Orphan Annie eye) Psammoma bodies	Thyroid function test may be normal Thyroglobulin may be used as a tumor marker	History of radiation in head and neck BRAF and/or RET mutation may be present Most common type of thyroid cancer	Source:Wikimedia commons
Medullary Thyroid Cancer^[6]^[7]^[8]^[3]	Incidence increases with age More common in 3rd to 4th decades of life	Both genders affected equally	Solitary thyroid nodule Mostly affects upper lobe of thyroid gland Possible systemic symptoms due to hormonal secretion by the tumor Cervical lymphadenopathy	Ultrasound: solitary hypoechoic nodule with or without calcification Imaging features are not characteristic for this cancer	Single nonencapsulated mass Gray-tan color	Sheets of cells in an amyloid stroma	Secretes calcitonin Normal thyroid function test Carcinoembryonic antigen (CEA) may be used as a tumor marker Rarely negative for calcitonin	May be part of MEN 2A and 2B syndrome May be associated with RET mutation	Source:Wikimedia common
Anaplastic Thyroid Cancer^[9]^[10]^[11]	More common among older individuals Mean age at diagnosis is 65 years	More commonly affects women	Rapidly enlarging thyroid mass May manifest with compressive symptoms May present with signs/symptoms of metastasis Constitutional symptoms may be present Hard nodular goiter w/out tenderness	Ultrasound: solid hypoechoic nodule with a peripheral halo indicating fibrous capsule Irregular margin Imaging features are not characteristic for this cancer	Solid tumor with areas of necrosis and hemorrhage Infiltrative pattern	Undifferentiated, devastatingly aggressive variant of Papillary/Follicular thyroid cancer	Normal thyroid function test	Poor prognosis May be associated with TP53 mutation	Source:Wikimedia common
Follicular Adenoma^[12]	More commonly affects individuals older than 50 years of age	More commonly affects women	Asymptomatic or symptoms of hyperthyroidism	Solitary nodule which may show echogenicity or not	Solitary, spherical, and encapsulated lesion Well demarcated from the surrounding parenchyma	Uniform follicles Absence of capsular or vascular invasion	Functional adenoma: Elevated T3, T4 Decreased TSH	May be considered functional or hot May be considered non-functional or cold	Source:Wikimedia common
Multinodular Goiter^[13]	Commonly affects individuals older than 60 years of age	More commonly affects women	Thyroid enlargement Signs/symptoms of hypo/hyperthyroidism	Multiple nodules with different echogenicity Calcification may be present	Multiple thyroid nodules	Variable sized follicles Some may show papillary projections without nuclear characteristics of papillary thyroid cancer	Classified as toxic and non-toxic Toxic => hyperthyroidism Non-toxic => Normal thyroid function test	Benign condition	Source:pathology outline, case courtesy of Dr. Swati Satturwar
Thyroid Lymphoma^[14] ^[15]^[16]^[17]	Affects adults or elderly	More common among women	Rapidly enlarging mass/ nodule of thyroid Compression symptoms may be present Constitiutional symptoms may be present in 10% P/E:Firm, hard thyroid Fixed to the nearby structure Immobile even during swallowing Cervical or supraclavicular lymphadenopathy may be present	Ultrasound: hypoechogenic appearance difficult to be distinguished from chronic thyroiditis	Thyroid nodule/mass fixing to adjacent tissue with a firm texture	It is of B cell lineage in the majority of cases Dffuse, large B-cell lymphomas is the most common subtype: diffuse infiltrate of B cells destroying thyroid follicles Marginal zone lymphoma is the second most common type	No specific test Some may have hypothyroidism Some may have antibody against thyroid peroxidase or thyroglobulin	Preexisting chronic autoimmune (Hashimoto’s) thyroiditis is a known risk factor for this condition	Source:pathology outline, case courtesy of Dr. Mark R. Wick

Reference

↑ Thyroid Cancer Cancer.gov (2015). http://www.cancer.gov/types/thyroid/hp/thyroid-treatment-pdq#section/_6- Accessed on October, 29 2015
↑ ^2.0 ^2.1 Schlumberger, Martin Jean (1998). “Papillary and Follicular Thyroid Carcinoma”. New England Journal of Medicine. 338 (5): 297–306. doi:10.1056/NEJM199801293380506. ISSN 0028-4793.
↑ ^3.0 ^3.1 ^3.2 Sipos JA (December 2009). “Advances in ultrasound for the diagnosis and management of thyroid cancer”. Thyroid. 19 (12): 1363–72. doi:10.1089/thy.2009.1608. PMID 20001718.
↑ Pettersson B, Adami HO, Wilander E, Coleman MP (April 1991). “Trends in thyroid cancer incidence in Sweden, 1958-1981, by histopathologic type”. Int. J. Cancer. 48 (1): 28–33. doi:10.1002/ijc.2910480106. PMID 2019455.
↑ Fagin, James A.; Mitsiades, Nicholas (2008). “Molecular pathology of thyroid cancer: diagnostic and clinical implications”. Best Practice & Research Clinical Endocrinology & Metabolism. 22 (6): 955–969. doi:10.1016/j.beem.2008.09.017. ISSN 1521-690X.
↑ Busnardo B, Girelli ME, Simioni N, Nacamulli D, Busetto E (January 1984). “Nonparallel patterns of calcitonin and carcinoembryonic antigen levels in the follow-up of medullary thyroid carcinoma”. Cancer. 53 (2): 278–85. doi:10.1002/1097-0142(19840115)53:2<278::aid-cncr2820530216>3.0.co;2-z. PMID 6690009.
↑ Kebebew E, Ituarte PH, Siperstein AE, Duh QY, Clark OH (March 2000). “Medullary thyroid carcinoma: clinical characteristics, treatment, prognostic factors, and a comparison of staging systems”. Cancer. 88 (5): 1139–48. doi:10.1002/(sici)1097-0142(20000301)88:5<1139::aid-cncr26>3.0.co;2-z. PMID 10699905.
↑ Hofstra, Robert M. W.; Landsvater, Rudy M.; Ceccherini, Isabella; Stulp, Rein P.; Stelwagen, Tineke; Luo, Yin; Pasini, Barbara; Hoppener, Jo W. M.; van Amstel, Hans Kristian Ploos; Romeo, Giovanni; Lips, Cornells J. M.; Buys, Charles H. C. M. (1994). “A mutation in the RET proto-oncogene associated with multiple endocrine neoplasia type 2B and sporadic medullary thyroid carcinoma”. Nature. 367 (6461): 375–376. doi:10.1038/367375a0. ISSN 0028-0836.
↑ Nagaiah G, Hossain A, Mooney CJ, Parmentier J, Remick SC (2011). “Anaplastic thyroid cancer: a review of epidemiology, pathogenesis, and treatment”. J Oncol. 2011: 542358. doi:10.1155/2011/542358. PMC 3136148. PMID 21772843.
↑ Chang TC, Liaw KY, Kuo SH, Chang CC, Chen FW (June 1989). “Anaplastic thyroid carcinoma: review of 24 cases, with emphasis on cytodiagnosis and leukocytosis”. Taiwan Yi Xue Hui Za Zhi. 88 (6): 551–6. PMID 2794956.
↑ Venkatesh YS, Ordonez NG, Schultz PN, Hickey RC, Goepfert H, Samaan NA (July 1990). “Anaplastic carcinoma of the thyroid. A clinicopathologic study of 121 cases”. Cancer. 66 (2): 321–30. doi:10.1002/1097-0142(19900715)66:2<321::aid-cncr2820660221>3.0.co;2-a. PMID 1695118.
↑ Mathur, Aarti; Olson, Matthew T.; Zeiger, Martha A. (2014). “Follicular Lesions of the Thyroid”. Surgical Clinics of North America. 94 (3): 499–513. doi:10.1016/j.suc.2014.02.005. ISSN 0039-6109.
↑ Bronshteĭn ME, Makarov AD, Artemova AM, Bazarova EN, Kozlov GI (1994). “[Morphology of the thyroid tissue in multinodular euthyroid goiter]”. Probl Endokrinol (Mosk) (in Russian). 40 (2): 36–9. PMID 8197088.
↑ Pedersen RK, Pedersen NT (January 1996). “Primary non-Hodgkin’s lymphoma of the thyroid gland: a population based study”. Histopathology. 28 (1): 25–32. PMID 8838117.
↑ Hyjek E, Isaacson PG (November 1988). “Primary B cell lymphoma of the thyroid and its relationship to Hashimoto’s thyroiditis”. Hum. Pathol. 19 (11): 1315–26. doi:10.1016/s0046-8177(88)80287-9. PMID 3141260.
↑ Tupchong L, Hughes F, Harmer CL (October 1986). “Primary lymphoma of the thyroid: clinical features, prognostic factors, and results of treatment”. Int. J. Radiat. Oncol. Biol. Phys. 12 (10): 1813–21. doi:10.1016/0360-3016(86)90324-x. PMID 3759532.
↑ Ota H, Ito Y, Matsuzuka F, Kuma S, Fukata S, Morita S, Kobayashi K, Nakamura Y, Kakudo K, Amino N, Miyauchi A (October 2006). “Usefulness of ultrasonography for diagnosis of malignant lymphoma of the thyroid”. Thyroid. 16 (10): 983–7. doi:10.1089/thy.2006.16.983. PMID 17042683.

Epidemiology and Demographics

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-in-Chief: Ammu Susheela, M.D. [2]

Overview

The incidence of follicular thyroid cancer is estimated to be 0.82 per 100,000 individuals. Females are more commonly affected than males. The female to male ratio is approximately 3 to 1. The incidence of follicular thyroid cancer increases with age; the median age at diagnosis is 45 to 50 years.

Epidemiology and Demographics

Incidence

The incidence of follicular thyroid cancer in the USA is 0.82 per 100,000 person-years.
The incidence of follicular thyroid cancer is 1.06 per 100,000 woman-years.
The incidence of follicular thyroid cancer is 0.59 per 100,000 man-years.^[1]
The American Cancer Society estimates:
- Approximately 52,070 new cases of thyroid cancer in the US in the year 2019 with 73% and 27% of these cases in the female and male population, respectively.^[2]

Prevalence

9 of every 100 people with thyroid cancer have follicular thyroid cancer.^[3]

Case Fatality Rate

Mortality rate of follicular thyroid cancer ranges from 5% to 15%.
The American Cancer Society estimates:
- Approximately 2170 deaths from thyroid cancer in the US in the year 2019 with 53% of these deaths involving women and 47% involving men.^[4]

Age

The median age at which follicular thyroid cancer is diagnosed is 45 to 50 years.

Gender

Follicular thyroid cancer is 3 times more common in female than in males.^[5]

References

↑ Pacini, F.; Castagna, M. G.; Brilli, L.; Pentheroudakis, G. (2012). “Thyroid cancer: ESMO Clinical Practice Guidelines for diagnosis, treatment and follow-up”. Annals of Oncology. 23 (suppl 7): vii110–vii119. doi:10.1093/annonc/mds230. ISSN 0923-7534.
↑ https://www.cancer.org/cancer/thyroid-cancer/about/key-statistics.html. Missing or empty |title= (help)
↑ Harach HR, Escalante DA, Onativia A, Lederer Outes J, Saravia Day E, Williams ED (January 1985). “Thyroid carcinoma and thyroiditis in an endemic goitre region before and after iodine prophylaxis”. Acta Endocrinol. 108 (1): 55–60. doi:10.1530/acta.0.1080055. PMID 3969810.
↑ https://www.cancer.org/cancer/thyroid-cancer/about/key-statistics.html. Missing or empty |title= (help)
↑ Taccaliti, Augusto; Palmonella, Gioia; Silvetti, Francesca; Boscaro, Marco (2012). “Thyroid Neoplasm”. doi:10.5772/37754.

Risk Factors

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-in-Chief: Ammu Susheela, M.D. [2]

Overview

Common risk factors in the development of follicular thyroid cancer are iodine deficiency, family history of thyroid cancer, and radiation exposure.

Risk Factors

Common risk factors in the development of follicular thyroid cancer are:^[1]^[2]
- Iodine deficiency
- Family history of thyroid cancer
- Radiation exposure
Less common risk factors in the development of follicular thyroid cancer include:^[3]
- Occupational and environmental exposures
- Hepatitis C-related chronic hepatitis
- Increased parity and late age at first pregnancy

References

↑ Hoang, Jenny K.; Branstetter, Barton F. IV; Gafton, Andreia R.; Lee, Wai K.; Glastonbury, Christine M. (2013). “Imaging of thyroid carcinoma with CT and MRI: approaches to common scenarios”. Cancer Imaging. 13 (1): 128–139. doi:10.1102/1470-7330.2013.0013. ISSN 1470-7330.
↑ Nagataki S, Nyström E (October 2002). “Epidemiology and primary prevention of thyroid cancer”. Thyroid. 12 (10): 889–96. doi:10.1089/105072502761016511. PMID 12487771.
↑ Antonelli A, Ferri C, Fallahi P, Pampana A, Ferrari SM, Barani L, Marchi S, Ferrannini E (May 2007). “Thyroid cancer in HCV-related chronic hepatitis patients: a case-control study”. Thyroid. 17 (5): 447–51. doi:10.1089/thy.2006.0194. PMID 17542674.

Template:WH Template:WS

Natural History, Complications, and Prognosis

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-in-Chief: Ammu Susheela, M.D. [2]

Overview

Depending on the extent of the tumor at the time of diagnosis, prognosis of follicular thyroid cancer may vary. However, prognosis is generally regarded as good. The presence of metastasis is associated with a particularly poor prognosis among patients with follicular thyroid cancer.

Natural History, Complications, and Prognosis

Natural History

Natural history of follicular thyroid cancer is variable.
Symptoms of follicular thyroid cancer usually develop in the fourth decade of life.
The condition presents as a slowly enlarging painless mass.
Without treatment, patients will develop symptoms caused by compression and metastasis, such as hoarseness of voice, difficulty swallowing, and difficulty breathing.^[1]

Complications

Common complications of follicular thyroid cancer include:^[2]

Prognosis

Prognosis of follicular thyroid cancer is directly related to tumor size.^[3]
- Good Prognostic Factors:
  - Children
  - Adolescent
  - Women younger than 50
  - Men younger than 40
- Bad Prognostic Factors:
  - Women older than 50 with follicular carcinoma
  - Men older than 40 with follicular carcinoma
  - Distant metastasis
  - Large tumor size
  - Extensive vascular invasion
  - Extra thyroidal extension
  - Widely invasive tumors
Stage Related Prognosis
- The 10-year survival is better for patients with follicular carcinoma without vascular invasion than it is for patients with vascular invasion.
- Follicular carcinoma invading the cervical tissue has a worse prognosis than tumors confined to the thyroid gland.
- The presence of vascular invasion is an additional poor prognostic factor.
- Metastasis to lymph nodes do not worsen the prognosis in patients younger than 45 years.
- The prognosis for patients with distant metastases is poor.

5-year Relative Survival Rate
- 5-year relative survival rate of follicular thyroid cancer depends on the stage of the disease at the time of diagnosis.
  - Stage 1 has 100% 5-year relative survival rate.
  - Stage 2 has 100% 5-year relative survival rate.
  - Stage 3 has 71% 5-year relative survival rate.
  - Stage 4 has 50% 5-year relative survival rate.

References

↑ Thyroid Cancer Cancer.gov (2015). http://www.cancer.gov/types/thyroid/hp/thyroid-treatment-pdq#section/_6- Accessed on October, 29 2015
↑ Emerick GT, Duh QY, Siperstein AE, Burrow GN, Clark OH (December 1993). “Diagnosis, treatment, and outcome of follicular thyroid carcinoma”. Cancer. 72 (11): 3287–95. doi:10.1002/1097-0142(19931201)72:11<3287::aid-cncr2820721126>3.0.co;2-5. PMID 8080485.
↑ Grebe SK, Hay ID (December 1995). “Follicular thyroid cancer”. Endocrinol. Metab. Clin. North Am. 24 (4): 761–801. PMID 8608779.

Diagnosis

Treatment

Medical Therapy | Surgery | Prevention | Cost-Effectiveness of Therapy | Future or Investigational Therapies Template:WH Template:WS

[pmid17866746-1] Hegner CF (1932). “A History of Thyroid Surgery”. Ann. Surg. 95 (4): 481–92. PMC 1391584. PMID 17866746.

[1] DeLellis, Ronald (2004). Pathology and genetics of tumours of endocrine organs. Lyon: IARC Press. ISBN 9789283224167.

[Sobrinho-SimõesEloy2011-2] Sobrinho-Simões, Manuel; Eloy, Catarina; Magalhães, João; Lobo, Cláudia; Amaro, Teresina (2011). “Follicular thyroid carcinoma”. Modern Pathology. 24: S10–S18. doi:10.1038/modpathol.2010.133. ISSN 0893-3952.

[Radiopaedia-1] “Radiopedia 2015 Follicular thyroid cancer [Dr Matt A. Morgan and Dr Frank Gaillard]”. Invalid parameter “0” in <ref> tag. The supported parameters are: dir, follow, group, name.

[Hurthle_Cell_Carcinoma-2] Aytug, Serhat (June 13, 2006). “Hurthle Cell Carcinoma”. eMedicine. Check date values in: |date= (help)

[pmid123644662-3] Martelli ML, Iuliano R, Le Pera I, Sama’ I, Monaco C, Cammarota S, Kroll T, Chiariotti L, Santoro M, Fusco A (October 2002). “Inhibitory effects of peroxisome poliferator-activated receptor gamma on thyroid carcinoma cell growth”. J. Clin. Endocrinol. Metab. 87 (10): 4728–35. doi:10.1210/jc.2001-012054. PMID 12364466.

[pmid12866375-4] Zhu Z, Gandhi M, Nikiforova MN, Fischer AH, Nikiforov YE (July 2003). “Molecular profile and clinical-pathologic features of the follicular variant of papillary thyroid carcinoma. An unusually high prevalence of ras mutations”. Am. J. Clin. Pathol. 120 (1): 71–7. doi:10.1309/ND8D-9LAJ-TRCT-G6QD. PMID 12866375.

[5] ttp://librepathology.org/wiki/index.php/File:Metastatic_follicular_thyroid_carcinoma_-_Case_264_(8558730243).jpg Accessed on October, 29 2015

[6] ttp://librepathology.org/wiki/index.php/File:Metastatic_follicular_thyroid_carcinoma_-_Case_264_(8559837390).jpg Accessed on October, 29 2015

[VaskoFerrand2003-1] Vasko, V.; Ferrand, M.; Di Cristofaro, J.; Carayon, P.; Henry, J. F.; de Micco, C. (2003). “Specific Pattern of RAS Oncogene Mutations in Follicular Thyroid Tumors”. The Journal of Clinical Endocrinology & Metabolism. 88 (6): 2745–2752. doi:10.1210/jc.2002-021186. ISSN 0021-972X.

[2] Thyroid Cancer Cancer.gov (2015). http://www.cancer.gov/types/thyroid/hp/thyroid-treatment-pdq#section/_6- Accessed on October, 29 2015

[1] Thyroid Cancer Cancer.gov (2015). http://www.cancer.gov/types/thyroid/hp/thyroid-treatment-pdq#section/_6- Accessed on October, 29 2015

[Schlumberger1998-2] 2.0 ^2.1 Schlumberger, Martin Jean (1998). “Papillary and Follicular Thyroid Carcinoma”. New England Journal of Medicine. 338 (5): 297–306. doi:10.1056/NEJM199801293380506. ISSN 0028-4793.

[pmid20001718-3] 3.0 ^3.1 ^3.2 Sipos JA (December 2009). “Advances in ultrasound for the diagnosis and management of thyroid cancer”. Thyroid. 19 (12): 1363–72. doi:10.1089/thy.2009.1608. PMID 20001718.

[pmid2019455-4] Pettersson B, Adami HO, Wilander E, Coleman MP (April 1991). “Trends in thyroid cancer incidence in Sweden, 1958-1981, by histopathologic type”. Int. J. Cancer. 48 (1): 28–33. doi:10.1002/ijc.2910480106. PMID 2019455.

[FaginMitsiades2008-5] Fagin, James A.; Mitsiades, Nicholas (2008). “Molecular pathology of thyroid cancer: diagnostic and clinical implications”. Best Practice & Research Clinical Endocrinology & Metabolism. 22 (6): 955–969. doi:10.1016/j.beem.2008.09.017. ISSN 1521-690X.

[pmid6690009-6] Busnardo B, Girelli ME, Simioni N, Nacamulli D, Busetto E (January 1984). “Nonparallel patterns of calcitonin and carcinoembryonic antigen levels in the follow-up of medullary thyroid carcinoma”. Cancer. 53 (2): 278–85. doi:10.1002/1097-0142(19840115)53:2<278::aid-cncr2820530216>3.0.co;2-z. PMID 6690009.

[pmid10699905-7] Kebebew E, Ituarte PH, Siperstein AE, Duh QY, Clark OH (March 2000). “Medullary thyroid carcinoma: clinical characteristics, treatment, prognostic factors, and a comparison of staging systems”. Cancer. 88 (5): 1139–48. doi:10.1002/(sici)1097-0142(20000301)88:5<1139::aid-cncr26>3.0.co;2-z. PMID 10699905.

[HofstraLandsvater1994-8] Hofstra, Robert M. W.; Landsvater, Rudy M.; Ceccherini, Isabella; Stulp, Rein P.; Stelwagen, Tineke; Luo, Yin; Pasini, Barbara; Hoppener, Jo W. M.; van Amstel, Hans Kristian Ploos; Romeo, Giovanni; Lips, Cornells J. M.; Buys, Charles H. C. M. (1994). “A mutation in the RET proto-oncogene associated with multiple endocrine neoplasia type 2B and sporadic medullary thyroid carcinoma”. Nature. 367 (6461): 375–376. doi:10.1038/367375a0. ISSN 0028-0836.

[pmid21772843-9] Nagaiah G, Hossain A, Mooney CJ, Parmentier J, Remick SC (2011). “Anaplastic thyroid cancer: a review of epidemiology, pathogenesis, and treatment”. J Oncol. 2011: 542358. doi:10.1155/2011/542358. PMC 3136148. PMID 21772843.

[pmid2794956-10] Chang TC, Liaw KY, Kuo SH, Chang CC, Chen FW (June 1989). “Anaplastic thyroid carcinoma: review of 24 cases, with emphasis on cytodiagnosis and leukocytosis”. Taiwan Yi Xue Hui Za Zhi. 88 (6): 551–6. PMID 2794956.

[pmid1695118-11] Venkatesh YS, Ordonez NG, Schultz PN, Hickey RC, Goepfert H, Samaan NA (July 1990). “Anaplastic carcinoma of the thyroid. A clinicopathologic study of 121 cases”. Cancer. 66 (2): 321–30. doi:10.1002/1097-0142(19900715)66:2<321::aid-cncr2820660221>3.0.co;2-a. PMID 1695118.

[MathurOlson2014-12] Mathur, Aarti; Olson, Matthew T.; Zeiger, Martha A. (2014). “Follicular Lesions of the Thyroid”. Surgical Clinics of North America. 94 (3): 499–513. doi:10.1016/j.suc.2014.02.005. ISSN 0039-6109.

[pmid8197088-13] Bronshteĭn ME, Makarov AD, Artemova AM, Bazarova EN, Kozlov GI (1994). “[Morphology of the thyroid tissue in multinodular euthyroid goiter]”. Probl Endokrinol (Mosk) (in Russian). 40 (2): 36–9. PMID 8197088.

[pmid8838117-14] Pedersen RK, Pedersen NT (January 1996). “Primary non-Hodgkin’s lymphoma of the thyroid gland: a population based study”. Histopathology. 28 (1): 25–32. PMID 8838117.

[pmid3141260-15] Hyjek E, Isaacson PG (November 1988). “Primary B cell lymphoma of the thyroid and its relationship to Hashimoto’s thyroiditis”. Hum. Pathol. 19 (11): 1315–26. doi:10.1016/s0046-8177(88)80287-9. PMID 3141260.

[pmid3759532-16] Tupchong L, Hughes F, Harmer CL (October 1986). “Primary lymphoma of the thyroid: clinical features, prognostic factors, and results of treatment”. Int. J. Radiat. Oncol. Biol. Phys. 12 (10): 1813–21. doi:10.1016/0360-3016(86)90324-x. PMID 3759532.

[pmid17042683-17] Ota H, Ito Y, Matsuzuka F, Kuma S, Fukata S, Morita S, Kobayashi K, Nakamura Y, Kakudo K, Amino N, Miyauchi A (October 2006). “Usefulness of ultrasonography for diagnosis of malignant lymphoma of the thyroid”. Thyroid. 16 (10): 983–7. doi:10.1089/thy.2006.16.983. PMID 17042683.

[PaciniCastagna2012-1] Pacini, F.; Castagna, M. G.; Brilli, L.; Pentheroudakis, G. (2012). “Thyroid cancer: ESMO Clinical Practice Guidelines for diagnosis, treatment and follow-up”. Annals of Oncology. 23 (suppl 7): vii110–vii119. doi:10.1093/annonc/mds230. ISSN 0923-7534.

[2] ttps://www.cancer.org/cancer/thyroid-cancer/about/key-statistics.html. Missing or empty |title= (help)

[pmid3969810-3] Harach HR, Escalante DA, Onativia A, Lederer Outes J, Saravia Day E, Williams ED (January 1985). “Thyroid carcinoma and thyroiditis in an endemic goitre region before and after iodine prophylaxis”. Acta Endocrinol. 108 (1): 55–60. doi:10.1530/acta.0.1080055. PMID 3969810.

[4] ttps://www.cancer.org/cancer/thyroid-cancer/about/key-statistics.html. Missing or empty |title= (help)

[TaccalitiPalmonella2012-5] Taccaliti, Augusto; Palmonella, Gioia; Silvetti, Francesca; Boscaro, Marco (2012). “Thyroid Neoplasm”. doi:10.5772/37754.

[HoangBranstetter2013-1] Hoang, Jenny K.; Branstetter, Barton F. IV; Gafton, Andreia R.; Lee, Wai K.; Glastonbury, Christine M. (2013). “Imaging of thyroid carcinoma with CT and MRI: approaches to common scenarios”. Cancer Imaging. 13 (1): 128–139. doi:10.1102/1470-7330.2013.0013. ISSN 1470-7330.

[pmid12487771-2] Nagataki S, Nyström E (October 2002). “Epidemiology and primary prevention of thyroid cancer”. Thyroid. 12 (10): 889–96. doi:10.1089/105072502761016511. PMID 12487771.

[pmid17542674-3] Antonelli A, Ferri C, Fallahi P, Pampana A, Ferrari SM, Barani L, Marchi S, Ferrannini E (May 2007). “Thyroid cancer in HCV-related chronic hepatitis patients: a case-control study”. Thyroid. 17 (5): 447–51. doi:10.1089/thy.2006.0194. PMID 17542674.

[1] Thyroid Cancer Cancer.gov (2015). http://www.cancer.gov/types/thyroid/hp/thyroid-treatment-pdq#section/_6- Accessed on October, 29 2015

[pmid8080485-2] Emerick GT, Duh QY, Siperstein AE, Burrow GN, Clark OH (December 1993). “Diagnosis, treatment, and outcome of follicular thyroid carcinoma”. Cancer. 72 (11): 3287–95. doi:10.1002/1097-0142(19931201)72:11<3287::aid-cncr2820721126>3.0.co;2-5. PMID 8080485.

[pmid8608779-3] Grebe SK, Hay ID (December 1995). “Follicular thyroid cancer”. Endocrinol. Metab. Clin. North Am. 24 (4): 761–801. PMID 8608779.

[1]

[1]

[2]

[1]

[2]

[3]

[4]

[5]

[6]

[1]

[2]

[2]

[3]

[4]

[5]

[6]

[7]

[8]

[9]

[10]

[11]

[12]

[13]

[14]

[15]

[16]

[17]

[1]

[3]

[4]

[5]

[1]

[2]

[3]

[2]

[3]

Follicular thyroid cancer

Overview

Historical Perspective

Classification

Pathophysiology

Causes

Differential Diagnosis

Epidemiology and Demographics

Risk Factors

Natural history, Complications and Prognosis

Staging

History and Symptoms

Physical Examination

Laboratory Findings

Chest x-ray

CT

MRI

Echocardiography or Ultrasound

Other Imaging Findings

Biopsy

Medical Therapy

Surgery

Prevention

Reference

Overview

Historical Perspective

Discovery

Landmark Events in the Development of Treatment Strategies

Reference

Overview

Classification

Reference

Overview

Pathogenesis

Genetics

Associated Conditions

Gross Pathology

Microscopic Pathology

Histopathological Video

Video

References

Overview

Causes

References

Overview

Differentiating Follicular thyroid cancer from other Diseases

Reference

Overview

Epidemiology and Demographics

Incidence

Prevalence

Case Fatality Rate

Age

Gender

References

Overview

Risk Factors

References

Overview

Natural History, Complications, and Prognosis

Natural History

Complications

Prognosis

References

Diagnosis

Treatment

Looking for the patient version?