Hashimoto's thyroiditis

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Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1] Associate Editor(s)-in-Chief: Furqan M M. M.B.B.S [2] Dayana Davidis, M.D. [3] Cafer Zorkun, M.D., Ph.D. [4]

Synonyms and keywords: Chronic lymphocytic thyroiditis, Autoimmune thyroiditis, Struma lymphomatosa, Lymphadenoid goiter, Chronic autoimmune thyroiditis.

Overview

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

Overview

Hashimoto’s thyroiditis or chronic lymphocytic thyroiditis is an autoimmune disease where the body’s own antibodies attack the cells of the thyroid. Hashimoto’s thyroiditis was first described by Hashimoto Hakaru in 1912. He named it struma lymphomatosa which was renamed as Hashimoto’s thyroiditis in 1931. Hashimoto’s thyroiditis can be classified as primary or secondary types. Rarely, Hashimoto’s thyroiditis can be categorized under the polyglandular syndromes. Hashimoto’s thyroiditis (HT) is characterized by lymphocytic infiltration of the thyroid gland and production of antibodies that recognize thyroid-specific antigens. The pathogenesis is not yet completely understood. Thyroid cells undergo atrophy or transform into a type of follicular cell rich in mitochondria called Hurthle cell. It is currently thought that the disease is caused by abnormalities in cellular and humoral immunity which results in a localized cell-mediated immune response directed toward the thyroid parenchymal cells. This results in the decreased production of thyroid hormones. Hashimoto’s thyroiditis is particularly common in middle aged women, Asians, and Whites. Hashimoto’s thyroiditis usually begins slowly and may progress to hypothyroidism. Complications include heart failure, lymphoma, myxedema, and cervical compression. A positive history of autoimmune diseases and certain drug use are suggestive of Hashimoto’s thyroiditis. The most common symptoms of Hashimoto’s thyroiditis include fatigue, constipation, and cold intolerance. Laboratory findings consistent with the diagnosis of Hashimoto’s thyroiditis usually include increased thyroid stimulating hormone, decreased free T3 and free T4, and anti-thyroid peroxidase antibodies. Ultrasound findings associated with Hashimoto’s thyroiditis are reduced echogenicity, glandular irregularities, and nodules. 24-hour iodine-123 uptake is decreased in Hashimoto’s thyroiditis. The mainstay of therapy for Hashimoto’s thyroiditis is synthetic levothyroxine. Corticosteroids and selenium can also be used in certain cases. Thyroidectomy is usually performed when the enlarged thyroid produces cervical compression symptoms and there is a high suspicion for malignancy.

Historical Perspective

Hashimoto’s thyroiditis was first described by Hashimoto Hakaru in 1912. He named it struma lymphomatosa which was renamed as Hashimoto’s thyroiditis in 1931.

Classification

On the basis of the etiology, Hashimoto’s thyroiditis can be classified as primary or secondary types. Rarely, Hashimoto’s thyroiditis can be categorized under the polyglandular syndromes.

Pathophysiology

Hashimoto’s thyroiditis (HT) is characterized by lymphocytic infiltration of the thyroid gland and production of antibodies that recognize thyroid-specific antigens.The pathogenesis is not yet completely understood. Thyroid cells undergo atrophy or transform into a type of follicular cell rich in mitochondria called Hurthle cell. It is currently thought that the disease is caused by abnormalities in cellular and humoral immunity which results in a localized cell-mediated immune response directed toward the thyroid parenchymal cells. This results in the decreased production of thyroid hormones.

Causes

Hashimoto’s thyroiditis may be caused by T cells and B cells auto activation, genetic factors, and autoimmune antibodies against thyrotropin receptors.

Differentiating Hashimoto’s Thyroiditis from other Diseases

Hashimoto’s thyroiditis must be differentiated from other causes of thyroiditis, such as De Quervain’s thyroiditis, Riedel’s thyroiditis, and suppurative thyroiditis. Hashimoto’s thyroiditis must be differentiated from other causes of thyroiditis, such as De Quervain’s thyroiditis, Riedel’s thyroiditis, and suppurative thyroiditis. Hashimoto’s thyroiditis must also be differentiated from other diseases which cause hypothyroidism. As Hashimoto’s thyroiditis may cause transient thyrotoxic symptoms, the diseases causing thyrotoxicosis must also be considered in the differential diagnosis.

Epidemiology and Demographics

Hashimoto’s thyroiditis is particularly common in middle aged women, Asians, and Whites. Annually, there are around 22 per 100,000 individuals worldwide.

Risk Factors

Common risk factors in the development of Hashimoto’s thyroiditis are family history, female gender, and other autoimmune diseases.

Screening

There is insufficient evidence to recommend routine screening for Hashimoto’s thyroiditis.

Natural History, Complications and Prognosis

Hashimoto’s thyroiditis usually begins slowly and may progress to hypothyroidism. Complications include heart failure, lymphoma, myxedema, and cervical compression.

Diagnosis

Diagnostic Criteria

There are no established criteria for the diagnosis of Hashimoto’s thyroiditis. The diagnosis of Hashimoto’s thyroiditis is made on laboratory and pathological findings after the clinical suspicion. It includes the TPO antibodies, hypothyroidism, reduced echogenicity on the ultrasound, the presence of germinal centers and lymphocytic infiltration of the thyroid gland.

History and Symptoms

The hallmark of Hashimoto’s thyroiditis is hypothyroidism. A positive history of autoimmune diseases and certain drug use are suggestive of Hashimoto’s thyroiditis. The most common symptoms of Hashimoto’s thyroiditis include fatigue, constipation, and cold intolerance.

Physical Examination

Patients with Hashimoto’s thyroiditis usually appear fatigued and have myxedema. Physical examination of patients with Hashimoto’s thyroiditis is usually remarkable for bradycardia, bradypnea and delayed reflexes.

Laboratory Findings

Laboratory findings consistent with the diagnosis of Hashimoto’s thyroiditis usually include increased thyroid stimulating hormone, decreased free T3 and free T4, and anti-thyroid peroxidase antibodies.

Electrocardiogram

The findings associated with ECG in Hashimoto’s thyroiditis are bradycardia and low voltage QRS complex.

Chest X Ray

The findings associated with Chest X ray in Hashimoto’s thyroiditis are pleural effusion and cardiomegaly.

CT

Non-contrast CT may be used in Hashimoto’s thyroiditis to assess the tracheal or esophageal compression.

MRI

There are no MRI findings associated with Hashimoto’s thyroiditis.

Echocardiography or Ultrasound

Ultrasound findings associated with Hashimoto’s thyroiditis are reduced echogenicity, glandular irregularities, and nodules.

Other Imaging Findings

24-hour iodine-123 uptake is decreased in Hashimoto’s thyroiditis.

Other Diagnostic Studies

The histological analysis in Hashimoto’s thyroiditis may show inflammatory cell infiltration and hurthle cells. Fine needle aspiration cytology helps to differentiate between the benign and malignant nodules. ^[1]^[2]

Treatment

Medical Therapy

The mainstay of therapy for Hashimoto’s thyroiditis is synthetic levothyroxine. Corticosteroids and selenium can also be used in certain cases.

Surgery

Thyroidectomy is usually performed when the enlarged thyroid produces cervical compression symptoms and there is a high suspicion for malignancy.

Primary Prevention

There are no primary preventive measures available for Hashimoto’s thyroiditis.

Secondary Prevention

There are no secondary preventive measures available for Hashimoto’s thyroiditis.

References

↑ Caturegli P, De Remigis A, Rose NR (2014). “Hashimoto thyroiditis: clinical and diagnostic criteria”. Autoimmun Rev. 13 (4–5): 391–7. doi:10.1016/j.autrev.2014.01.007. PMID 24434360.
↑ “Thyroiditis — NEJM”.

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Historical Perspective

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

Overview

Hashimoto’s thyroiditis was first described by Hashimoto Hakaru in 1912. He named it struma lymphomatosa which was renamed as Hashimoto’s thyroiditis in 1931.

Historical Perspective

Hashimoto’s thyroiditis was first described by a Japanese physician Hashimoto Hakaru (1881−1934) of the medical school at Kyushu University. Hashimoto’s thyroiditis is also known as Hashimoto’s disease. ^[1]

Hashimoto thyroiditis was initially considered to be an earlier manifestation of Riedel’s thyroiditis.
Hashimoto Hakaru was the first who described four patients with a chronic disorder of the thyroid. Hakaru Hashimoto explained in his report that the new pathological characteristics he had identified, namely infiltration of lymphoid and plasma cells, the formation of lymphoid follicles with germinal centers, fibrosis, degenerated thyroid epithelial cells and leukocytes in the lumen, were histologically similar to those of Mikulicz’s disease.^[2]^[3]
Hashimoto Hakaru termed the new disease struma lymphomatosa due to the lymphoid cell infiltration and formation of lymphoid follicles with germinal centers.^[3]
Hashimoto’s struma lymphomatosa was then ignored and forgotten until 1931, when Allen Graham and his team at Cleveland reported struma lymphomatosa as detailed by Hashimoto Hakaru and recommended it to be considered a separate disease as Hashimoto suggested. Since then, this disease has been referred to as Hashimoto thyroiditis.^[3]

References

↑ Template:WhoNamedIt
↑ H. Hashimoto: Zur Kenntnis der lymphomatösen Veränderung der Schilddrüse (Struma lymphomatosa). Archiv für klinische Chirurgie, Berlin, 1912, 97: 219−248.
↑ ^3.0 ^3.1 ^3.2 Hiromatsu Y, Satoh H, Amino N (2013). “Hashimoto’s thyroiditis: history and future outlook”. Hormones (Athens). 12 (1): 12–8. PMID 23624127.

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Classification

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

Overview

On the basis of the etiology, Hashimoto’s thyroiditis can be classified as primary or secondary types. Rarely, Hashimoto’s thyroiditis can be categorized under the polyglandular syndromes.

Classification

Hashimoto’s thyroiditis (HT) can be classified on the basis of the etiology to the primary and secondary types as follows:^[1]

Primary

Primary HT is the most common form of thyroiditis and comprises the cases that do not currently have identifiable causes. Primary HT encompasses a spectrum of the following main types:

Classic form
Fibrous variant
IgG4-related variant
Juvenile form
Hashitoxicosis

Two forms of painless thyroiditis, sporadic and postpartum thyroiditis were considered the form of Hashimoto’s thyroiditis. These are now regarded as different from Hashimoto’s thyroiditis.

Secondary

Secondary HT is of more recent description. It includes the forms where an etiologic agent can be clearly identified. It is more commonly iatrogenic and induced by the administration of:

Immunomodulatory drugs (e.g, interferon-alpha)
Monoclonal antibodies that block CTLA-4
Cancer vaccines

Polyglandular autoimmune syndromes

In rare cases, Hashimoto’s thyroiditis may be associated with other endocrine disorders caused by the immune system. On the basis of the involvement of other endocrine disease involvements, Hashimoto’s thyroiditis may be classified under the polyglandular autoimmune syndromes. ^[2]

Type 2 polyglandular autoimmune syndrome (PGA II):
Type 1 polyglandular autoimmune syndrome (PGA I):
- Hashimoto’s disease/hypothyroidism
- Adrenal insufficiency
- Fungal infections of the mouth and nails
- Hypoparathyroidism

References

↑ Caturegli P, De Remigis A, Rose NR (2014). “Hashimoto thyroiditis: clinical and diagnostic criteria”. Autoimmun Rev. 13 (4–5): 391–7. doi:10.1016/j.autrev.2014.01.007. PMID 24434360.
↑ Kahaly GJ (2009). “Polyglandular autoimmune syndromes”. Eur. J. Endocrinol. 161 (1): 11–20. doi:10.1530/EJE-09-0044. PMID 19411300.

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Pathophysiology

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

Overview

Hashimoto’s thyroiditis (HT) is characterized by lymphocytic infiltration of the thyroid gland and production of antibodies that recognize thyroid-specific antigens. The pathogenesis is not yet completely understood. Thyroid cells undergo atrophy or transform into a type of follicular cell rich in mitochondria called Hurthle cell. It is currently thought that the disease is caused by abnormalities in cellular and humoral immunity which results in a localized cell-mediated immune response directed toward the thyroid parenchymal cells. This results in the decreased production of thyroid hormones.

Pathophysiology

The control, synthesis, and release of the thyroid hormones is usually controlled by hypothalamus and pituitary gland.^[1]^[2]

Thyroid hormones (T3 and T4) that regulate basal metabolic rate, influence oxygen consumption by tissues. They are crucial for normal development of the brain and growth of the body.
Secretion of thyroid hormones follows upper control from the hypothalamus and the pituitary. Thyroid releasing hormone (TRH) acts on thyrotropes releasing cells in the pituitary causing them to release thyroid stimulating hormone (TSH).
TSH acts on thyroid gland by binding to specific membrane receptors and activating an intracellular pathway involving cAMP that ends in the formation and secretion of thyroid hormones.
Iodine is essential for the synthesis of thyroid hormones. Iodide is uptaken through a special Na/I transporter found in the membrane of thyroid follicular cell. After the iodide uptake, it goes through a series of organic reactions ending in the formation of the two forms of thyroid hormones: T3 (Triiodothyronine) and T4 (Thyroxine). T3 and T4 remain stored in the thyroglobulin of the follicles and are released in response to further stimulation by TSH to the thyroid follicles.
While T3 is 3 to 5 times more potent than T4, it represents only one-fourth of the total hormone secretion. T3 is thought to be the biologically active form of the hormone. Most of the circulating T3 is due to peripheral conversion of T4 in the liver and peripheral tissues while only a small percentage is secreted directly from the thyroid gland itself.
T3 and T4 act on nuclear receptors (DNA binding proteins) and cause the regulate the transcription of many proteins to regulate the metabolic rate of the body.
The higher regulation of thyroxine secretion follows the negative feedback role, meaning that high levels of T3 and T4 will suppress TRH and TSH secretion and vice versa (Low levels of thyroxine will stimulate TRH and TSH secretion). This is useful in diagnosing the cause of hyperthyroidism.
TSH will be low in primary hyperthyroidism where the gland is the source of the excess hormones. In secondary hyperthyroidism, TSH will be high as the pituitary or the hypothalamus are the sources of the disease.

**Regulation of thyroid hormone secretion.** Source:By CFCF; slightly modified by Geo-Science-International – This file was derived from Thyroid vector.svg:, CC BY-SA 3.0, https://commons.wikimedia.org/w/index.php?curid=47043638

Pathogenesis

Thyroid cells undergo atrophy or transform into a type of follicular cell rich in mitochondria called Hurthle cell. Cellular and humoral immunity is thought to be involved in the pathophysiology of Hashimoto’s thyroiditis:^[3]^[4]

Cellular immunity

Defects in regulatory T cell response to thyroid-specific antigens in autoimmune hypothyroidism resulting in failure of regulatory T cell function.
Regulatory T cells can also dampen the immune response. Regulatory T cells are high in CD25 expression and have altered activity in Hashimoto thyroiditis.
CD4+ cells are less sensitive to the inhibitory effect of TGFβ in Hashimoto thyroiditis.
There is an increased number of follicular helper T cells in patients Hashimoto’s thyroiditis, which correlates with thyroid-specifc antibody levels.

Humoral immunity

Patients with Hashimoto thyroiditis have positive antibodies against thyroglobulin (TG) and thyroid peroxidase (TPO).
Recently, a distinct variant of HT has been documented where the thyroid gland is infiltrated with IgG4-positive cells.
Thyroid hormone receptor antibodies might be involved in the disease presentation as sometimes thyroiditis presents as hyperthyroidism. The balance between the thyroid stimulating antibodies (TSAb) and thyroid blocking antibodies (TBAb) explains the fluctuating hormone levels in patients with Hashimoto’s thyroiditis. It should also be noted that thyroid stimulating antibodies (TSAb) might have a minor blocking action.
The sodium-iodide symporter (NIS) mediates iodine uptake by the thyroid gland, while pendrin is responsible for the efflux of iodine through thyroid follicles. Antibodies against NIS and pendrin are also found in Hashimoto thyroiditis (HT).

Cytokines

Increased plasma level and expressions of IL-17 and IL-22 are seen in HT.

Micro RNA

MicroRNAs (miRNA), which are small noncoding RNA regions, have also been implicated in the pathogenesis of thyroid immunity. In HT tissue, a decreased level of miR-155_2 and an increase in miR-200a1 was found.

Genetics

A family history of thyroid disorders is common, with HLA-B* 46:01 confers an increased risk of HT developing in Han Chinese children. HLA-A* 02:07 and HLA-DRB4 conferred susceptibility. The genes implicated vary in different groups and the incidence is increased in patients with chromosomal disorders, including Down’s syndrome and Turner syndrome.^[3]^[5]

Associated conditions

The following conditions are associated with Hashimoto’s thyroiditis:^[6]

Gross Pathology

On gross pathology the characteristic findings of Hashimoto’s thyroiditis are.^[4]^[7]

The gland is usually diffusely enlarged, firm, and slightly lobular.
The capsule is intact, and the cut surface is light-tan and has a slight lobular pattern.

A gross photograph of thyroid gland taken at autopsy. The gland is only slightly enlarged and has a firm texture.Images courtesy of Professor Peter Anderson DVM Ph.D. and published with permission © PEIR, University of Alabama at Birmingham, Department of Pathology

Microscopic Pathology

On microscopic histopathological analysis, characteristic findings of Hashimoto’s thyroiditis include:^[4]^[7]

Massive infiltration of the thyroid gland by lymphocytes and plasma cells
Germinal centers
Thyroid follicles are usually absent and the few remaining follicles are devoid of colloid
Hurthle cells
- Large polygonal cells with eosinophilic cytoplasm
- Have an abundance of mitochondria

Photomicrograph shows germinal centers; Case courtesy of Dr Andrew Ryan, Radiopaedia.org, rID: 17084	Micrograph of Hurthle cells Courtesy of PathologyOutlines.com; Source:^[8]
This is a low-power photomicrograph of thyroid from this case. Note that the tissue is more cellular than one would expect and there does not appear to be normal colloid-filled blue spaces in this gland.Images courtesy of Professor Peter Anderson DVM Ph.D. and published with permission © PEIR, University of Alabama at Birmingham, Department of Pathology	This is a higher-power photomicrograph of thyroid from this case. Note a large number of blue-staining inflammatory cells in this tissue. These cells appear to be forming germinal centers. Some residual thyroid gland tissue can be seen in this section (arrows).Images courtesy of Professor Peter Anderson DVM Ph.D. and published with permission © PEIR, University of Alabama at Birmingham, Department of Pathology
This is another view of thyroid gland filled with inflammatory cells forming germinal centers (arrows).Images courtesy of Professor Peter Anderson DVM Ph.D. and published with permission © PEIR, University of Alabama at Birmingham, Department of Pathology	This is a higher-power photomicrograph of thyroid from this case showing the inflammatory cells and the residual thyroid tissue.Images courtesy of Professor Peter Anderson DVM Ph.D. and published with permission © PEIR, University of Alabama at Birmingham, Department of Pathology
This is another higher-power photomicrograph of thyroid from this case showing the inflammatory cells and the residual thyroid tissue.Images courtesy of Professor Peter Anderson DVM Ph.D. and published with permission © PEIR, University of Alabama at Birmingham, Department of Pathology	This is a high-power photomicrograph showing the inflammatory cells infiltrating into the residual thyroid tissue (arrows).Images courtesy of Professor Peter Anderson DVM Ph.D. and published with permission © PEIR, University of Alabama at Birmingham, Department of Pathology
This is a high-power photomicrograph showing the lymphocytes and plasma cells surrounding the thyroid gland epithelium.Images courtesy of Professor Peter Anderson DVM Ph.D. and published with permission © PEIR, University of Alabama at Birmingham, Department of Pathology	This high-power photomicrograph shows more clearly the lymphocytes and plasma cells surrounding the thyroid gland epithelium. Large, eosinophilic, degenerating thyroid gland cells (Hurthle cells) can be seen in this section (arrows).Images courtesy of Professor Peter Anderson DVM Ph.D. and published with permission © PEIR, University of Alabama at Birmingham, Department of Pathology

References

↑ De Groot LJ, Chrousos G, Dungan K, Feingold KR, Grossman A, Hershman JM, Koch C, Korbonits M, McLachlan R, New M, Purnell J, Rebar R, Singer F, Vinik A, Rousset B, Dupuy C, Miot F, Dumont J. “Thyroid Hormone Synthesis And Secretion”. PMID 25905405.
↑ Kirsten D (2000). “The thyroid gland: physiology and pathophysiology”. Neonatal Netw. 19 (8): 11–26. doi:10.1891/0730-0832.19.8.11. PMID 11949270.
↑ ^3.0 ^3.1 Ajjan RA, Weetman AP (2015). “The Pathogenesis of Hashimoto’s Thyroiditis: Further Developments in our Understanding”. Horm. Metab. Res. 47 (10): 702–10. doi:10.1055/s-0035-1548832. PMID 26361257.
↑ ^4.0 ^4.1 ^4.2 Caturegli P, De Remigis A, Rose NR (2014). “Hashimoto thyroiditis: clinical and diagnostic criteria”. Autoimmun Rev. 13 (4–5): 391–7. doi:10.1016/j.autrev.2014.01.007. PMID 24434360.
↑ Barbesino G, Chiovato L (2000). “The genetics of Hashimoto’s disease”. Endocrinol. Metab. Clin. North Am. 29 (2): 357–74. PMID 10874534.
↑ “Thyroiditis – American Family Physician”.
↑ ^7.0 ^7.1 “Thyroiditis — NEJM”.
↑ “www.pathologyoutlines.com”.

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Causes

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

Overview

Hashimoto’s thyroiditis may be caused by T cells and B cells auto-activation, genetic factors, and autoimmune antibodies against thyrotropin receptors.

Causes

Hashimoto’s thyroiditis usually caused by:^[1]^[2]

Common Causes

Autoantibodies against thyroid peroxidase and thyroglobulin
Abnormalities in the suppressor T cells and regulatory T cells
HLA-B* 46:01, HLA-A* 02:07 and HLA-DRB4 involvement

Less common cause

Immunomodulatory drugs (e.g, interferon-alpha)
Monoclonal antibodies that block CTLA-4
Cancer vaccines
Micro RNA involvement
Polyglandular Syndrome

For the factors involved in the development of Hashimoto’s thyroiditis, please click here.

References

↑ Ajjan RA, Weetman AP (2015). “The Pathogenesis of Hashimoto’s Thyroiditis: Further Developments in our Understanding”. Horm. Metab. Res. 47 (10): 702–10. doi:10.1055/s-0035-1548832. PMID 26361257.
↑ Caturegli P, De Remigis A, Rose NR (2014). “Hashimoto thyroiditis: clinical and diagnostic criteria”. Autoimmun Rev. 13 (4–5): 391–7. doi:10.1016/j.autrev.2014.01.007. PMID 24434360.

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Differentiating Hashimoto’s thyroiditis from other Diseases

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

Overview

Hashimoto’s thyroiditis must be differentiated from other causes of thyroiditis, such as De Quervain’s thyroiditis, Riedel’s thyroiditis, and suppurative thyroiditis. Hashimoto’s thyroiditis must also be differentiated from other diseases which cause hypothyroidism. As Hashimoto’s thyroiditis may cause transient thyrotoxic symptoms, the diseases causing thyrotoxicosis must also be considered in the differential diagnosis.

Differentiating Hashimoto’s Thyroiditis from other Diseases

Differentiating Hashimoto’s thyroiditis from other causes of thyroiditis

Hashimoto’s thyroiditis must be differentiated from other causes of thyroiditis, such as De Quervain’s thyroiditis, Riedel’s thyroiditis, and suppurative thyroiditis.^[1]

Conditions	Causes	Age at onset	Pathological findings	Diagnostic approach
Hashimoto’s thyroiditis	Autoimmune	All ages, peak at 30-50	Lymphocytic infiltration Germinal centers Fibrosis (in some variants)	Increased TSH (hypothyroidism) TPO antibodies present in high titer I-123 uptake usually decreased
Painful subacute (De Quervain’s) thyroiditis	Unknown	20-60	Giant cells Granulomas	Increased TSH (hypothyroidism) and/or Decreased TSH (Thyrotoxicosis) TPO antibodies absent or very low titer I-123 uptake decreased
Silent thyroiditis	Autoimmune	All ages, peak at 30-40	Lymphocytic infiltration Lymphoid follicles	Increased TSH (hypothyroidism) and/or Decreased TSH (transient hypothyroidism) TPO antibodies present in high titer I-123 uptake usually decreased
Postpartum thyroiditis	Autoimmune	Childbearing age	Lymphocytic infiltration	Increased TSH (hypothyroidism) and/or Decreased TSH (transient hypothyroidism) TPO antibodies present in high titer I-123 uptake usually decreased
Riedel’s thyroiditis	Unknown	30-60	Dense fibrosis	Normal TSH (euthyroidism) TPO antibodies usually present I-123 uptake decreased or normal
Suppurative thyroiditis	Infection	Children, 20-40	Abscess formation	Normal TSH (euthyroidism) TPO antibodies absent I-123 uptake normal

Differentiating Hashimoto’s thyroiditis from other causes of hypothyroidism

Hashimoto’s thyroiditis must be differentiated from other causes of hypothyroidism on the basis of history and symptoms and laboratory findings:^[2]^[3]^[1]^[4]^[5]^[6]

Disease		History and symptoms		Laboratory findings							Additional findings
Disease		Fever	Pain	TSH	Free T4	T3	T3RU†	Thyroglobin	TRH	TPOAb^	Additional findings
Primary hypothyroidism	Autoimmune (Hashimoto’s thyroiditis)	–	–	↑*	↓	Normal/↓	Normal/↓	Normal/↑	Normal	Present (high titer)	May be accompanied by other autoimmune diseases
	Riedel’s thyroiditis	–	–	Normal/↑	Normal/↓	Normal/↓	Normal/↓	Normal	Normal	Usually present	Riedel’s thyroiditis usually presents with hard and fixed thyroid mass.
	Infectious thyroiditis	+	+	Normal	Normal	Normal	Normal	Normal	Normal	Absent	Infectious thyroiditis associated with neck pain
Transient hypothyroidism	Subacute (de Quervain’s) thyroiditis	+/-	+/-	↑/↓	↓/↑	Normal	↓	↑	Normal	Low/absent	May present primarily with hyperthyroidism
	Postpartum thyroiditis	+/-	+/-	↑/↓	↓/↑	Normal	↓	↑	Normal/↑	Present (high titer)	May present primarily with hyperthyroidism
	Silent thyroiditis	–	–	↑/↓	↓/↑	Normal	↓	↑	Normal	Present (high titer)	May present primarily with hyperthyroidism
Others	Drug-induced	–	–	↑/↓	↓/↑	Normal	↓	Normal/↑	Normal	Absent**	History of hyperthyroidism History of trauma History of drug use, surgery, or radiation
	Radiation-induced
	Trauma induced
	Radioiodine induced
	Thyroidectomy
	Subclinical hypothyroidism	–	–	↑	Normal	Normal	Normal	Normal	Normal	Normal/↑	Asymptomatic

(†)T3RU; Triiodothyronine Resin uptake. (^)TPOAb; Thyroid peroxidase antibodies. (*)TSH may be decreased transiently in the thyrotoxicosis. (**)TPOAb may be present in drug-induced hypo/hyperthyroidism such as Interferon-alpha, interleukin-2, and lithium.

Differentiating Hashimoto’s thyroiditis from other causes of thyrotoxicosis

Hashimoto’s thyroiditis can initially present with thyrotoxicosis (hashitoxicosis) which must be differentiated from other causes of thyrotoxicosis.^[2]^[3]^[1]^[4]^[5]^[6]^[7]^[8]^[9]

Disease		History and symptoms		Laboratory findings								Additional findings
Disease		Fever	Pain	TSH	Free T4	T3	T3RU†	Thyroglobin	TRH	TSH Receptor Antibody	TPOAb^	Additional findings
Thyroiditis	Hashimoto’s thyroiditis (Hashitoxicosis)	–	–	↑*	↓	Normal/↓	Normal/↓	Normal/↑	Normal	Absent	Present (high titer)	May be accompanied by other autoimmune diseases
	Subacute (de Quervain’s) thyroiditis	+/-	+/-	↑/↓	↓/↑	Normal	↓	↑	Normal	Absent	Low/absent	May present with hypothyroidism
	Postpartum thyroiditis	+/-	+/-	↑/↓	↓/↑	Normal	↓	↑	Normal/↑	Absent	Present (high titer)	May present with hypothyroidism
	Silent thyroiditis	–	–	↑/↓	↓/↑	Normal	↓	↑	Normal	Absent	Present (high titer)	May present with hypothyroidism
Primary hyperthyroidism	Grave’s disease	–	–	↓	↑	Normal/↑	↑	↑	Normal	Present	Absent	Patient may have opthalmopathy and dermopathy
Primary hyperthyroidism	Toxic thyroid nodule	–	–	↓	↑	Normal/↑	↑(hot nodule)	Normal/↑	Normal	Absent	Absent	–
Secondary hyperthyroidism	Pituitary adenoma	–	–	↑	↑	Normal/↑	↑	Normal/↑	Normal	Absent	Absent	Inappropriately normal or increased TSH
Tertiary hyperthyroidism	Tertiary hyperthyroidism	–	–	↑	↑	↑	↑	Normal/↑	↑	Absent	Absent	Inappropriately normal or increased TSH
Drug induced	Amiodarone type 1	–	–	↓	↑	Normal/↑	↓	Normal/↑	Normal	Absent	Absent	High urinary iodine
Drug induced	Amiodarone type 2	–	–	↓	↑	Normal/↑	Absent/↓	Normal/↑	Normal	Absent	Absent	High urinary iodine
Others	Factitious thyrotoxicosis	–	–	↓	↑	Normal/↑	↓	↓	Normal	Absent	Absent	Decreased thyroglobulin
	Trophoblastic disease	–	–	↓	↑	Normal/↑	↑	–	Normal	Absent	Absent	–
	Struma ovarii	–	–	↓	↑	Normal/↑	↓	–	Normal	Absent	Absent	–

(†)T3RU; Triiodothyronine Resin uptake. (^)TPOAb; Thyroid peroxidase antibodies.

References

↑ ^1.0 ^1.1 ^1.2 “Thyroiditis — NEJM”.
↑ ^2.0 ^2.1 Bindra A, Braunstein GD (2006). “Thyroiditis”. Am Fam Physician. 73 (10): 1769–76. PMID 16734054.
↑ ^3.0 ^3.1 McDermott MT (2009). “In the clinic. Hypothyroidism”. Ann. Intern. Med. 151 (11): ITC61. doi:10.7326/0003-4819-151-11-200912010-01006. PMID 19949140.
↑ ^4.0 ^4.1 Aoki Y, Belin RM, Clickner R, Jeffries R, Phillips L, Mahaffey KR (2007). “Serum TSH and total T4 in the United States population and their association with participant characteristics: National Health and Nutrition Examination Survey (NHANES 1999-2002)”. Thyroid. 17 (12): 1211–23. doi:10.1089/thy.2006.0235. PMID 18177256.
↑ ^5.0 ^5.1 Lania A, Persani L, Beck-Peccoz P (2008). “Central hypothyroidism”. Pituitary. 11 (2): 181–6. doi:10.1007/s11102-008-0122-6. PMID 18415684.
↑ ^6.0 ^6.1 De Groot LJ, Chrousos G, Dungan K, Feingold KR, Grossman A, Hershman JM, Koch C, Korbonits M, McLachlan R, New M, Purnell J, Rebar R, Singer F, Vinik A, Stockigt J. “Clinical Strategies in the Testing of Thyroid Function”. PMID 25905413.
↑ “Clinical Finding and Thyroid Function in Women with Struma Ovarii”.
↑ Vaidya B, Pearce SH (2014). “Diagnosis and management of thyrotoxicosis”. BMJ. 349: g5128. PMID 25146390.
↑ “Think thyrotoxicosis factitia – measure thyroglobulin | The BMJ”.

Template:WH Template:WS

Epidemiology and Demographics

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

Overview

Hashimoto’s thyroiditis is particularly common in middle aged women, Asians, and Whites. Annually, there are around 22 cases per 100,000 individuals worldwide.

Epidemiology and Demographics

Hashimoto’s thyroiditis is more common in middle aged women, Asians, and Whites.^[1]

Prevalence

The prevalence of Hashimoto’s thyroiditis is 800 cases per 100,000 when estimated from a review of published articles and 4600 cases per 100,000 when estimated from the biochemical evidence of hypothyroidism and thyroid autoantibodies.^[1]^[2]

Incidence

The overall incidence of endogenous Hashimoto’s thyroiditis is approximately 22 per 100,000 individuals per year. The incidence varies according to the disease definition and case detection methods. ^[1]^[2]

Age

Hashimoto’s thyroiditis is most prevalent between 45 and 65 years of age.^[1]

Gender

Hashimoto’s thyroiditis is more common in females.^[1]

Race

Hashimoto’s thyroiditis is more common in Whites and Asians than in African-Americans.^[1]

Developed and Developing Countries

Hashimoto’s thyroiditis is believed to be the most common cause of primary hypothyroidism in North America. In European countries, an atrophic form of autoimmune thyroiditis (Ord’s thyroiditis) is more common than Hashimoto’s thyroiditis. It affects between 0.1% and 5% of all adults in Western countries.^[1]

References

↑ ^1.0 ^1.1 ^1.2 ^1.3 ^1.4 ^1.5 ^1.6 Caturegli P, De Remigis A, Rose NR (2014). “Hashimoto thyroiditis: clinical and diagnostic criteria”. Autoimmun Rev. 13 (4–5): 391–7. doi:10.1016/j.autrev.2014.01.007. PMID 24434360.
↑ ^2.0 ^2.1 “THE GENETICS OF HASHIMOTO’S DISEASE – ScienceDirect”.

Template:WH Template:WS

Risk Factors

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

Overview

Common risk factors in the development of Hashimoto’s thyroiditis are family history, female gender, and other autoimmune diseases.

Risk Factors

The risk factors for Hashimoto’s thyroiditis are:^[1]

Common Risk factors

Female gender
Family history
Other autoimmune diseases like vitiligo, rheumatoid arthritis, Addison’s disease, type 1 diabetes and pernicious anemia.

Less common risk factors

Hygienic environment
Selenium deficiency
Irradiation
Drugs (cytokines, especially interferon-α, tyrosine kinase inhibitors, alemtuzumab)
HHV-6 and Yersinia infection (low level of evidence)

References

↑ Ajjan RA, Weetman AP (2015). “The Pathogenesis of Hashimoto’s Thyroiditis: Further Developments in our Understanding”. Horm. Metab. Res. 47 (10): 702–10. doi:10.1055/s-0035-1548832. PMID 26361257.

Template:WH Template:WS

Screening

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

Overview

There is insufficient evidence to recommend routine screening for Hashimoto’s thyroiditis.

Screening

There is insufficient evidence to recommend routine screening for Hashimoto’s thyroiditis.

References

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: Furqan M M. M.B.B.S [2]

Overview

Hashimoto’s thyroiditis usually begins slowly and may progress to hypothyroidism. Complications include heart failure, lymphoma, myxedema, and cervical compression.

Natural History

The disease begins slowly. The patient usually has the neck swelling and presents with symptoms of hypothyroidism such as fatigue, weight gain, constipation, and dry skin. Some patients may also present with hyperthyroidism. It may take months or even years for the condition to be detected. If left untreated, Hashimoto’s thyroiditis may lead to muscle failure including heart failure, other features associated with hypothyroidism and complications such as myxedema Coma and Hashimoto’s encephalopathy.^[1]

Complications

Complications that can develop as a result of Hashimoto’s thyroiditis are:^[1]^[2]^[3]^[4]^[5]

Prognosis

The outcome is usually very good. The disease stays stable for years. If it does slowly progress to thyroid hormone deficiency (hypothyroidism), it can be treated with thyroid replacement therapy.

References

↑ ^1.0 ^1.1 Caturegli P, De Remigis A, Rose NR (2014). “Hashimoto thyroiditis: clinical and diagnostic criteria”. Autoimmun Rev. 13 (4–5): 391–7. doi:10.1016/j.autrev.2014.01.007. PMID 24434360.
↑ Kirshner HS (2014). “Hashimoto’s encephalopathy: a brief review”. Curr Neurol Neurosci Rep. 14 (9): 476. doi:10.1007/s11910-014-0476-2. PMID 25027262.
↑ Lun Y, Wu X, Xia Q, Han Y, Zhang X, Liu Z, Wang F, Duan Z, Xin S, Zhang J (2013). “Hashimoto’s thyroiditis as a risk factor of papillary thyroid cancer may improve cancer prognosis”. Otolaryngol Head Neck Surg. 148 (3): 396–402. doi:10.1177/0194599812472426. PMID 23300224.
↑ Ahmed R, Al-Shaikh S, Akhtar M (2012). “Hashimoto thyroiditis: a century later”. Adv Anat Pathol. 19 (3): 181–6. doi:10.1097/PAP.0b013e3182534868. PMID 22498583.
↑ Chiang B, Cheng S, Seow CJ (2016). “Commonly forgotten complication of Hashimoto’s thyroiditis”. BMJ Case Rep. 2016. doi:10.1136/bcr-2016-217568. PMID 27797845.

Template:WH Template:WS

Diagnosis

Treatment

Medical Therapy | Surgery | Prevention | Cost-Effectiveness of Therapy | Future or Investigational Therapies

Case Studies

Case #1

Template:WikiDoc Sources

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[1] Template:WhoNamedIt

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[pmid19411300-2] Kahaly GJ (2009). “Polyglandular autoimmune syndromes”. Eur. J. Endocrinol. 161 (1): 11–20. doi:10.1530/EJE-09-0044. PMID 19411300.

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[pmid24434360-2] Caturegli P, De Remigis A, Rose NR (2014). “Hashimoto thyroiditis: clinical and diagnostic criteria”. Autoimmun Rev. 13 (4–5): 391–7. doi:10.1016/j.autrev.2014.01.007. PMID 24434360.

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[pmid18177256-4] 4.0 ^4.1 Aoki Y, Belin RM, Clickner R, Jeffries R, Phillips L, Mahaffey KR (2007). “Serum TSH and total T4 in the United States population and their association with participant characteristics: National Health and Nutrition Examination Survey (NHANES 1999-2002)”. Thyroid. 17 (12): 1211–23. doi:10.1089/thy.2006.0235. PMID 18177256.

[pmid18415684-5] 5.0 ^5.1 Lania A, Persani L, Beck-Peccoz P (2008). “Central hypothyroidism”. Pituitary. 11 (2): 181–6. doi:10.1007/s11102-008-0122-6. PMID 18415684.

[pmid25905413-6] 6.0 ^6.1 De Groot LJ, Chrousos G, Dungan K, Feingold KR, Grossman A, Hershman JM, Koch C, Korbonits M, McLachlan R, New M, Purnell J, Rebar R, Singer F, Vinik A, Stockigt J. “Clinical Strategies in the Testing of Thyroid Function”. PMID 25905413.

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[pmid24434360-1] 1.0 ^1.1 ^1.2 ^1.3 ^1.4 ^1.5 ^1.6 Caturegli P, De Remigis A, Rose NR (2014). “Hashimoto thyroiditis: clinical and diagnostic criteria”. Autoimmun Rev. 13 (4–5): 391–7. doi:10.1016/j.autrev.2014.01.007. PMID 24434360.

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[pmid26361257-1] Ajjan RA, Weetman AP (2015). “The Pathogenesis of Hashimoto’s Thyroiditis: Further Developments in our Understanding”. Horm. Metab. Res. 47 (10): 702–10. doi:10.1055/s-0035-1548832. PMID 26361257.

[pmid24434360-1] 1.0 ^1.1 Caturegli P, De Remigis A, Rose NR (2014). “Hashimoto thyroiditis: clinical and diagnostic criteria”. Autoimmun Rev. 13 (4–5): 391–7. doi:10.1016/j.autrev.2014.01.007. PMID 24434360.

[pmid25027262-2] Kirshner HS (2014). “Hashimoto’s encephalopathy: a brief review”. Curr Neurol Neurosci Rep. 14 (9): 476. doi:10.1007/s11910-014-0476-2. PMID 25027262.

[pmid23300224-3] Lun Y, Wu X, Xia Q, Han Y, Zhang X, Liu Z, Wang F, Duan Z, Xin S, Zhang J (2013). “Hashimoto’s thyroiditis as a risk factor of papillary thyroid cancer may improve cancer prognosis”. Otolaryngol Head Neck Surg. 148 (3): 396–402. doi:10.1177/0194599812472426. PMID 23300224.

[pmid22498583-4] Ahmed R, Al-Shaikh S, Akhtar M (2012). “Hashimoto thyroiditis: a century later”. Adv Anat Pathol. 19 (3): 181–6. doi:10.1097/PAP.0b013e3182534868. PMID 22498583.

[pmid27797845-5] Chiang B, Cheng S, Seow CJ (2016). “Commonly forgotten complication of Hashimoto’s thyroiditis”. BMJ Case Rep. 2016. doi:10.1136/bcr-2016-217568. PMID 27797845.

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