Thyrotoxicosis


Article Author:
Carly Blick


Article Editor:
Ishwarlal Jialal


Editors In Chief:
Chaddie Doerr


Managing Editors:
Orawan Chaigasame
Carrie Smith
Abdul Waheed
Frank Smeeks
Kristina Soman-Faulkner
Benjamin Eovaldi
Radia Jamil
Sobhan Daneshfar
Saad Nazir
William Gossman
Pritesh Sheth
Hassam Zulfiqar
Navid Mahabadi
Steve Bhimji
John Shell
Matthew Varacallo
Ahmad Malik
Mark Pellegrini
James Hughes
Beata Beatty
Hajira Basit
Phillip Hynes


Updated:
6/18/2019 2:06:55 AM

Introduction

Thyrotoxicosis is the clinical state associated with excess thyroid hormone activity, usually due to inappropriately high-circulating thyroid hormones[7]. The clinical presentation varies, ranging from asymptomatic or subclinical, to life-threatening thyroid storm. Typical symptoms are due to the hypermetabolic state induced by excess thyroid hormones and include weight loss, heat intolerance, and palpitations. There are many different causes of thyrotoxicosis. It is important to determine the cause since treatment is based on the underlying etiology. Thyrotoxicosis can lead to serious complications when not diagnosed and treated appropriately, including delirium, altered mental status, osteoporosis, muscle weakness, atrial fibrillation, congestive heart failure (CHF), thromboembolic disease, cardiovascular collapse, and death[2]. In this review, we discuss the diagnosis and management of hyperthyroidism.

Etiology

Graves' disease is the most common etiology of thyrotoxicosis, followed by toxic multinodular goiter (TMNG) and toxic adenoma (TA)[7]. Other causes include thyroiditis, subacute thyroiditis, painless thyroiditis, and gestational hyperthyroidism. Drug-induced thyrotoxicosis has been associated with amiodarone and iodinated contrast. Rarer causes of thyrotoxicosis include TSH-producing adenomas, struma ovarii, gestational trophoblastic neoplasia, thyrotoxicosis factitia, activation mutations of the TSH receptor, and functional thyroid cancer metastases[1].

Epidemiology

The prevalence of thyrotoxicosis in the United States is 1.2%, including 0.5% overt thyrotoxicosis and 0.7% subclinical. The incidence of thyrotoxicosis peaks between ages 20 and 50 years. Graves’ disease is the most common cause with an incidence of 20 to 50 cases per 100,000 persons followed by toxic multinodular goiter and toxic adenoma. Graves’ disease most commonly affects women aged 30 to 50 with a male to female ratio of 5 to 1 but can occur at any age in both genders. Toxic nodular goiter increases with age and in iodine-deficient regions. Thyroiditis accounts for 10% of cases. One percent to 2% of patients with thyrotoxicosis go on to develop the serious complication of thyroid storm[[2].

Pathophysiology

Graves’ disease is an autoimmune disease comprised of antibodies that stimulate TSH receptors to cause excess secretion of thyroid hormones. This results in hyperplasia of thyroid follicular cells, causing diffuse goiter. The cause of Graves’ disease is not known, but genetic and environmental factors, such as smoking, stress, and dietary iodine play a role. The thyroid stimulating immunoglobulin (TSI) triggers the hyperthyroidism[7][3].

In TMNG and TA, autonomously functioning nodules over-secrete thyroid hormone. In thyroiditis, thyrotoxicosis is caused by the release of preformed thyroid hormone into the circulation as inflammation destroys thyroid follicles. This causes transient thyrotoxicosis that most often self-resolves. Inflammation can be precipitated by a variety of insults to the thyroid gland, including autoimmune, infectious, chemical, or mechanical insults. Gestational hyperthyroidism generally occurs in the first trimester of pregnancy, due to increased stimulation of the thyroid gland by excess human chorionic gonadotropin (HCG), which is similar in structure to TSH and binds the TSH receptor.[2]

Thyroid hormone affects almost every tissue and organ system in the body by increasing basal metabolic rate and tissue thermogenesis. Thyroid hormone causes increased expression of myocardial sarcoplasmic reticulum calcium-dependent ATP, increasing heart rate and myocardial contractility with the net effect of increased cardiac output. Decreased systemic vascular resistance (SVR) and decreased afterload results from arterial smooth muscle relaxation by metabolic end products, such as lactic acid, produced with increased consumption of oxygen. Decreased SVR leads to activation of the renin-angiotensin system, increasing reabsorption of sodium and expanding blood volume to increase preload. If left untreated, this may lead to left ventricular hypertrophy and congestive heart failure.[[2] [4]

Histopathology

TMNG and TA are benign follicular adenomas.[2]

History and Physical

Patients with thyrotoxicosis most commonly present with weight loss with a normal or increased appetite, heat intolerance with increased sweating, palpitations, tremor, anxiety, proximal muscle weakness, alopecia and increased fatigability. Sinus tachycardia is the most common cardiac rhythm problem, but atrial fibrillation may occur and is more common with advanced patient age, valvular disease, and coronary artery disease. Women may present with amenorrhea or oligomenorrhea. Men may present with gynecomastia rarely. It is common for older patients to manifest fewer of the typical clinical manifestations and instead present with depression, fatigue, and weight loss.

Findings specific to Graves’ disease include ophthalmopathy resulting in proptosis, chemosis, conjunctival injection and lid lag, exposure keratitis and extra-ocular muscle dysfunction, pretibial myxedema and thyroid acropachy (clubbing). In subacute thyroiditis, patients generally present with upper respiratory symptoms followed by fever, neck pain and swelling with a firm thyroid gland. Painless thyroiditis often presents in the postpartum period, and patients frequently have a personal or family history of autoimmune or thyroid disease. Suppurative thyroiditis presents with a tender, erythematous mass in the anterior neck and patients often complain of fever, dysphagia, and dysphonia.

Occasionally, patients may present with acute muscle paralysis and severe hypokalemia, termed thyrotoxic periodic paralysis. In rare cases, patients present in thyroid storm with tachycardia, fever, altered mental status, agitation, features of cardiac failure, and impaired liver function.

On physical exam, patients are often cachectic, hyperthermic, diaphoretic, and anxious appearing. They may have goiter, tachycardia or atrial fibrillation, dyspnea, abdominal tenderness, hyperreflexia, proximal muscle weakness, tremor, and gynecomastia. Patients with Graves' disease present with pretibial myxoedema, thyroid acropachy, and onycholysis.[[2] [2] [5]

Evaluation

Low serum TSH (less than 0.01 mU/L) has high sensitivity and specificity for the diagnosis of thyroid disorders. If TSH is low, elevated serum free thyroxine  (T4) and triiodothyronine (T3) levels can distinguish between overt and subclinical hyperthyroidism. Usually, the increase in T3 precedes the increase in T4. Pituitary-dependent causes of hyperthyroidism may have normal or increased TSH levels and increased T4 and T3 levels with an increase in free-alpha subunit concentrations. Serum levels of antibodies to the TSH receptor diagnose Graves' disease. Levels are 98% sensitive and 99% specific. Thyroid peroxidase antibodies are only present in about 75% of cases of Graves’ disease.

Radioactive iodine uptake studies or thyroid scans may be used to distinguish between causes of thyrotoxicosis besides Graves’ disease. It is recommended in all thyrotoxic patients without the clinical picture of Graves’ disease. In Graves’ disease, radioactive iodine uptake is diffuse, unless the patient also has nodules or fibrosis. In single toxic adenoma, there will be a focal uptake in the adenoma, with suppressed uptake in the surrounding thyroid tissue. Toxic multinodular goiter will show multiple areas of focal increased uptake and suppressed uptake in surrounding tissue. Radioactive iodine uptake will be near zero in patients with painless, postpartum, or subacute thyroiditis, as well as patients with ingestion of thyroid hormone or recent excess iodine exposure.

In subacute thyroiditis, inflammatory markers such as erythrocyte sedimentation rate and C-reactive protein are frequently increased. In pregnancy, either free T3 and T4, or the total T3 and T4 with adjusted reference range 1.5 times the nonpregnant range should be used for diagnosis in addition to serum TSH levels. During the first half of pregnancy, the serum TSH levels may be lower than the nonpregnant reference range, but free T4 values should be normal. In suspected factitious hyperthyroidism, thyroglobulin levels are decreased and radioactive uptake studies due to the suppression by exogenous thyroid hormone ingestion. [[2] [2] [7]

Treatment / Management

The recommended treatment of thyrotoxicosis is dependant on the underlying cause. Beta-blocker therapy, for example, propranolol, is useful to reduce adrenergic features such as sweating, anxiety, and tachycardia. There are 3 mainstays of treatment: thionamide drugs, radioiodine, and thyroid surgery.

Thionamide drugs include propylthiouracil (PTU) and methimazole and reduce the production of thyroid hormone by acting as preferential substrates for thyroid peroxidase. In high doses, PTU also decreases peripheral conversion of T4 to T3.

In the treatment of Graves’ disease, methimazole is used at a dose of 15 mg to 30 mg per day for 4 to 8 weeks, after which most patients become euthyroid. After patients become euthyroid, there are 2 approaches to treatment. First, in the block-replace method, the same dose of thionamide is continued to block thyroid hormone production, and levothyroxine is added to maintain euthyroidism. Alternatively, the thionamide dose may be titrated progressively to allow endogenous synthesis of thyroid hormone, maintaining a euthyroid state.

In Graves’ disease, long-term remission is achieved in about 50% of patients with thionamide drugs. A disadvantage of thionamides is the uncertainty of relapse after treatment is stopped. No advantage has been shown in remission rates with prolonged treatment beyond 18 months. Methimazole has been shown to have better efficacy and has a longer half-life, which allows once-daily dosing. Additionally, there is a higher risk of hepatotoxicity with PTU. Agranulocytosis occurs in 1 in 300 patients treated with thionamides and presents as a sore throat, mouth ulcers and high fever. It is recommended to obtain a differential white blood cell count during febrile illness and pharyngitis in all patients on thionamides. Minor side effects include pruritis, arthralgia, and gastrointestinal upset. 

Radioiodine therapy is the most common therapy used for adults with Graves’ disease in the United States. It can also be used for toxic nodules and TMNGs. Radioactive iodine is given in one oral dose. It is absorbed by the thyroid gland inducing tissue-specific inflammation that leads to thyroid fibrosis and destruction of thyroid tissue over the next several months. Hypothyroidism usually occurs within 6 to 12 months. Most patients go on to require lifelong levothyroxine treatment. There is a small risk of thyrotoxicosis exacerbation in the month after treatment due to the release of the preformed hormone. Patients with large goiters, severe thyrotoxicosis, ischemic heart disease, heart failure or arrhythmia are recommended to use thionamide pretreatment until they are euthyroid before radioiodine therapy. Radioiodine therapy is contraindicated in pregnancy and lactation and relatively contraindicated in active inflammatory Graves’ ophthalmopathy.

Total or partial thyroidectomy is a rapid and effective method of treating thyrotoxicosis. However, it is invasive and expensive, and causes permanent hypothyroidism, requiring levothyroxine treatment. It is recommended that patients be pretreated for euthyroidism before surgery to reduce the risk of worsening thyrotoxicosis and thyroid storm. Complications include hypocalcemia due to hypoparathyroidism, which is usually transient, and vocal cord paresis due to damage to the recurrent laryngeal nerve.

The treatment for thyroiditis differs in that antithyroid drugs are ineffective, since patients usually have low production of new thyroid hormone. It is usually transient, but treatment is aimed at symptom control with beta blockers. In subacute thyroiditis, non-steroidal anti-inflammatory drugs and occasionally systemic glucocorticoids may be used to help with pain and inflammation. Beta blockers are recommended for any elderly patients with symptomatic thyrotoxicosis, and any thyrotoxic patients with resting a heart rate greater than 90 bpm or cardiovascular disease.

Children with thyrotoxicosis may be treated with methimazole, radioiodine therapy or thyroidectomy. Methimazole therapy for 1 to 2 years is the first line therapy for Graves’ disease in children since some children will go into remission. Radioiodine therapy is not recommended for children younger than 5 years old. PTU should also be avoided in children due to the risk of hepatotoxicity.

During pregnancy, it is recommended to treat with thionamide drugs in a titrated dose regimen. Block-replace regimens increase the risk of fetal hypothyroidism and goiter. PTU is recommended during the first trimester of pregnancy. PTU is preferred during the first trimester of pregnancy due to the risk of teratogenicity associated with methimazole, including aplasia cutis and choanal or esophageal atresia. [[2] [2] [7] [6] 


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Thyrotoxicosis - Questions

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Which of the following is often caused by thyrotoxicosis?



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Which of the following is not a feature of thyrotoxicosis?



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What clinical sign is NOT common in uncomplicated thyrotoxicosis or thyroid storm?



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Which of the following is associated with thyrotoxicosis?



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A patient presents with weight loss, anxiety, intolerance to heat, hair loss, fatigue, apathy, and polyuria. What lab abnormality is likely to be found?



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A 17-year-old male presents with weight loss, heat intolerance, hair loss, and polyuria. Which test result is least consistent with this presentation?



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Which of the following medications is most appropriate for the treatment of fibrillation caused by thyrotoxicosis?



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Which of the following is true about thyrotoxicosis?



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A patient presents in labor who had little prenatal care. She states that she has had increased appetite but could not gain weight. She also complains of heat intolerance, fatigue, and anxiety. After delivery, she remains tachycardic with normal blood pressure, has a tremor, goiter, and exophthalmos. For which of the following is the neonate at risk?



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Thyrotoxicosis - References

References

Hyperthyroidism and other causes of thyrotoxicosis: management guidelines of the American Thyroid Association and American Association of Clinical Endocrinologists., Bahn RS,Burch HB,Cooper DS,Garber JR,Greenlee MC,Klein I,Laurberg P,McDougall IR,Montori VM,Rivkees SA,Ross DS,Sosa JA,Stan MN,, Endocrine practice : official journal of the American College of Endocrinology and the American Association of Clinical Endocrinologists, 2011 May-Jun     [PubMed]
Hyperthyroidism and thyrotoxicosis., Devereaux D,Tewelde SZ,, Emergency medicine clinics of North America, 2014 May     [PubMed]
Hyperthyroidism., De Leo S,Lee SY,Braverman LE,, Lancet (London, England), 2016 Aug 27     [PubMed]
Development and Pilot Testing of an Encounter Tool for Shared Decision Making About the Treatment of Graves' Disease., Brito JP,Castaneda-Guarderas A,Gionfriddo MR,Ospina NS,Maraka S,Dean DS,Castro MR,Fatourechi V,Gharib H,Stan MN,Branda ME,Bahn RS,Montori VM,, Thyroid : official journal of the American Thyroid Association, 2015 Nov     [PubMed]
Extrathyroidal manifestations of Graves' disease: a 2014 update., Bartalena L,Fatourechi V,, Journal of endocrinological investigation, 2014 Aug     [PubMed]
Graves' Disease., Smith TJ,Hegedüs L,, The New England journal of medicine, 2017 Jan 12     [PubMed]

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