Potassium Iodide

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Potassium Iodide (KI) affects the production of thyroid hormone and is useful in treating conditions related to thyroid hormone, especially severe cases of thyrotoxicosis. Also, KI is a salt that can protect the thyroid in cases of high radiation exposure. KI is considered a thyroid blocking agent in the case of a nuclear emergency by the American Thyroid Association. This activity reviews the indications, interaction, adverse effects, and other pharmacodynamic and pharmacokinetic factors of KI and highlights the role of the interprofessional team in improving care for patients receiving potassium iodide for conditions where it has an indicated therapeutic value.

Objectives:

  • Identify the mechanism of action of potassium iodide.
  • Describe the potential adverse effects of potassium iodide.
  • Review the appropriate monitoring for patients receiving potassium iodide.
  • Outline interprofessional team strategies for improving care coordination and communication to advance potassium iodide and improve outcomes.

Indications

Potassium iodide (KI) is a medication and dietary supplement. As a dietary supplement, it has utility in patients with low iodine intake, a more frequent occurrence in developing countries. As a prescribed medication, it is used to treat severe hyperthyroidism, cutaneous inflammatory dermatoses, nuclear emergencies, and protect the thyroid gland when using radiopharmaceuticals.

In severe hyperthyroidism or refractory hyperthyroidism, patients receive KI for short-term use in the following situations[1][2][3][4][5]:

  • In the preoperative preparation for thyroidectomy in Graves disease.
  • Thyroid storm because iodine blocks the release of T4 and T3 from the gland within hours.
  • As adjunctive therapy for Graves disease, used in combined treatment with antithyroid drugs and KI improves the short-term control of Graves hyperthyroidism. Furthermore, it is helpful after administering radioiodine in Graves disease, especially in patients who wish to avoid taking or who are allergic to thionamides.

Concerning emergency radiation, the U.S. Nuclear Regulatory Commission (NRC) and the American Thyroid Association (ATA) require states to consider including KI as a protective measure. Its utilization is necessary when within a 10-mile radius of a nuclear, along with adequate prevention methods such as evacuation, sheltering, and avoiding contaminated foods in the event of a nuclear accident. Furthermore, they state that KI must be available to state and local governments.[6] The guidance titled "Potassium Iodide as a Thyroid Blocking Agent in Radiation Emergencies" from the Food Drug Administration (FDA) of the United States prioritizes age, which is the primary factor determining risk for radioiodine-induced thyroid cancer after radiation exposure. Those at the highest risk are infants, children, and pregnant and nursing females. The recommendation is to treat this population at the lowest threshold of the predicted radioactive dose to the thyroid.  Any person over 18 years old and up to 40 years old should receive treatment at a slightly higher limit.  Lastly, anyone over 40 years old should have KI treatment only if the predicted exposure level is high enough to destroy the thyroid, inducing lifelong hypothyroidism. KI works best if used within 3 to 4 hours of exposure. In the event of a nuclear accident, KI pills, taken once daily, decrease thyroid uptake of radioactive iodine. It almost protects the thyroid completely if administered within 12 hours before radioactive iodine exposure; after exposure, the degree of protection declines (80, 40, and 7 percent after 2, 8, and 24 hours, respectively).[7]

Regarding patients with dermatoses, the two best indications in this group are neutrophilic dermatoses and panniculitis. Especially for lymphocutaneous and cutaneous sporotrichosis, itraconazole is the drug of choice for the treatment. However, patients who don't respond to itraconazole at 200 mg/day can receive KI together with other antimycotics as an alternative.[8] It is also successfully used for other inflammatory dermatoses. For instance, erythema nodosum, subacute nodular migratory panniculitis, nodular vasculitis, erythema multiforme, and Sweet syndrome.[9]

Mechanism of Action

KI has several mechanisms of action on thyroid function. In euthyroid patients, iodine has two effects at two different times. The most rapid (hours to days) effect, at pharmacologic doses of KI, decreases thyroglobulin proteolysis, thereby decreasing thyroid hormone secretion. The resulting slight reductions of T4 and T3 concentrations in serum cause transient increases of thyrotropin (TSH) concentrations in serum.[10] Secondly, KI inhibits thyroid hormone synthesis. The administration of KI leads to temporary inhibition of iodine organification in the thyroid gland, thereby decreasing thyroid hormone biosynthesis, a phenomenon called the Wolff-Chaikoff effect. However, within two to four weeks of continual exposure to excess iodine, organification, and thyroid hormone, biosynthesis resumes normally, called escape from the Wolff-Chaikoff effect.[11][12] This phenomenon is produced by lower iodide uptake during the escape from the acute Wolff–Chaikoff effect. It results from a decrease in Na+/I– symporter (NIS) expression, except in abnormal autoregulation of the iodine in autoimmune thyroid disease.[13] The iodine organification persists and can result in or exacerbate hypothyroidism in patients with Hashimoto thyroiditis or ameliorate hyperthyroidism in Graves disease. Thus, patients with Graves hyperthyroidism are more sensitive than normal subjects to the inhibitory effect of pharmacologic doses of iodine, making iodine treatment effective in some patients. Also, pharmacologic amounts of iodine may acutely ameliorate hyperthyroidism by blocking thyroid hormone release.[4] Furthermore, it is used in preparation for thyroidectomy because it decreases the vascularity of the thyroid gland. Therefore, this decreases the risk of post-thyroidectomy hemorrhaging.[1][2] KI should be administered at least one hour after administering thioamides to prevent new hormone synthesis since the new iodine substrate.

In the event of a nuclear accident, taken once daily, KI can decrease the mortality and morbidity of thyroid cancers provoked by radioactive iodine exposure because it directly blocks the radioiodine uptake in the thyroid gland. KI floods the thyroid with non-radioactive iodine, preventing the uptake of the radioactive molecules and subsequently excreted in the urine.[14]

The precise mechanism by which KI acts against inflammatory dermatoses is unknown. The dermatoses treatable with KI usually display neutrophils in the early stages. Research demonstrates that iodine and dapsone can suppress the production of toxic oxygen intermediates by polymorphonuclear cells and thus exert its anti-inflammatory effect.[15] The precise mechanism by which KI kills fungi is also unknown. It is unclear whether KI works against fungi by a fungicidal mechanism or enhancing the body's immunologic and nonimmunologic defense mechanisms. However, it is possible to assume that it has an important anti-inflammatory role since the patients that show better response also present systemic symptoms and increased C-reactive protein. It usually improves fast, with fever, pain, and erythema reduction in two days and complete remission in up to two weeks.[9]

Administration

The dose of KI used to treat dermatoses is much higher than that in thyrotoxicosis (250 mg 3 times daily) or in radiation (100 to 150 mg single dose). Clinicians typically begin treating inflammatory dermatoses with an oral dosage of 300 mg (approximately six drops of supersaturated potassium iodide (SSKI)) 3 times daily, followed by weekly increases as tolerated. In the case of mycoses, the administration is often higher, beginning at 600 mg (approximately 12 drops of SSKI) orally three times each day and often increased to 6 g (about 127 drops of SSKI) daily if tolerated.

Most presentations are given orally, usually with juice or milk, to protect against gastrointestinal irritation. However, there are some exceptions. Several FDA-approved KI products exist, including tablets (65 and 130 mg) and oral solutions (65 mg/mL).

Additionally, there exist another two liquid presentations prescribed orally:

  • SSKI with 35 to 50 mg of iodine per drop and KI with about 24 mg per drop. It is usually administrated orally and mixed with juice or milk due to the bitter taste, especially in infants. 
  • Potassium iodide-iodine (Lugol solution [5 to 8 mg of iodine per drop]) is usually given orally with the recommended dosage of 3 to 5 drops three times daily. Although iodine is typically well-tolerated, reports exist of local esophageal or duodenal mucosal injury and hemorrhage, particularly in the treatment of thyroid storm.[16][17] Lugol solution can be added directly to intravenous fluids for patients unable to take oral medication because it is sterile.[18] An alternative is to give the iodine solution per rectum.[19]

Adverse Effects

Adverse effects are unlikely when KI is used at low doses and for a short time (less than two weeks). The most common side effects are on the digestive system, predominantly gastrointestinal intolerance and its bitter (metallic) taste; thus, the recommendation is to take it with juice or milk to protect against gastrointestinal irritation.[9] However, significant side effects may occur when high doses are administered, especially for treating infectious skin disorders.

The acute side effects include diarrhea, nausea, vomiting, and stomach pain that can be ameliorated with gastrointestinal protection and by avoiding rapid dosage increases. Nevertheless, prolonged use can cause Iodism or potassium toxicity. Iodism is an iodide poisoning syndrome characterized by soreness of the teeth and gums, severe headache, conjunctival hyperemia, lacrimation, blurred vision, rhinorrhea, and sialorrhea.  Concurrent use of KI with impaired renal function or other potassium-containing medications, potassium-sparing diuretics, and angiotensin-converting enzyme inhibitors (ACE inhibitors) may result in hyperkalemia.[8][9]

Because the patients receive large amounts of iodine in the drug, it could affect the metabolism of the thyroid gland. It can produce a Wolff-Chaikoff effect and produce hypothyroidism. However, there are autoregulation mechanisms that help maintain the normal function of the gland in euthyroid patients. The imbalance of thyroid hormones occurs when autoregulation is defective or absent. If it is just defective, the resulting Wolff-Chaikoff effect is inevitable, TSH increases, and hypothyroidism and goiter ensue. Failure to escape this condition, with resulting hypothyroidism, can result from the administration of KI in patients with Hashimoto's thyroiditis, euthyroid patients previously treated by thyroid surgery or radioactive iodine for Graves' disease, patients taking certain drugs that inhibit thyroid function (e.g., lithium, phenazone, and, possibly, sulfonamides), patients previously treated with interferon alfa for chronic viral hepatitis,[20] and patients with a history of amiodarone-induced thyrotoxicosis, subacute thyroiditis, or Graves disease. When autoregulation is absent, Jod-Basedow disease occurs. The absence of autoregulation is typically only seen in areas where iodine deficiency with long-standing goiters occurs. This alteration produces an excess of thyroid hormone resulting in thyrotoxicosis.[9]

Allergic reactions such as angioedema and urticaria should be considered during the administration of KI, like any drug. KI use can also cause an uncommon lesion in the skin called Ioderma, which is characterized by severe acneiform, vesicular pustular, hemorrhagic, or urticarial lesions. Other systemic side effects of SSKI include urticaria, fever, eosinophilia, jaundice, pruritus, angioedema, and bronchospasm. In this case, the treatment is high-dose corticosteroid therapy.[21]

Contraindications

KI is contraindicated in patients who have thyroid disease or are using any drug that could alter thyroid function.[22] Contraindications also include patients with an allergy to iodine. Clinicians should avoid giving it to patients with chronic renal failure because of the presence of potassium. Furthermore, it should be avoided in patients using potassium-sparing diuretics or angiotensin-converting-enzyme inhibitors to prevent hyperkalemia.[23] Immunocompromised patients such as patients with cancer, cirrhosis, AIDS, autoimmune diseases, or poorly managed diabetics, transplant patients, and those using corticosteroids should not use KI as it affects the immune system.[23] It should not be indicated in pregnant or nursing women because it causes neonatal hypothyroidism, thyromegaly, fetal airway obstruction, and prolonged labor. Also, it is a pregnancy category D drug.[9]

Monitoring

For all who prescribe KI, previous knowledge of the Wolff-Chaikoff effect, of the patients’ potassium levels, and their renal function is imperative. Recommendations include inquiring about any history of thyroid disease, autoimmune disease, or drugs that the patient is using. Unless there is a suspicion of thyroid disease, the baseline thyroid function test is not indicated. If KI use is for more than one month, it is recommended to do a screening test of TSH to ensure that the patients are not in hypothyroidism. If iodide-induced hypothyroidism is detected, these changes are reversible by discontinuing the administration of KI.[9] Furthermore, according to the FDA's guidance, thyroid function should be monitored in pregnant or breastfeeding women, neonates, and young infants if repeat doses are necessary following radioactive iodine exposure. The FDA strongly recommends monitoring neonates and infants for potential hypothyroidism, particularly when:

  • Nursing mothers who receive greater than one dose of KI
  • Infants under one month of age receiving any KI
  • Neonates who receive more than one dose of KI
  • Neonates or infants whose at-risk mothers do not switch from breast milk to formula or other foods 

Toxicity

If iodide-induced hypothyroidism is detected, these changes are reversible by discontinuing the administration of KI. A study of 7 patients with iodide-induced hypothyroidism showed serum T4, T3, and TSH concentrations returned to normal within one month of iodide withdrawal.[22]

Drug-induced hyperkalemia is a medical urgency of which the physician should be aware. Prompt management is necessary with immediate (under 3 minutes) treatment: ECG monitoring is advisable. Changes suggest a potassium level greater than 7 mmol/L. Therefore, calcium gluconate administration is the recommended intervention in that case. Within minutes (under 30 minutes), the treatment combines insulin-dextrose and beta-2 receptor agonists. Within hours (subacute), the management is sodium bicarbonate if the patient has acidosis, loop diuretics, and/or dialysis in patients with advanced Stage 5 kidney disease (eGFR less than 15 mL/min/1.73 m^2) or patients with very high potassium values (i.e., greater than 6.0 mmol/L).[24]

In the case of iodism or ioderma, it is treatable with withdrawal and high doses of corticosteroids.[21]

Enhancing Healthcare Team Outcomes

Therapy with KI requires the efforts of an interprofessional healthcare team. Clinicians, nurses, and pharmacists in many parts of the world continue to use KI drug because of its effectiveness, and low cost or they can use it as a second-line drug when the first-line agent fails, is contraindicated, or cause intolerable side effects or severe allergic reaction to other medications. It is imperative to know the side effect of KI, particularly when treating dermatoses for extended periods, which requires monitoring the patient to prevent adverse effects, especially those related to thyroid disease. Furthermore, it is imperative to know the implication that this drug has as protection following exposure to radiation since clinicians have a brief window in which to apply it to patients and prevent thyroid cancer. Additionally, it is the public health authority’s responsibility to be aware of the capacity to store and administrate KI on time in the case of a nuclear emergency. Interprofessional coordination and teamwork will result in more effective therapeutic results. [Level 5]

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Author

Jeronimo F. Torti

Editor:

Ricardo Correa

Updated:

5/1/2023 7:27:28 PM

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References

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