Hyperthyroidism, Myalgia, Rapidly Progressing Paralysis

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Hyperthyroidism, Myalgia, Rapidly Progressing Paralysis
A 26-year-old Hispanic woman presents to the emergency department with myalgia and weakness. What does further evaluation reveal?

A 26-year-old Hispanic woman presented to the emergency department (ED) with myalgia and weakness. The work-up revealed profound hyperthyroidism, with a TSH < 0.01 mIU/mL (normal, 0.4-4.2 mIU/L), potassium 2.4 mEq/L (normal, 3.7-5.2 mEq/L), hypophosphatemia, and low urinary potassium. There were no prior symptoms, and family history was negative for endocrinopathies. She was admitted and started on methimazole (10 mg bid) for thyroid suppression and given propranolol (10 mg bid) for anticipated hyperadrenergic adverse effects. The remainder of her hospital stay was uneventful, and she was discharged six days after admission. Soon after, an outpatient thyroid scan ordered by her primary care provider confirmed that the patient had Graves disease.

Eight months later, the patient returned to the ED with myalgia and rapidly progressing paralysis from the neck down; she was immediately intubated. Her potassium level was 1.2 mEq/L. An ECG revealed conduction abnormalities consistent with hypokalemia.

THE DIAGNOSIS
Based on the patient’s paralysis, hyperthyroidism, and hypo­kalemia, she was diagnosed with thyrotoxic hypokalemic periodic paralysis (THPP). This rare endocrinopathy causes electrolyte disturbances that can result in paralysis and lethal tachy­arrhythmias.1-6

Patients with THPP typically have a history of myalgia, cramping, and stiffness followed by weakness or paralysis that tends to develop rapidly, most commonly in the late evening or early morning (see Table, below).1-9 Proximal muscles are predominantly affected symmetrically, and the attacks usually resolve over a period of hours to several days. Ocular, bulbar, and respiratory muscles are usually spared, but these can be affected by the hypokalemia.1

Continue for discussion of THPP >>

 

 

DISCUSSION
Traditionally, THPP has been seen primarily in Asia, with an incidence as high as 2%.1-6 The incidence in the United States is lower (0.1%-0.2%), and THPP occurs primarily in Asian, African, Hispanic, and Native American populations.1,4,6

Although thyrotoxicosis is more common in women, THPP has a predilection for men (20:1).­1,3-6 THPP occurs in patients with hyperthyroidism, most commonly from Graves disease,1,6 who are exposed to certain precipitating factors, such as exercise, carbohydrate loading, high-salt diet, excessive alcohol consumption, trauma, cold exposure, infection, menstruation, or emotional stress.1,6 THPP can also occur in people taking medications such as corticosteroids, β2-adrenergic bronchodilators, epinephrine, acetazolamide, insulin, NSAIDs, thyroxine, amiodarone, and tiratricol.1,5,6 THPP is more common in the summer.1

A genetic basis for THPP. A Kir2.6 mutation results in a thyroid hormone-sensitive channelopathy involving the sodium-potassium-adenosine triphosphate (Na+,K+-ATPase) pump, which appears to be responsible for THPP.1-6,8,9 This mutation should not be confused with the pathogenesis of familial periodic paralysis (FPP)—a hereditary disorder resulting in abnormalities in calcium, sodium, and potassium channels on skeletal muscle cells that leads to multiple electrolyte derangements and paralysis identical to that observed in THPP.1

Hypokalemia may be exacerbated by catecholamine-induced potassium shifts.1,4,6 This is from the increased β2-adrenergic stimulation from the concurrent hyperadrenergic state caused by the underlying hyperthyroidism.1,4,6 Hyperinsulinemia from sympathetic stimulation of the insulin-releasing pancreatic beta cells also exacerbates hypo­kalemia.1,4,6

Continue for treatment options >>

 

 

Focus treatment on correcting electrolytes
Initial evaluation of a patient suspected of having THPP should include a complete blood count, TSH measurement, serum and urine electrolyte tests, and an ECG. Further work-up, including ultrasound and scan of the thyroid upon confirmation of thyrotoxicosis and hypokalemia, may be required. Physical examination may reveal thyromegaly. Exophthalmos and other hyperthyroidism symptoms often are absent.1

Diagnosis confirmed? Treat the hypokalemia first. Acute management of THPP centers on electrolyte correction. Total body stores of potassium in patients with THPP are usually normal, so the clinician must use care to avoid excessive potassium administration.1-5 Rebound hyperkalemia can occur in patients who receive > 90 mEq/L of potassium chloride within 24 hours.1

Definitive therapy may include antithyroid medication, radioactive iodine ablation (RIA), and/or thyroidectomy.1-5 All have the common goal of controlling the hyperthyroidism and preventing recurrent paralysis, which occurs in 62.2% of patients within the first three months following diagnosis.3 If antithyroid medications fail, then RIA is the next choice.1 Beta-blockers work by decreasing the Na+,K+-ATPase activity from the underlying hyperadrenergic state.1 Administration of acetazolamide—which is the primary treatment modality for FPP and idiopathic periodic paralysis—can precipitate THPP attacks and is contraindicated.1,5

If medical management is unsuccessful or the patient develops compression symptoms, then thyroidectomy should be considered.3 If the patient chooses thyroidectomy, medical optimization with antithyroid medications is indicated to mitigate the risks of anesthesia. When the thyroidectomy is performed by an experienced thyroid surgeon, the long-term results are excellent.

Case patient. Once this patient’s hypokalemia was corrected, she was successfully extubated. Despite appropriate medical therapy, her hyperthyroidism was poorly controlled. The endocrinologist believed that RIA was suboptimal for three reasons: 1) it might result in incomplete ablation, 2) it required a long treatment period to be effective, and 3) its prolonged course of treatment extended the time interval that the patient would be at risk for recurrent paralysis.

A surgeon was consulted for definitive treatment with thyroidectomy. The patient’s medications were changed to propylthiouracil (150 mg every 8 h) and propranolol (10 mg bid) until a euthyroid state was achieved and she could tolerate a general anesthetic without precipitating a thyroid storm. Two months later, she underwent total thyroidectomy without complication. Her postoperative course was normal.

THE TAKEAWAY
Thyrotoxic hypokalemic periodic paralysis is rare. Patients typically present with myalgia, cramping, and stiffness that progress to paralysis. Prompt electrolyte repletion is paramount for successful outcomes.1-5 Control of hyperthyroidism is the long-term goal.1-5 Definitive therapy can be achieved medically or surgically. Total thyroidectomy is a reasonable treatment option for medically refractory hyperthyroidism or when RIA is contraindicated. Long-term prognosis is excellent.

REFERENCES
1. Lin SH. Thyrotoxic periodic paralysis. Mayo Clin Proc. 2005;80:99-105.
2. Antonello IC, Antonello VS, de Los Santos CA, et al. Thyrotoxic hypokalemic periodic paralysis: a life-threatening syndrome. Eur J Emerg Med. 2009;16:43-44.
3. Lin YC, Wu CW, Chen HC, et al. Surgical treatment for thyrotoxic hypokalemic periodic paralysis: case report. World J Surg Oncol. 2012;10:21.
4. El-Hennawy AS, Nesa M, Mahmood AK. Thyrotoxic hypokalemic periodic paralysis triggered by high carbohydrate diet. Am J Ther. 2007;14: 499-501.
5. Chang CC, Cheng CJ, Sung CC, et al. A 10-year analysis of thyrotoxic periodic paralysis in 135 patients: focus on symptomatology and precipitants. Eur J Endocrinol. 2013;169:529-536.
6. Vijayakumar A, Ashwath G, Thimmappa D. Thyrotoxic periodic paralysis: clinical challenges. J Thyroid Res. 2014;2014:649502.
7.  Ray S, Kundu S, Goswami M, et al. An unusual cause of muscle weakness: a diagnostic challenge for clinicians. BMJ Case Rep. 2012;2012.
8.  Dassau L, Conti LR, Radeke CM, et al. Kir2.6 regulates the surface expression of Kir2.x inward rectifier potassium channels. J Biol Chem. 2011;286:9526-9541.
9.  Ryan DP, da Silva MR, Soong TW, et al. Mutations in potassium channel Kir2.6 cause susceptibility to thyrotoxic hypokalemic periodic paralysis. Cell. 2010;140:88-98.

References

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Brian J. Pottorf, MD, John T. Moore, MD, Harris W. Hollis Jr, MD

Brian J. Pottorf, John T. Moore, and Harris W. Hollis Jr are in the Department of Graduate Medical Education, General Surgery, at Exempla Saint Joseph Hospital in Denver. This article originally appeared in The Journal of Family Practice (2015;
64[1]:40-42).

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Brian J. Pottorf, John T. Moore, and Harris W. Hollis Jr are in the Department of Graduate Medical Education, General Surgery, at Exempla Saint Joseph Hospital in Denver. This article originally appeared in The Journal of Family Practice (2015;
64[1]:40-42).

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Brian J. Pottorf, John T. Moore, and Harris W. Hollis Jr are in the Department of Graduate Medical Education, General Surgery, at Exempla Saint Joseph Hospital in Denver. This article originally appeared in The Journal of Family Practice (2015;
64[1]:40-42).

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A 26-year-old Hispanic woman presents to the emergency department with myalgia and weakness. What does further evaluation reveal?
A 26-year-old Hispanic woman presents to the emergency department with myalgia and weakness. What does further evaluation reveal?

A 26-year-old Hispanic woman presented to the emergency department (ED) with myalgia and weakness. The work-up revealed profound hyperthyroidism, with a TSH < 0.01 mIU/mL (normal, 0.4-4.2 mIU/L), potassium 2.4 mEq/L (normal, 3.7-5.2 mEq/L), hypophosphatemia, and low urinary potassium. There were no prior symptoms, and family history was negative for endocrinopathies. She was admitted and started on methimazole (10 mg bid) for thyroid suppression and given propranolol (10 mg bid) for anticipated hyperadrenergic adverse effects. The remainder of her hospital stay was uneventful, and she was discharged six days after admission. Soon after, an outpatient thyroid scan ordered by her primary care provider confirmed that the patient had Graves disease.

Eight months later, the patient returned to the ED with myalgia and rapidly progressing paralysis from the neck down; she was immediately intubated. Her potassium level was 1.2 mEq/L. An ECG revealed conduction abnormalities consistent with hypokalemia.

THE DIAGNOSIS
Based on the patient’s paralysis, hyperthyroidism, and hypo­kalemia, she was diagnosed with thyrotoxic hypokalemic periodic paralysis (THPP). This rare endocrinopathy causes electrolyte disturbances that can result in paralysis and lethal tachy­arrhythmias.1-6

Patients with THPP typically have a history of myalgia, cramping, and stiffness followed by weakness or paralysis that tends to develop rapidly, most commonly in the late evening or early morning (see Table, below).1-9 Proximal muscles are predominantly affected symmetrically, and the attacks usually resolve over a period of hours to several days. Ocular, bulbar, and respiratory muscles are usually spared, but these can be affected by the hypokalemia.1

Continue for discussion of THPP >>

 

 

DISCUSSION
Traditionally, THPP has been seen primarily in Asia, with an incidence as high as 2%.1-6 The incidence in the United States is lower (0.1%-0.2%), and THPP occurs primarily in Asian, African, Hispanic, and Native American populations.1,4,6

Although thyrotoxicosis is more common in women, THPP has a predilection for men (20:1).­1,3-6 THPP occurs in patients with hyperthyroidism, most commonly from Graves disease,1,6 who are exposed to certain precipitating factors, such as exercise, carbohydrate loading, high-salt diet, excessive alcohol consumption, trauma, cold exposure, infection, menstruation, or emotional stress.1,6 THPP can also occur in people taking medications such as corticosteroids, β2-adrenergic bronchodilators, epinephrine, acetazolamide, insulin, NSAIDs, thyroxine, amiodarone, and tiratricol.1,5,6 THPP is more common in the summer.1

A genetic basis for THPP. A Kir2.6 mutation results in a thyroid hormone-sensitive channelopathy involving the sodium-potassium-adenosine triphosphate (Na+,K+-ATPase) pump, which appears to be responsible for THPP.1-6,8,9 This mutation should not be confused with the pathogenesis of familial periodic paralysis (FPP)—a hereditary disorder resulting in abnormalities in calcium, sodium, and potassium channels on skeletal muscle cells that leads to multiple electrolyte derangements and paralysis identical to that observed in THPP.1

Hypokalemia may be exacerbated by catecholamine-induced potassium shifts.1,4,6 This is from the increased β2-adrenergic stimulation from the concurrent hyperadrenergic state caused by the underlying hyperthyroidism.1,4,6 Hyperinsulinemia from sympathetic stimulation of the insulin-releasing pancreatic beta cells also exacerbates hypo­kalemia.1,4,6

Continue for treatment options >>

 

 

Focus treatment on correcting electrolytes
Initial evaluation of a patient suspected of having THPP should include a complete blood count, TSH measurement, serum and urine electrolyte tests, and an ECG. Further work-up, including ultrasound and scan of the thyroid upon confirmation of thyrotoxicosis and hypokalemia, may be required. Physical examination may reveal thyromegaly. Exophthalmos and other hyperthyroidism symptoms often are absent.1

Diagnosis confirmed? Treat the hypokalemia first. Acute management of THPP centers on electrolyte correction. Total body stores of potassium in patients with THPP are usually normal, so the clinician must use care to avoid excessive potassium administration.1-5 Rebound hyperkalemia can occur in patients who receive > 90 mEq/L of potassium chloride within 24 hours.1

Definitive therapy may include antithyroid medication, radioactive iodine ablation (RIA), and/or thyroidectomy.1-5 All have the common goal of controlling the hyperthyroidism and preventing recurrent paralysis, which occurs in 62.2% of patients within the first three months following diagnosis.3 If antithyroid medications fail, then RIA is the next choice.1 Beta-blockers work by decreasing the Na+,K+-ATPase activity from the underlying hyperadrenergic state.1 Administration of acetazolamide—which is the primary treatment modality for FPP and idiopathic periodic paralysis—can precipitate THPP attacks and is contraindicated.1,5

If medical management is unsuccessful or the patient develops compression symptoms, then thyroidectomy should be considered.3 If the patient chooses thyroidectomy, medical optimization with antithyroid medications is indicated to mitigate the risks of anesthesia. When the thyroidectomy is performed by an experienced thyroid surgeon, the long-term results are excellent.

Case patient. Once this patient’s hypokalemia was corrected, she was successfully extubated. Despite appropriate medical therapy, her hyperthyroidism was poorly controlled. The endocrinologist believed that RIA was suboptimal for three reasons: 1) it might result in incomplete ablation, 2) it required a long treatment period to be effective, and 3) its prolonged course of treatment extended the time interval that the patient would be at risk for recurrent paralysis.

A surgeon was consulted for definitive treatment with thyroidectomy. The patient’s medications were changed to propylthiouracil (150 mg every 8 h) and propranolol (10 mg bid) until a euthyroid state was achieved and she could tolerate a general anesthetic without precipitating a thyroid storm. Two months later, she underwent total thyroidectomy without complication. Her postoperative course was normal.

THE TAKEAWAY
Thyrotoxic hypokalemic periodic paralysis is rare. Patients typically present with myalgia, cramping, and stiffness that progress to paralysis. Prompt electrolyte repletion is paramount for successful outcomes.1-5 Control of hyperthyroidism is the long-term goal.1-5 Definitive therapy can be achieved medically or surgically. Total thyroidectomy is a reasonable treatment option for medically refractory hyperthyroidism or when RIA is contraindicated. Long-term prognosis is excellent.

REFERENCES
1. Lin SH. Thyrotoxic periodic paralysis. Mayo Clin Proc. 2005;80:99-105.
2. Antonello IC, Antonello VS, de Los Santos CA, et al. Thyrotoxic hypokalemic periodic paralysis: a life-threatening syndrome. Eur J Emerg Med. 2009;16:43-44.
3. Lin YC, Wu CW, Chen HC, et al. Surgical treatment for thyrotoxic hypokalemic periodic paralysis: case report. World J Surg Oncol. 2012;10:21.
4. El-Hennawy AS, Nesa M, Mahmood AK. Thyrotoxic hypokalemic periodic paralysis triggered by high carbohydrate diet. Am J Ther. 2007;14: 499-501.
5. Chang CC, Cheng CJ, Sung CC, et al. A 10-year analysis of thyrotoxic periodic paralysis in 135 patients: focus on symptomatology and precipitants. Eur J Endocrinol. 2013;169:529-536.
6. Vijayakumar A, Ashwath G, Thimmappa D. Thyrotoxic periodic paralysis: clinical challenges. J Thyroid Res. 2014;2014:649502.
7.  Ray S, Kundu S, Goswami M, et al. An unusual cause of muscle weakness: a diagnostic challenge for clinicians. BMJ Case Rep. 2012;2012.
8.  Dassau L, Conti LR, Radeke CM, et al. Kir2.6 regulates the surface expression of Kir2.x inward rectifier potassium channels. J Biol Chem. 2011;286:9526-9541.
9.  Ryan DP, da Silva MR, Soong TW, et al. Mutations in potassium channel Kir2.6 cause susceptibility to thyrotoxic hypokalemic periodic paralysis. Cell. 2010;140:88-98.

A 26-year-old Hispanic woman presented to the emergency department (ED) with myalgia and weakness. The work-up revealed profound hyperthyroidism, with a TSH < 0.01 mIU/mL (normal, 0.4-4.2 mIU/L), potassium 2.4 mEq/L (normal, 3.7-5.2 mEq/L), hypophosphatemia, and low urinary potassium. There were no prior symptoms, and family history was negative for endocrinopathies. She was admitted and started on methimazole (10 mg bid) for thyroid suppression and given propranolol (10 mg bid) for anticipated hyperadrenergic adverse effects. The remainder of her hospital stay was uneventful, and she was discharged six days after admission. Soon after, an outpatient thyroid scan ordered by her primary care provider confirmed that the patient had Graves disease.

Eight months later, the patient returned to the ED with myalgia and rapidly progressing paralysis from the neck down; she was immediately intubated. Her potassium level was 1.2 mEq/L. An ECG revealed conduction abnormalities consistent with hypokalemia.

THE DIAGNOSIS
Based on the patient’s paralysis, hyperthyroidism, and hypo­kalemia, she was diagnosed with thyrotoxic hypokalemic periodic paralysis (THPP). This rare endocrinopathy causes electrolyte disturbances that can result in paralysis and lethal tachy­arrhythmias.1-6

Patients with THPP typically have a history of myalgia, cramping, and stiffness followed by weakness or paralysis that tends to develop rapidly, most commonly in the late evening or early morning (see Table, below).1-9 Proximal muscles are predominantly affected symmetrically, and the attacks usually resolve over a period of hours to several days. Ocular, bulbar, and respiratory muscles are usually spared, but these can be affected by the hypokalemia.1

Continue for discussion of THPP >>

 

 

DISCUSSION
Traditionally, THPP has been seen primarily in Asia, with an incidence as high as 2%.1-6 The incidence in the United States is lower (0.1%-0.2%), and THPP occurs primarily in Asian, African, Hispanic, and Native American populations.1,4,6

Although thyrotoxicosis is more common in women, THPP has a predilection for men (20:1).­1,3-6 THPP occurs in patients with hyperthyroidism, most commonly from Graves disease,1,6 who are exposed to certain precipitating factors, such as exercise, carbohydrate loading, high-salt diet, excessive alcohol consumption, trauma, cold exposure, infection, menstruation, or emotional stress.1,6 THPP can also occur in people taking medications such as corticosteroids, β2-adrenergic bronchodilators, epinephrine, acetazolamide, insulin, NSAIDs, thyroxine, amiodarone, and tiratricol.1,5,6 THPP is more common in the summer.1

A genetic basis for THPP. A Kir2.6 mutation results in a thyroid hormone-sensitive channelopathy involving the sodium-potassium-adenosine triphosphate (Na+,K+-ATPase) pump, which appears to be responsible for THPP.1-6,8,9 This mutation should not be confused with the pathogenesis of familial periodic paralysis (FPP)—a hereditary disorder resulting in abnormalities in calcium, sodium, and potassium channels on skeletal muscle cells that leads to multiple electrolyte derangements and paralysis identical to that observed in THPP.1

Hypokalemia may be exacerbated by catecholamine-induced potassium shifts.1,4,6 This is from the increased β2-adrenergic stimulation from the concurrent hyperadrenergic state caused by the underlying hyperthyroidism.1,4,6 Hyperinsulinemia from sympathetic stimulation of the insulin-releasing pancreatic beta cells also exacerbates hypo­kalemia.1,4,6

Continue for treatment options >>

 

 

Focus treatment on correcting electrolytes
Initial evaluation of a patient suspected of having THPP should include a complete blood count, TSH measurement, serum and urine electrolyte tests, and an ECG. Further work-up, including ultrasound and scan of the thyroid upon confirmation of thyrotoxicosis and hypokalemia, may be required. Physical examination may reveal thyromegaly. Exophthalmos and other hyperthyroidism symptoms often are absent.1

Diagnosis confirmed? Treat the hypokalemia first. Acute management of THPP centers on electrolyte correction. Total body stores of potassium in patients with THPP are usually normal, so the clinician must use care to avoid excessive potassium administration.1-5 Rebound hyperkalemia can occur in patients who receive > 90 mEq/L of potassium chloride within 24 hours.1

Definitive therapy may include antithyroid medication, radioactive iodine ablation (RIA), and/or thyroidectomy.1-5 All have the common goal of controlling the hyperthyroidism and preventing recurrent paralysis, which occurs in 62.2% of patients within the first three months following diagnosis.3 If antithyroid medications fail, then RIA is the next choice.1 Beta-blockers work by decreasing the Na+,K+-ATPase activity from the underlying hyperadrenergic state.1 Administration of acetazolamide—which is the primary treatment modality for FPP and idiopathic periodic paralysis—can precipitate THPP attacks and is contraindicated.1,5

If medical management is unsuccessful or the patient develops compression symptoms, then thyroidectomy should be considered.3 If the patient chooses thyroidectomy, medical optimization with antithyroid medications is indicated to mitigate the risks of anesthesia. When the thyroidectomy is performed by an experienced thyroid surgeon, the long-term results are excellent.

Case patient. Once this patient’s hypokalemia was corrected, she was successfully extubated. Despite appropriate medical therapy, her hyperthyroidism was poorly controlled. The endocrinologist believed that RIA was suboptimal for three reasons: 1) it might result in incomplete ablation, 2) it required a long treatment period to be effective, and 3) its prolonged course of treatment extended the time interval that the patient would be at risk for recurrent paralysis.

A surgeon was consulted for definitive treatment with thyroidectomy. The patient’s medications were changed to propylthiouracil (150 mg every 8 h) and propranolol (10 mg bid) until a euthyroid state was achieved and she could tolerate a general anesthetic without precipitating a thyroid storm. Two months later, she underwent total thyroidectomy without complication. Her postoperative course was normal.

THE TAKEAWAY
Thyrotoxic hypokalemic periodic paralysis is rare. Patients typically present with myalgia, cramping, and stiffness that progress to paralysis. Prompt electrolyte repletion is paramount for successful outcomes.1-5 Control of hyperthyroidism is the long-term goal.1-5 Definitive therapy can be achieved medically or surgically. Total thyroidectomy is a reasonable treatment option for medically refractory hyperthyroidism or when RIA is contraindicated. Long-term prognosis is excellent.

REFERENCES
1. Lin SH. Thyrotoxic periodic paralysis. Mayo Clin Proc. 2005;80:99-105.
2. Antonello IC, Antonello VS, de Los Santos CA, et al. Thyrotoxic hypokalemic periodic paralysis: a life-threatening syndrome. Eur J Emerg Med. 2009;16:43-44.
3. Lin YC, Wu CW, Chen HC, et al. Surgical treatment for thyrotoxic hypokalemic periodic paralysis: case report. World J Surg Oncol. 2012;10:21.
4. El-Hennawy AS, Nesa M, Mahmood AK. Thyrotoxic hypokalemic periodic paralysis triggered by high carbohydrate diet. Am J Ther. 2007;14: 499-501.
5. Chang CC, Cheng CJ, Sung CC, et al. A 10-year analysis of thyrotoxic periodic paralysis in 135 patients: focus on symptomatology and precipitants. Eur J Endocrinol. 2013;169:529-536.
6. Vijayakumar A, Ashwath G, Thimmappa D. Thyrotoxic periodic paralysis: clinical challenges. J Thyroid Res. 2014;2014:649502.
7.  Ray S, Kundu S, Goswami M, et al. An unusual cause of muscle weakness: a diagnostic challenge for clinicians. BMJ Case Rep. 2012;2012.
8.  Dassau L, Conti LR, Radeke CM, et al. Kir2.6 regulates the surface expression of Kir2.x inward rectifier potassium channels. J Biol Chem. 2011;286:9526-9541.
9.  Ryan DP, da Silva MR, Soong TW, et al. Mutations in potassium channel Kir2.6 cause susceptibility to thyrotoxic hypokalemic periodic paralysis. Cell. 2010;140:88-98.

References

References

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Hyperthyroidism • myalgia • rapidly progressing paralysis • Dx?

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Hyperthyroidism • myalgia • rapidly progressing paralysis • Dx?

THE CASE

A 26-year-old Hispanic woman presented to the emergency department (ED) with myalgia and weakness. The work-up revealed profound hyperthyroidism, with a thyroid-stimulating hormone (TSH) <0.01 mIU/mL (normal, 0.4-4.2 mIU/L), potassium 2.4 mEq/L (normal, 3.7-5.2 mEq/L), hypophosphatemia, and low urinary potassium. There were no prior symptoms and family history was negative for endocrinopathies. She was admitted and started on methimazole 10 mg twice a day for thyroid suppression and given propranolol 10 mg twice a day for anticipated hyperadrenergic adverse effects. The remainder of her hospital stay was uneventful and she was discharged 6 days after admission. Soon after, an outpatient thyroid scan ordered by her primary care physician confirmed that the patient had Graves’ disease.

Eight months later, the patient returned to the ED with myalgia and rapidly progressing paralysis from the neck down; she was immediately intubated. Her potassium level was 1.2 mEq/L. An electrocardiogram (EKG) revealed conduction abnormalities consistent with hypokalemia.

THE DIAGNOSIS

Based on our patient’s paralysis, hyperthyroidism, and hypokalemia, we diagnosed thyrotoxic hypokalemic periodic paralysis (THPP), a rare endocrinopathy that causes electrolyte disturbances that can result in paralysis and lethal tachyarrhythmias.1-6

Patients with THPP typically have a history of myalgia, cramping, and stiffness followed by weakness or paralysis that tends to develop rapidly, most commonly in the late evening or early morning1-4,6,7 (TABLE1-9). Proximal muscles are predominantly affected symmetrically and the attacks usually resolve in a period of hours to several days. Ocular, bulbar, and respiratory muscles are usually spared, but these can be affected by the hypokalemia.1

DISCUSSION

Traditionally THPP has been seen primarily in Asia, with an incidence as high as 2%.1-6 The incidence in the United States is lower (0.1%-0.2%) and THPP occurs primarily in Asian, African, Hispanic, and Native American populations.1,4,6

Although thyrotoxicosis is more common in women, THPP has a predilection for men (20:1).1,3-6 THPP occurs in patients with hyperthyroidism, most commonly from Graves’ disease,1,6 who are exposed to certain precipitating factors, such as exercise, carbohydrate loading, high-salt diet, excessive alcohol consumption, trauma, cold exposure, infection, menstruation, or emotional stress.1,6 THPP can also occur in people taking medications such as corticosteroids, β2-adrenergic bronchodilators, epinephrine, acetazolamide, insulin, nonsteroidal anti-inflammatory drugs, thyroxine, amiodarone, and tiratricol.1,5,6 THPP is more common in the summer.1

A genetic basis for THPP. A Kir2.6 mutation results in a thyroid hormone-sensitive channelopathy involving the sodium-potassium-adenosine triphosphate (Na+,K+-ATPase) pump, which appears to be responsible for THPP.1-6,8,9 This mutation should not be confused with the pathogenesis of familial periodic paralysis (FPP)—a hereditary disorder resulting in abnormalities in calcium, sodium, and potassium channels on skeletal muscle cells that leads to multiple electrolyte derangements and paralysis identical to that observed in THPP.1

Hypokalemia may be exacerbated by catecholamine-induced potassium shifts.1,4,6 This is from the increased β2-adrenergic stimulation from the concurrent hyperadrenergic state caused by the underlying hyperthyroidism.1,4,6 Hyperinsulinemia from sympathetic stimulation of the insulin-releasing pancreatic beta cells also exacerbates hypokalemia.1,4,6

Focus treatment on correcting electrolytes

Acute management of THPP centers on electrolyte correction; definitive treatments include antithyroid medication, radioactive iodine ablation, and/or thyroidectomy. Initial evaluation of a patient suspected of having THPP should include a complete blood count, TSH and serum and urine electrolyte tests, and an EKG. Further work-up may require ultrasound and scan of the thyroid upon confirmation of thyrotoxicosis and hypokalemia. Physical examination may reveal thyromegaly. Exophthalmos and other hyperthyroidism symptoms often are absent.1

Diagnosis confirmed? Treat the hypokalemia first. Acute management of THPP centers on electrolyte correction. Total body stores of potassium in patients with THPP  are usually normal, so the physician must use care to avoid excessive potassium administration.1-5 Rebound hyperkalemia can occur in patients who receive >90 mEq/L of potassium chloride within 24 hours.1

Definitive therapy may include antithyroid medication, radioactive iodine ablation (RIA), and/or thyroidectomy.1-5 All have the common goal of controlling the hyperthyroidism and preventing recurrent paralysis, which occurs in 62.2% of patients within the first 3 months following diagnosis.3 If antithyroid medications fail, then RIA is the next choice.1 Beta-blockers work by decreasing the Na+,K+-ATPase activity from the underlying hyperadrenergic state.1 Administration of acetazolamide—which is the primary treatment modality for FPP and idiopathic periodic paralysis—can precipitate THPP attacks and is contraindicated.1,5

Consider thyroidectomy for patients for whom medical management is unsuccessful or who develop compression symptoms. If medical management is unsuccessful or the patient develops compression symptoms, then thyroidectomy should be considered.3 If the patient chooses thyroidectomy, medical optimization with antithyroid medications is indicated to mitigate the risks of anesthesia. When the thyroidectomy is performed by an experienced thyroid surgeon, the long-term results are excellent.

 

 

Our patient. Once our patient’s hypokalemia was corrected, she was successfully extubated. Despite appropriate medical therapy, her hyperthyroidism was poorly controlled. The endocrinologist believed that RIA was suboptimal for 3 reasons: 1) it might result in incomplete ablation, 2) it required a long treatment period to be effective, and 3) its prolonged course of treatment extended the time interval that the patient would be at risk for recurrent paralysis.

A surgeon was consulted for definitive treatment with thyroidectomy. Our patient’s medications were changed to propylthiouracil 150 mg every 8 hours and propranolol 10 mg twice a day until a euthyroid state was achieved and she could tolerate a general anesthetic without precipitating a thyroid storm. Two months later, she underwent total thyroidectomy without complication. Her postoperative course was normal.

THE TAKEAWAY

Thyrotoxic hypokalemic periodic paralysis is rare. Patients typically present with myalgia, cramping, and stiffness that progress to paralysis. Prompt electrolyte repletion is paramount for successful outcomes.1-5 Control of hyperthyroidism is the long-term goal.1-5 Definitive therapy can be achieved medically or surgically. Total thyroidectomy is a reasonable treatment option for medically refractory hyperthyroidism or when RIA is contraindicated. Long-term prognosis is excellent.

References

 

1. Lin SH. Thyrotoxic periodic paralysis. Mayo Clin Proc. 2005;80:99-105.

2. Antonello IC, Antonello VS, de Los Santos CA, et al. Thyrotoxic hypokalemic periodic paralysis: a life-threatening syndrome. Eur J Emerg Med. 2009;16:43-44.

3. Lin YC, Wu CW, Chen HC, et al. Surgical treatment for thyrotoxic hypokalemic periodic paralysis: case report. World J Surg Oncol. 2012;10:21.

4. El-Hennawy AS, Nesa M, Mahmood AK. Thyrotoxic hypokalemic periodic paralysis triggered by high carbohydrate diet. Am J Ther. 2007;14:499-501.

5. Chang CC, Cheng CJ, Sung CC, et al. A 10-year analysis of thyrotoxic periodic paralysis in 135 patients: focus on symptomatology and precipitants. Eur J Endocrinol. 2013;169:529-536.

6. Vijayakumar A, Ashwath G, Thimmappa D. Thyrotoxic periodic paralysis: clinical challenges. J Thyroid Res. 2014;2014:649502.

7. Ray S, Kundu S, Goswami M, et al. An unusual cause of muscle weakness: a diagnostic challenge for clinicians. BMJ Case Rep. 2012;2012.

8. Dassau L, Conti LR, Radeke CM, et al. Kir2.6 regulates the surface expression of Kir2.x inward rectifier potassium channels. J Biol Chem. 2011;286:9526-9541.

9. Ryan DP, da Silva MR, Soong TW, et al. Mutations in potassium channel Kir2.6 cause susceptibility to thyrotoxic hypokalemic periodic paralysis. Cell. 2010;140:88-98.

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Brian J. Pottorf, MD
John T. Moore, MD
Harris W. Hollis Jr, MD

Exempla Saint Joseph Hospital, Department of Graduate Medical Education, General Surgery, Denver, Colo
brian.pottorf@gmail.com

The authors reported no potential conflict of interest relevant to this article.

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John T. Moore, MD
Harris W. Hollis Jr, MD

Exempla Saint Joseph Hospital, Department of Graduate Medical Education, General Surgery, Denver, Colo
brian.pottorf@gmail.com

The authors reported no potential conflict of interest relevant to this article.

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Brian J. Pottorf, MD
John T. Moore, MD
Harris W. Hollis Jr, MD

Exempla Saint Joseph Hospital, Department of Graduate Medical Education, General Surgery, Denver, Colo
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The authors reported no potential conflict of interest relevant to this article.

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THE CASE

A 26-year-old Hispanic woman presented to the emergency department (ED) with myalgia and weakness. The work-up revealed profound hyperthyroidism, with a thyroid-stimulating hormone (TSH) <0.01 mIU/mL (normal, 0.4-4.2 mIU/L), potassium 2.4 mEq/L (normal, 3.7-5.2 mEq/L), hypophosphatemia, and low urinary potassium. There were no prior symptoms and family history was negative for endocrinopathies. She was admitted and started on methimazole 10 mg twice a day for thyroid suppression and given propranolol 10 mg twice a day for anticipated hyperadrenergic adverse effects. The remainder of her hospital stay was uneventful and she was discharged 6 days after admission. Soon after, an outpatient thyroid scan ordered by her primary care physician confirmed that the patient had Graves’ disease.

Eight months later, the patient returned to the ED with myalgia and rapidly progressing paralysis from the neck down; she was immediately intubated. Her potassium level was 1.2 mEq/L. An electrocardiogram (EKG) revealed conduction abnormalities consistent with hypokalemia.

THE DIAGNOSIS

Based on our patient’s paralysis, hyperthyroidism, and hypokalemia, we diagnosed thyrotoxic hypokalemic periodic paralysis (THPP), a rare endocrinopathy that causes electrolyte disturbances that can result in paralysis and lethal tachyarrhythmias.1-6

Patients with THPP typically have a history of myalgia, cramping, and stiffness followed by weakness or paralysis that tends to develop rapidly, most commonly in the late evening or early morning1-4,6,7 (TABLE1-9). Proximal muscles are predominantly affected symmetrically and the attacks usually resolve in a period of hours to several days. Ocular, bulbar, and respiratory muscles are usually spared, but these can be affected by the hypokalemia.1

DISCUSSION

Traditionally THPP has been seen primarily in Asia, with an incidence as high as 2%.1-6 The incidence in the United States is lower (0.1%-0.2%) and THPP occurs primarily in Asian, African, Hispanic, and Native American populations.1,4,6

Although thyrotoxicosis is more common in women, THPP has a predilection for men (20:1).1,3-6 THPP occurs in patients with hyperthyroidism, most commonly from Graves’ disease,1,6 who are exposed to certain precipitating factors, such as exercise, carbohydrate loading, high-salt diet, excessive alcohol consumption, trauma, cold exposure, infection, menstruation, or emotional stress.1,6 THPP can also occur in people taking medications such as corticosteroids, β2-adrenergic bronchodilators, epinephrine, acetazolamide, insulin, nonsteroidal anti-inflammatory drugs, thyroxine, amiodarone, and tiratricol.1,5,6 THPP is more common in the summer.1

A genetic basis for THPP. A Kir2.6 mutation results in a thyroid hormone-sensitive channelopathy involving the sodium-potassium-adenosine triphosphate (Na+,K+-ATPase) pump, which appears to be responsible for THPP.1-6,8,9 This mutation should not be confused with the pathogenesis of familial periodic paralysis (FPP)—a hereditary disorder resulting in abnormalities in calcium, sodium, and potassium channels on skeletal muscle cells that leads to multiple electrolyte derangements and paralysis identical to that observed in THPP.1

Hypokalemia may be exacerbated by catecholamine-induced potassium shifts.1,4,6 This is from the increased β2-adrenergic stimulation from the concurrent hyperadrenergic state caused by the underlying hyperthyroidism.1,4,6 Hyperinsulinemia from sympathetic stimulation of the insulin-releasing pancreatic beta cells also exacerbates hypokalemia.1,4,6

Focus treatment on correcting electrolytes

Acute management of THPP centers on electrolyte correction; definitive treatments include antithyroid medication, radioactive iodine ablation, and/or thyroidectomy. Initial evaluation of a patient suspected of having THPP should include a complete blood count, TSH and serum and urine electrolyte tests, and an EKG. Further work-up may require ultrasound and scan of the thyroid upon confirmation of thyrotoxicosis and hypokalemia. Physical examination may reveal thyromegaly. Exophthalmos and other hyperthyroidism symptoms often are absent.1

Diagnosis confirmed? Treat the hypokalemia first. Acute management of THPP centers on electrolyte correction. Total body stores of potassium in patients with THPP  are usually normal, so the physician must use care to avoid excessive potassium administration.1-5 Rebound hyperkalemia can occur in patients who receive >90 mEq/L of potassium chloride within 24 hours.1

Definitive therapy may include antithyroid medication, radioactive iodine ablation (RIA), and/or thyroidectomy.1-5 All have the common goal of controlling the hyperthyroidism and preventing recurrent paralysis, which occurs in 62.2% of patients within the first 3 months following diagnosis.3 If antithyroid medications fail, then RIA is the next choice.1 Beta-blockers work by decreasing the Na+,K+-ATPase activity from the underlying hyperadrenergic state.1 Administration of acetazolamide—which is the primary treatment modality for FPP and idiopathic periodic paralysis—can precipitate THPP attacks and is contraindicated.1,5

Consider thyroidectomy for patients for whom medical management is unsuccessful or who develop compression symptoms. If medical management is unsuccessful or the patient develops compression symptoms, then thyroidectomy should be considered.3 If the patient chooses thyroidectomy, medical optimization with antithyroid medications is indicated to mitigate the risks of anesthesia. When the thyroidectomy is performed by an experienced thyroid surgeon, the long-term results are excellent.

 

 

Our patient. Once our patient’s hypokalemia was corrected, she was successfully extubated. Despite appropriate medical therapy, her hyperthyroidism was poorly controlled. The endocrinologist believed that RIA was suboptimal for 3 reasons: 1) it might result in incomplete ablation, 2) it required a long treatment period to be effective, and 3) its prolonged course of treatment extended the time interval that the patient would be at risk for recurrent paralysis.

A surgeon was consulted for definitive treatment with thyroidectomy. Our patient’s medications were changed to propylthiouracil 150 mg every 8 hours and propranolol 10 mg twice a day until a euthyroid state was achieved and she could tolerate a general anesthetic without precipitating a thyroid storm. Two months later, she underwent total thyroidectomy without complication. Her postoperative course was normal.

THE TAKEAWAY

Thyrotoxic hypokalemic periodic paralysis is rare. Patients typically present with myalgia, cramping, and stiffness that progress to paralysis. Prompt electrolyte repletion is paramount for successful outcomes.1-5 Control of hyperthyroidism is the long-term goal.1-5 Definitive therapy can be achieved medically or surgically. Total thyroidectomy is a reasonable treatment option for medically refractory hyperthyroidism or when RIA is contraindicated. Long-term prognosis is excellent.

THE CASE

A 26-year-old Hispanic woman presented to the emergency department (ED) with myalgia and weakness. The work-up revealed profound hyperthyroidism, with a thyroid-stimulating hormone (TSH) <0.01 mIU/mL (normal, 0.4-4.2 mIU/L), potassium 2.4 mEq/L (normal, 3.7-5.2 mEq/L), hypophosphatemia, and low urinary potassium. There were no prior symptoms and family history was negative for endocrinopathies. She was admitted and started on methimazole 10 mg twice a day for thyroid suppression and given propranolol 10 mg twice a day for anticipated hyperadrenergic adverse effects. The remainder of her hospital stay was uneventful and she was discharged 6 days after admission. Soon after, an outpatient thyroid scan ordered by her primary care physician confirmed that the patient had Graves’ disease.

Eight months later, the patient returned to the ED with myalgia and rapidly progressing paralysis from the neck down; she was immediately intubated. Her potassium level was 1.2 mEq/L. An electrocardiogram (EKG) revealed conduction abnormalities consistent with hypokalemia.

THE DIAGNOSIS

Based on our patient’s paralysis, hyperthyroidism, and hypokalemia, we diagnosed thyrotoxic hypokalemic periodic paralysis (THPP), a rare endocrinopathy that causes electrolyte disturbances that can result in paralysis and lethal tachyarrhythmias.1-6

Patients with THPP typically have a history of myalgia, cramping, and stiffness followed by weakness or paralysis that tends to develop rapidly, most commonly in the late evening or early morning1-4,6,7 (TABLE1-9). Proximal muscles are predominantly affected symmetrically and the attacks usually resolve in a period of hours to several days. Ocular, bulbar, and respiratory muscles are usually spared, but these can be affected by the hypokalemia.1

DISCUSSION

Traditionally THPP has been seen primarily in Asia, with an incidence as high as 2%.1-6 The incidence in the United States is lower (0.1%-0.2%) and THPP occurs primarily in Asian, African, Hispanic, and Native American populations.1,4,6

Although thyrotoxicosis is more common in women, THPP has a predilection for men (20:1).1,3-6 THPP occurs in patients with hyperthyroidism, most commonly from Graves’ disease,1,6 who are exposed to certain precipitating factors, such as exercise, carbohydrate loading, high-salt diet, excessive alcohol consumption, trauma, cold exposure, infection, menstruation, or emotional stress.1,6 THPP can also occur in people taking medications such as corticosteroids, β2-adrenergic bronchodilators, epinephrine, acetazolamide, insulin, nonsteroidal anti-inflammatory drugs, thyroxine, amiodarone, and tiratricol.1,5,6 THPP is more common in the summer.1

A genetic basis for THPP. A Kir2.6 mutation results in a thyroid hormone-sensitive channelopathy involving the sodium-potassium-adenosine triphosphate (Na+,K+-ATPase) pump, which appears to be responsible for THPP.1-6,8,9 This mutation should not be confused with the pathogenesis of familial periodic paralysis (FPP)—a hereditary disorder resulting in abnormalities in calcium, sodium, and potassium channels on skeletal muscle cells that leads to multiple electrolyte derangements and paralysis identical to that observed in THPP.1

Hypokalemia may be exacerbated by catecholamine-induced potassium shifts.1,4,6 This is from the increased β2-adrenergic stimulation from the concurrent hyperadrenergic state caused by the underlying hyperthyroidism.1,4,6 Hyperinsulinemia from sympathetic stimulation of the insulin-releasing pancreatic beta cells also exacerbates hypokalemia.1,4,6

Focus treatment on correcting electrolytes

Acute management of THPP centers on electrolyte correction; definitive treatments include antithyroid medication, radioactive iodine ablation, and/or thyroidectomy. Initial evaluation of a patient suspected of having THPP should include a complete blood count, TSH and serum and urine electrolyte tests, and an EKG. Further work-up may require ultrasound and scan of the thyroid upon confirmation of thyrotoxicosis and hypokalemia. Physical examination may reveal thyromegaly. Exophthalmos and other hyperthyroidism symptoms often are absent.1

Diagnosis confirmed? Treat the hypokalemia first. Acute management of THPP centers on electrolyte correction. Total body stores of potassium in patients with THPP  are usually normal, so the physician must use care to avoid excessive potassium administration.1-5 Rebound hyperkalemia can occur in patients who receive >90 mEq/L of potassium chloride within 24 hours.1

Definitive therapy may include antithyroid medication, radioactive iodine ablation (RIA), and/or thyroidectomy.1-5 All have the common goal of controlling the hyperthyroidism and preventing recurrent paralysis, which occurs in 62.2% of patients within the first 3 months following diagnosis.3 If antithyroid medications fail, then RIA is the next choice.1 Beta-blockers work by decreasing the Na+,K+-ATPase activity from the underlying hyperadrenergic state.1 Administration of acetazolamide—which is the primary treatment modality for FPP and idiopathic periodic paralysis—can precipitate THPP attacks and is contraindicated.1,5

Consider thyroidectomy for patients for whom medical management is unsuccessful or who develop compression symptoms. If medical management is unsuccessful or the patient develops compression symptoms, then thyroidectomy should be considered.3 If the patient chooses thyroidectomy, medical optimization with antithyroid medications is indicated to mitigate the risks of anesthesia. When the thyroidectomy is performed by an experienced thyroid surgeon, the long-term results are excellent.

 

 

Our patient. Once our patient’s hypokalemia was corrected, she was successfully extubated. Despite appropriate medical therapy, her hyperthyroidism was poorly controlled. The endocrinologist believed that RIA was suboptimal for 3 reasons: 1) it might result in incomplete ablation, 2) it required a long treatment period to be effective, and 3) its prolonged course of treatment extended the time interval that the patient would be at risk for recurrent paralysis.

A surgeon was consulted for definitive treatment with thyroidectomy. Our patient’s medications were changed to propylthiouracil 150 mg every 8 hours and propranolol 10 mg twice a day until a euthyroid state was achieved and she could tolerate a general anesthetic without precipitating a thyroid storm. Two months later, she underwent total thyroidectomy without complication. Her postoperative course was normal.

THE TAKEAWAY

Thyrotoxic hypokalemic periodic paralysis is rare. Patients typically present with myalgia, cramping, and stiffness that progress to paralysis. Prompt electrolyte repletion is paramount for successful outcomes.1-5 Control of hyperthyroidism is the long-term goal.1-5 Definitive therapy can be achieved medically or surgically. Total thyroidectomy is a reasonable treatment option for medically refractory hyperthyroidism or when RIA is contraindicated. Long-term prognosis is excellent.

References

 

1. Lin SH. Thyrotoxic periodic paralysis. Mayo Clin Proc. 2005;80:99-105.

2. Antonello IC, Antonello VS, de Los Santos CA, et al. Thyrotoxic hypokalemic periodic paralysis: a life-threatening syndrome. Eur J Emerg Med. 2009;16:43-44.

3. Lin YC, Wu CW, Chen HC, et al. Surgical treatment for thyrotoxic hypokalemic periodic paralysis: case report. World J Surg Oncol. 2012;10:21.

4. El-Hennawy AS, Nesa M, Mahmood AK. Thyrotoxic hypokalemic periodic paralysis triggered by high carbohydrate diet. Am J Ther. 2007;14:499-501.

5. Chang CC, Cheng CJ, Sung CC, et al. A 10-year analysis of thyrotoxic periodic paralysis in 135 patients: focus on symptomatology and precipitants. Eur J Endocrinol. 2013;169:529-536.

6. Vijayakumar A, Ashwath G, Thimmappa D. Thyrotoxic periodic paralysis: clinical challenges. J Thyroid Res. 2014;2014:649502.

7. Ray S, Kundu S, Goswami M, et al. An unusual cause of muscle weakness: a diagnostic challenge for clinicians. BMJ Case Rep. 2012;2012.

8. Dassau L, Conti LR, Radeke CM, et al. Kir2.6 regulates the surface expression of Kir2.x inward rectifier potassium channels. J Biol Chem. 2011;286:9526-9541.

9. Ryan DP, da Silva MR, Soong TW, et al. Mutations in potassium channel Kir2.6 cause susceptibility to thyrotoxic hypokalemic periodic paralysis. Cell. 2010;140:88-98.

References

 

1. Lin SH. Thyrotoxic periodic paralysis. Mayo Clin Proc. 2005;80:99-105.

2. Antonello IC, Antonello VS, de Los Santos CA, et al. Thyrotoxic hypokalemic periodic paralysis: a life-threatening syndrome. Eur J Emerg Med. 2009;16:43-44.

3. Lin YC, Wu CW, Chen HC, et al. Surgical treatment for thyrotoxic hypokalemic periodic paralysis: case report. World J Surg Oncol. 2012;10:21.

4. El-Hennawy AS, Nesa M, Mahmood AK. Thyrotoxic hypokalemic periodic paralysis triggered by high carbohydrate diet. Am J Ther. 2007;14:499-501.

5. Chang CC, Cheng CJ, Sung CC, et al. A 10-year analysis of thyrotoxic periodic paralysis in 135 patients: focus on symptomatology and precipitants. Eur J Endocrinol. 2013;169:529-536.

6. Vijayakumar A, Ashwath G, Thimmappa D. Thyrotoxic periodic paralysis: clinical challenges. J Thyroid Res. 2014;2014:649502.

7. Ray S, Kundu S, Goswami M, et al. An unusual cause of muscle weakness: a diagnostic challenge for clinicians. BMJ Case Rep. 2012;2012.

8. Dassau L, Conti LR, Radeke CM, et al. Kir2.6 regulates the surface expression of Kir2.x inward rectifier potassium channels. J Biol Chem. 2011;286:9526-9541.

9. Ryan DP, da Silva MR, Soong TW, et al. Mutations in potassium channel Kir2.6 cause susceptibility to thyrotoxic hypokalemic periodic paralysis. Cell. 2010;140:88-98.

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