Successful Treatment of Thyroid Storm with Plasmapheresis in a Patient with Methimazole-Induced Agranulocytosis

ObjectiveTo report a case of a patient with Graves disease presenting with agranulocytosis induced by methimazole, with subsequent thyroid storm and successful therapeutic use of plasmapheresis.MethodsThe clinical features and laboratory findings in a patient with agranulocytosis and thyroid storm are presented, and the available literature on utilization of plasmapheresis in the setting of thyrotoxicosis is reviewed.ResultsA 40-year-old Vietnamese woman with Graves disease was admitted with methimazole-induced agranulocytosis. Treatment with methimazole was discontinued, and therapy with antibiotics, granulocyte colonystimulating factor, and ibuprofen was initiated. During hospitalization of the patient, her clinical status deteriorated, with development of pericarditis, thrombocytopenia, and thyroid storm. Treatment with plasmapheresis yielded near-euthyroidism in 3 days. Subsequently, she underwent successful total thyroidectomy.ConclusionOur case highlights the effectiveness of plasmapheresis when clinical situations prohibit the use of traditional treatment methods for thyrotoxicosis or thyroid storm (or both). (Endocr Pract. 2010;16:673-676)     

Thionamide-induced Agranulocytosis: A Retrospective Analysis of 36 Patients With Hyperthyroidism

ObjectiveAgranulocytosis is a rare but serious adverse drug reaction (ADR) of thionamide antithyroid drugs (ATDs). We explored the characteristics of ADRs in patients with hyperthyroidism.MethodsThis retrospective study included 3558 inpatients with Graves disease treated in a Class A Grade 3 hospital between 2015 and 2019. The clinical presentation and laboratory workup of patients with antithyroid drug (ATD)-induced agranulocytosis was analyzed.ResultsAgranulocytosis was thought to be caused by ATDs in 36 patients. The hospital length of stay was 12 (10-16) days, and hospitalization costs were approximately $2810.89 ($2156.50-$4164.67). The median duration of ATD therapy prior to agranulocytosis development was 30 (20-40) days. Fever (83.33%) and sore throat (75%) were the most common symptoms as early signs of agranulocytosis. The lowest neutrophil counts were 0.01 (0.00-0.03) × 10⁹/L and 0.14 (0.02-0.29) × 10⁹/L in the methimazole and propylthiouracil groups, respectively (P = .037). The recovery times of agranulocytosis were 9.32 ± 2.89 days and 5.60 ± 4.10 days in the methimazole and propylthiouracil groups, respectively (P = .016). Patients with severe agranulocytosis required a longer time to recover (P < .001) and had closer to normal serum thyroxine and triiodothyronine levels. The interval between the first symptom of agranulocytosis and ATD withdrawal was 1 (0-3) day.ConclusionsPatients with agranulocytosis needed a long hospital length of stay and incurred high costs. Methimazole was prone to causing a more serious agranulocytosis than propylthiouracil. High thyroid hormone was unlikely to play a role in adverse drug reactions. Patient education is important.     

Unusual Clinical Course of Graves’ Thyrotoxicosis and Concomitant Sarcoidosis: Case Report and Review of Literature

ObjectiveTo report a case of Graves’ disease with concomitant sarcoidosis involving the thyroid gland.MethodsWe present the clinical, laboratory, imaging, and pathologic findings and describe the clinical course of a patient with Graves’ disease and sarcoidosis, who was unresponsive to propylthiouracil and radioiodine treatment.ResultsA 23-year-old woman presented with thyrotoxicosis and a large goiter. Laboratory studies and findings on thyroid uptake and scan were consistent with Graves’ disease. She was also found to have hilar lymph-adenopathy and hepatosplenomegaly. Despite treatment with antithyroid drugs and radioiodine therapy, her hyperthyroidism persisted. Surgical resection of the thyroid gland and 2 lymph nodes disclosed noncaseating granulomas, consistent with sarcoid.ConclusionAutoimmune endocrinopathies and, less commonly, thyroid autoimmune disease have been reported in patients with sarcoidosis. Similarities exist in the pathogenesis of these two conditions. Concomitant sarcoidosis in the thyroid gland in patients with Graves’ disease may contribute to the resistance to antithyroid drugs and radioiodine therapy. (Endocr Pract. 2007;13:159-163)     

Disease Presentation and Remission Rate in Graves Disease Treated With Antithyroid Drugs: is Gender Really A Factor?

Objective: Male gender is considered an adverse prognostic factor for remission of Graves disease treatment with antithyroid drugs (ATDs), although published data are conflicting. This often results in early consideration of radioiodine treatment and surgery for men. Our objective was to compare disease presentation and outcome in men versus women treated with ATDs.Methods: Retrospective study of 235 patients (64 men, 171 women) with Graves disease who were evaluated for features at presentation and outcome at the end of follow-up between 2010 and 2015.Results: Disease presentation was similar in men and women for age at diagnosis (41.4 ± 14 years vs. 40 ± 15 years), duration of follow-up (6.6 ± 7 years vs. 7.7 ± 6 years), rates of comorbid autoimmune diseases, and rate of Graves ophthalmopathy. Smoking was more prevalent in males (31% vs. 15%; P = .009). Free thyroxine and triiodothyronine levels were comparable. ATDs were first-line treatment in all males and in 168 of 171 females, for a median duration of 24 and 20 months, respectively (P = .55). Remission rates were 47% in men and 58% in women (P = .14). Males had fewer adverse events (9% vs. 18%) and treatment discontinuation (5% vs. 16%). Disease recurrence was comparable (14% vs. 20%; P = .32), as was requirement for second-line treatment, either radioiodine therapy or thyroidectomy.Conclusion: Graves disease presentation is similar in men and women. Men treated with ATDs have high remission rates and similar recurrence rates compared to women, with fewer adverse events and less discontinuation of treatment. ATDs are an attractive first-line treatment for both genders.Abbreviations: ATA = American Thyroid Association; ATD = antithyroid drug; GO = Graves ophthalmopathy; T3 = triiodothyronine; T4 = thyroxine; TSH = thyroid-stimulating hormone     

Side Effects of PTU and MMI in the Treatment of Hyperthyroidism: A Systematic Review and Meta-Analysis

Objective: The present study aimed to investigate the adverse effects of the antithyroid drugs propylthiouracil (PTU) and methimazole (MMI)/carbimazole (CMZ) in treating hyperthyroidism.Methods: Qualitative analysis was performed for studies identified in a literature search up to April 20, 2019, and 30 studies were selected for meta-analysis. The study designs included case-control, randomized controlled, and retrospective cohort. Patients were in four age groups: childhood, gestating mothers, older adults, and other ages, and all were receiving PTU or MMI/CMZ. Adverse reactions to MMI/CMZ and PTU were evaluated and compared.Results: Odds of liver function injury were higher in the PTU group than in the MMI/CMZ group (odds ratio &lsqb;OR], 2.40; 95% confidence interval &lsqb;CI], 1.16 to 4.96; P = .02). Odds of elevated transaminase were much higher in the PTU group than in the MMI/CMZ group (OR, 3.96; 95% CI, 2.49 to 6.28; P<.00001). No significant between-group differences were found in odds of elevated bilirubin, agranulocytosis, rash, or urticaria; incidence of other adverse events; or in children. Odds of birth defects during the first trimester of pregnancy were higher in the MMI/CMZ group than in the PTU group (OR, 1.29; 95% CI, 1.09 to 1.53; P = .003).Conclusion: The impact of PTU on liver injury and transaminase levels is greater than that of MMI/CMZ, but no significant between-group differences are found in the drugs' effects on bilirubin, agranulocytosis and rash, urticaria, or in children. In treating pregnancy-related hyperthyroidism, PTU should be used in the first trimester and MMI reserved for use in late pregnancy.Abbreviations: ALT = alanine aminotransferase; ATD = antithyroid drug; CI = confidence interval; CMZ = carbimazole; GD = Graves disease; MMI = methimazole; MTU = methylthiouracil; NOS = Newcastle-Ottawa Scale; OR = odds ratio; PTU = propylthiouracil; RAI = radioactive iodine     

A 2017 Survey of the Clinical Practice Patterns in the Management of Relapsing Graves Disease

Objective: Previous surveys from different world regions have demonstrated variations in the clinical management of Graves disease (GD). We aimed to investigate the clinical approach to GD relapse among endocrinologists.Methods: Electronic questionnaires were e-mailed to all members of the Israeli Endocrine Society. Questionnaires included demographic data and different scenarios regarding treatment and follow-up of patients with GD relapse.Results: The response rate was 49.4% (98/198). For a young male with GD relapse, 68% would restart antithyroid drug (ATD) (98% methimazole), while 32% would refer to radioactive iodine (RAI) treatment. Endocrinologists who treat >10 thyroid patients a week tended to choose ATDs over RAI (P = .04). In the case of GD relapse with ophthalmopathy, 50% would continue ATDs, whereas 22.4% would recommend RAI treatment and 27.6% surgery. Most endocrinologists (56%) would continue ATDs for 12 to 24 months. Seventy-five percent would monitor complete blood count and liver function (39% for the first month and 36% for 6 months), and 44% would recommend a routine neck ultrasound. In a case of thyrotoxicosis due to a 3-cm hot nodule, most endocrinologists (70%) would refer to RAI ablation, 46.4% without and 23.7% with a previous fine-needle aspiration. No significant differences were found regarding gender, year of board certification, or work environment.Conclusion: Our survey demonstrates diverging patterns in the diagnosis and management of GD relapse that correlate well with previous surveys from other countries on GD-naïve patients and a less than optimal adherence to recently published clinical guidelines.Abbreviations: ATA = American Thyroid Association; ATD = antithyroid drug; CBC = complete blood count; GD = Graves disease; GO = Graves ophthalmopathy; LFT = liver function test; MMI = methimazole; PTU = propylthiouracil; RAI = radioactive iodine; TSI = thyroid-stimulating immunoglobulin     

Desensitization to Methimazole

ObjectiveThionamides (methimazole and propylthiouracil) have been associated with common side effects, such as rash and pruritus, and rare but serious adverse effects, such as agranulocytosis and hepatotoxicity. Methimazole is usually the preferred thionamide for the treatment of hyperthyroidism if the patient is not planning to conceive or not in the first trimester of pregnancy, given the less frequent dosing and lower risk of hepatotoxicity. In patients who experience rash or itching when treated with methimazole, switching them to propylthiouracil is one treatment option. Here we report our experience regarding desensitization to methimazole to allow continued treatment with methimazole as an alternative management option.MethodsWe conducted a retrospective chart review of patients at a single institution who had side effects to methimazole and who were desensitized to methimazole under the supervision of an allergist. A total of 7 patients were included who experienced side effects to methimazole that did not include agranulocytosis or hepatotoxicity.ResultsAll 7 patients were able to take methimazole for treatment of their hyperthyroidism, either for continued medical therapy or as a bridge to definitive therapy, with either surgery or radioactive iodine treatment.ConclusionUnder the supervision of an allergist, desensitization to methimazole is an option for treating patients who experience side effects to methimazole (excluding agranulocytosis and hepatotoxicity).     

Graves Hyperthyroidism and Pregnancy: A Clinical Update

ObjectiveTo provide a clinical update on Graves’ hyperthyroidism and pregnancy with a focus on treatment with antithyroid drugs.MethodsWe searched the English-language literature for studies published between 1929 and 2009 related to management of hyperthyroidism in pregnancy. In this review, we discuss differential diagnosis of hyperthyroidism, management, importance of early diagnosis, and importance of achieving proper control to avoid maternal and fetal complications.ResultsDiagnosing hyperthyroidism during pregnancy can be challenging because many of the signs and symptoms are similar to normal physiologic changes that occur in pregnancy. Patients with Graves disease require prompt treatment with antithyroid drugs and should undergo frequent monitoring for signs of fetal and maternal hyperthyroidism and hypothyroidism. Rates of maternal and perinatal complications are directly related to control of hyperthyroidism in the mother. Thyroid receptor antibodies should be assessed in all women with hyperthyroidism to help predict and reduce the risk of fetal or neonatal hyperthyroidism or hypothyroidism. The maternal thyroxine level should be kept in the upper third of the reference range or just above normal, using the lowest possible antithyroid drug dosage. Hyperthyroidism may recurin the postpartum period as Graves disease or postpartum thyroiditis; thus, it is prudent to evaluate thyroid function 6 weeks after delivery. Preconception counseling, a multidisciplinary approach to care, and patient education regarding potential maternal and fetal complications that can occur with different types of treatment are important.ConclusionPreconception counseling and a multifaceted approach to care by the endocrinologist and the obstetric team are imperative for a successful pregnancy in women with Graves hyperthyroidism. (Endocr Pract. 2010;16:118-129)     

Gender Influences the Clinical Presentation and Long-Term Outcome of Graves Disease

Objective: The outcome of antithyroid drug (ATD) treatment for Graves disease (GD) is difficult to predict. In this study, we investigated whether male gender, besides other factors usually associated with a poor outcome of ATD treatment, may affect disease presentation and predict the response to medical treatment in subjects with GD.Methods: We studied 294 patients with a first diagnosis of GD. In all patients, ATD treatment was started. Clinical features, thyroid volume, and eye involvement were recorded at baseline. Serum levels of free thyroxine (FT4), free triiodothyronine (FT3), thyroid-stimulating hormone (TSH), and TSH-receptor antibodies (TRAb) were measured at baseline and during the follow-up. Treatment outcome (FT4, FT3, and TSH serum levels and further treatments for GD after ATD withdrawal) was evaluated.Results: When compared to women, men showed a significantly larger thyroid volume and a higher family positivity for autoimmune diseases. During ATD, the mean serum levels of TSH, FT4, FT3, and TRAb did not differ between groups. Within 1 year after ATD discontinuation, relapse of hyperthyroidism was significantly more frequent in men than in women. Within the 5-year follow-up period, the prevalence of men suffering a late relapse was higher compared with that of women. The outcome at the end of the 5-year follow-up period was significantly associated with gender and TRAb levels at disease onset.Conclusion: Male patients with GD have a poorer prognosis when submitted to medical treatment with ATDs. A larger goiter at presentation and a stronger genetic autoimmune background might explain this gender difference in patients with GD.Abbreviations:ATD = antithyroid drugFT3 = free triiodothyronineFT4 = free thyroxineGD = Graves diseaseGO = Graves orbitopathyRAI = radioiodineTRAb = thyroid-stimulating hormone-receptor antibodyTSH = thyroid-stimulating hormone     

Thymic Hyperplasia and Graves Disease: Management of Anterior Mediastinal Masses in Patients with Graves Disease

ObjectiveTo describe a case of an anterior mediastinal mass (AMM) in a patient with Graves disease.MethodsWe report the clinical presentation, diagnosis, management, and outcome of a 34-year-old man with dyspnea on exertion.ResultsInitial evaluation of the patient’s complaints revealed a large AMM on chest radiography and then chest computed tomography. After occurrence of additional symptoms, the patient was diagnosed as having Graves disease and treated with antithyroid medications. Despite an appropriate biochemical response, he continued to experience severe dyspnea on exertion. A repeated computed tomographic scan 8 weeks after initiation of therapy showed no appreciable decrease in size of the AMM. He elected to undergo thymectomy. An intraoperative phrenic nerve injury resulted in a paralyzed left hemidiaphragm, leaving the patient with considerable difficulties in his career and profoundly decreased exercise tolerance.ConclusionThe differential diagnosis of an AMM includes several malignant lesions with a risk often warranting early surgical excision. In light of the association of benign thymic hyperplasia with Graves disease, thymectomy may be delayed in expectation of thymic regression with medical therapy. The timing of regression is variable, and very few reports exist in the literature. In our current case, the patient opted for thymectomy relatively early and had an unfortunate complication. The lack of clinical evidence regarding management of an enlarged thymus in patients with Graves disease, however, makes management decisions more difficult. (Endocr Pract. 2009;15: 534-539)     

Management of Thyrotoxicosis: Preconception,Pregnancy, and the Postpartum Period

Objective: To review the diagnosis and management of thyrotoxicosis in women who are preconception, pregnant, and in the postpartum period.Methods: Literature review of English-language papers published between 1980 and 2018.Results: Overt thyrotoxicosis occurs in 0.2% of pregnancies and subclinical thyrotoxicosis in 2.5%. Hyperthyroidism in women of childbearing age most frequently is caused by Graves disease (GD). Gestational thyrotoxicosis, transient human chorionic gonadotropin (hCG)-mediated hyperthyroidism, may develop in the first trimester. In the first year following delivery, postpartum thyroiditis, which frequently includes a thyrotoxic phase, occurs in 5% of women. Hyperthyroidism from nodular autonomy is uncommon in women of childbearing age. It is essential to understand the underlying etiology for thyrotoxicosis in order to recommend appropriate treatment. Gestational thyrotoxicosis requires supportive care, without antithyroid drug therapy. GD may be treated with antithyroid drugs, radioactive iodine, or thyroidectomy. Pregnancy, plans for pregnancy, and lactation have important implications for the choice of GD treatment. When thyrotoxicosis presents following delivery, postpartum thyroiditis must be differentiated from GD.Conclusion: The diagnosis and management of thyrotoxicosis in the peripregnancy period present specific challenges. In making management decisions, it is essential to weigh the risks and benefits of treatments not just for the mother but also for the fetus and for breastfed infants. A team approach to management is critical, with close collaboration among endocrinologists, maternal-fetal medicine specialists, and neonatologists.Abbreviations: GD = Graves disease; hCG = human chorionic gonadotropin; MMI = methimazole; PPT = postpartum thyroiditis; PTU = propylthiouracil; T3 = triiodothyronine; T4 = thyroxine; TBG = thyroxine-binding globulin; TRAb = TSH receptor antibody; TSH = thyroid-stimulating hormone     

Antineutrophil Cytoplasmic Antibody-Positive Vasculitis in A Patient with Graves Disease: Cross-Reaction Between Propylthiouracil and Methimazole

ObjectiveTo alert clinicians about the risk of vasculi- tis and cross-reactivity of antithyroid medication.MethodsWe describe the clinical course and medical management of the study patient.ResultsA 25-year-old woman with hyperthyroid- ism developed antineutrophil cytoplasmic antibody-posi- tive vasculitis after 15 months of propylthiouracil therapy. Her condition improved when propylthiouracil was with- drawn, but recurred when she was prescribed methimazole. Propylthiouracil and methimazole are commonly used an- tithyroid medications, and propylthiouracil is a well-rec- ognized cause of drug-induced vasculitis. Cross-reactivity between the 2 drugs is likely, but it has not been reported previously with regard to vasculitis. Many patients with propylthiouracil-induced vasculitis have been switched to methimazole.ConclusionsAwareness of this rare, but potentially serious, adverse drug reaction is important because prompt discontinuation of medication is essential. Cross-reactivity between propylthiouracil and methimazole must be consid- ered when selecting alternative therapies. (Endocr Pract. 2010;16:449-451)     

Thyroid Peroxidase Antibody Positivity is Associated With Relapse-Free Survival Following Antithyroid Drug Treatment for Graves Disease

Objective: Graves’ disease is an autoimmune disease characterized by production of autoantibodies directed against the thyroid gland. Thyrotropin-receptor antibodies (TRAbs) are clearly pathogenic, but the role of thyroidperoxidase antibodies (TPOAbs) in Graves disease is unknown.Methods: We retrospectively studied whether TPOAb positivity reduced risk of relapse following antithyroid drug (ATD) treatment in newly diagnosed Graves disease.Results: During follow-up of 204 patients with TRAb-positive Graves disease, 107 (52%) relapsed following withdrawal of ATD. Mean age was 40.0 years, and 82% were female. The average duration of ATD treatment was 23.5 months and was not different between patients who relapsed and those with sustained remission. Absence of TPOAbs significantly increased risk of Graves relapse (odds ratio, 2.21). Male sex and younger age were other factors significantly associated with increased risk of relapse.Conclusion: TPOAb positivity significantly improves the odds of remission following ATD treatment in newly diagnosed Graves’ disease.     

Use of Methotrexate to Treat Isolated Graves Ophthalmopathy Developing Years After Thyroidectomy and Iodine 131 Treatment of Papillary Thyroid Cancer

ObjectiveTo describe a case of Graves ophthalmopathy developing years after subtotal thyroidectomy and radioactive iodine treatment of papillary thyroid cancer.MethodsWe present a case report including clinical and laboratory data. Current relevant literature is reviewed and summarized with regard to Graves ophthalmopathy.ResultsIn 2001, a 51-year-old woman presented with an asymptomatic thyroid nodule. Fine-needle aspiration biopsy results showed Hürthle cells, and the patient had a subtotal thyroidectomy in 2002. Stage 2 follicular variant of papillary thyroid carcinoma was diagnosed. She received radioactive iodine (I 131) therapy (94.8 mCi and 147.2 mCi) in 2003. Thyrotropin was suppressed with levothyroxine. The patient remained asymptomatic and had undetectable thyroglobulin antibodies. In 2007, her eyes became irritated (ie, erythematous, pruritic, watery). Thyroperoxidase and thyroglobulin antibodies were undetectable, but thyrotropin receptor antibody was elevated to 44% (reference range, < 16%). On physical examination, moderate periorbital edema and conjunctival injection were present; orbital magnetic resonance imaging was normal. Computed tomography of her orbits showed symmetric bilateral exophthalmos and prominence of orbital fat. Other ophthalmologic etiologies were ruled out by 2 independent ophthalmologists. She had minimal improvement with oral and intravenous steroids. Subsequent treatment with methotrexate resulted in marked symptomatic improvement and lowered the thyrotropin receptor antibody level to 24%.ConclusionsIsolated Graves ophthalmopathy in a patient after treatment of thyroid cancer and radioactive iodine ablation has not been previously reported. Methotrexate therapy may be a useful therapeutic approach in this setting. (Endocr Pract. 2008;14:422-425)     

Increased Risk of Radioiodine Treatment Failure Associated with Graves Disease Refractory to Methimazole

Objective: Iodine 131 (I-131) radioactive iodine (RAI) therapy has been the preferred treatment for Graves disease in the United States; however, trends show a shift toward antithyroid drug (ATD) therapy as first-line therapy. Consequently, this would favor RAI as second-line therapy, presumably for ATD refractory disease. Outcomes of RAI treatment after first-line ATD therapy are unclear. The purpose of this study was to investigate treatment failure rates and potential risk factors for treatment failure, including ATD use prior to RAI treatment.Methods: A retrospective case control study of Graves disease patients (n = 200) after I-131 RAI therapy was conducted. Treatment failure was defined as recurrence or persistence of hyperthyroidism in the follow-up time after therapy (mean 2.3 years). Multivariable regression models were used to evaluate potential risk factors associated with treatment failure.Results: RAI treatment failure rate was 16.5%. A majority of patients (70.5%) used ATD prior to RAI therapy, predominantly methimazole (MMI) (91.9%), and approximately two-thirds of patients used MMI for >3 months prior to RAI therapy. Use of ATD prior to RAI therapy (P = .003) and higher 6-hour I-123 thyroid uptake prior to I-131 RAI therapy (P<.001) were associated with treatment failure. MMI use >3 months was also associated with treatment failure (P = .002).Conclusion: More patients may be presenting for RAI therapy after failing first-line ATD therapy. MMI use >3 months was associated with RAI treatment failure. Further studies are needed to investigate the association between long-term first-line ATD use and RAI treatment failure.     

A Stepwise Approach to the Evaluation and Treatment of Subclinicalhyperthyroidism

ObjectivesTo review a stepwise approach to the evaluation and treatment of subclinical hyperthyroidism.MethodsEnglish-language articles regarding clinical management of subclinical hyperthyroidism published between 2007 and 2012 were reviewed.ResultsSubclinical hyperthyroidism is encountered on a daily basis in clinical practice. When evaluating patients with a suppressed serum thyrotropin value, it is important to exclude other potential etiologies such as overt triiodothyronine toxicosis, drug effect, nonthyroidal illness, and central hypothyroidism. In younger patients with mild thyrotropin suppression, it is acceptable to perform testing again in 3 to 6 months to assess for persistence before performing further diagnostic testing. In older patients or patients with thyrotropin values less than 0.1 mIU/L, diagnostic testing should proceed without delay. Persistence of thyrotropin suppression is more typical of nodular thyroid autonomy, whereas thyroiditis and mild Graves disease frequently resolve spontaneously. The clinical consequences of subclinical hyperthyroidism, such as atrial dysrhythmia, accelerated bone loss, increased fracture rate, and higher rates of cardiovascular mortality, are dependent on age and severity. The decision to treat subclinical hyperthyroidism is directly tied to an assessment of the potential for clinical consequences in untreated disease. Definitive therapy is generally selected for patients with nodular autonomous function, whereas antithyroid drug therapy is more appropriate for mild, persistent Graves disease.ConclusionThe presented stepwise approach to the care of patients presenting with an isolated suppression of serum thyrotropin focuses on the differential diagnosis, a prediction of the likelihood of persistence, an assessment of potential risks posed to the patient, and, finally, a personalized choice of therapy. (Endocr Pract. 2012;18: 772-780)     

Recombinant Human Parathyroid Hormone Therapy (1-34) In an Adult Patient with a Gain-of-Function Mutation in the Calcium-Sensing Receptor-a Case Report

ObjectiveTo describe a case of hypocalcemia in a patient with a gain-of-function mutation in the calcium-sensing receptor that was undetected until adulthood and successfully treated with recombinant parathyroid hormone.MethodsThe clinical findings, laboratory data, and a review of the pertinent literature are presented.ResultsA 55-year-old woman was hospitalized and seen by the endocrinology consult service for hypocalcemia that was refractory to repeated doses of intravenous calcium gluconate. She expressed concern about chronic leg muscle cramps and paresthesias of the lips and fingertips. In addition, she had no history of neck surgery, neck irradiation, or any autoimmune disease. She was a well-appearing female with no dysmorphic features or skin changes. Laboratory tests revealed hypocalcemia, hyperphosphatemia, hypomagnesemia, and hypovitamino-sis D. Her parathyroid hormone concentration (PTH) was low at 14.2 pg/mL. Her PTH and calcium concentrations remained low despite repletion of magnesium and treatment with calcitriol and oral calcium replacement. A 24-hour collection for urinary calcium showed inappropriate hypercalciuria. Medical records showed her hypocalcemia to be chronic. Additionally, several family members had also complained of muscle cramps. A congenital cause of her hypoparathyroidism was considered, and genetic testing confirmed heterozygosity for a gain-of-function mutation in the calcium-sensing receptor gene associated with autosomal dominant familial isolated hypoparathyroidism (ADH). Treatment with subcutaneous recombinant human parathyroid hormone teriparatide (rhPTH [1-34]) 20 mcg twice daily for three days normalized her calcium and phosphorus concentrations.ConclusionrhPTH (1-34) is an effective treatment for patients with hypoparathyroidism due to gain-of-function mutations in the calcium-sensing receptor. ADH can be insidious in presentation and the diagnosis can be missed unless there is a high index of suspicion. (Endocr Pract. 2013;19:e24-e28)     

Type B Insulin Resistance Syndrome Associated with Systemic Lupus Erythematosus

ObjectiveTo document a case of type B insulin resistance syndrome associated with systemic lupus erythematosus.MethodsWe present the clinical course of a female patient with type B insulin resistance syndrome, from the onset, diagnosis, and empiric treatment until remission of her disease.ResultsA 40-year-old African American woman with systemic lupus erythematosus presented with a relatively acute onset of severe hyperglycemia in January 2004. Her hyperglycemia was resistant to treatment with high doses of insulin (up to an equivalent dose of regular insulin of 4,500 units daily). The diagnosis of type B insulin resistance syndrome was confirmed after her insulin receptor antibody was found to be strongly positive. The patient’s hemoglobin A1c level improved substantially after she had been treated with azathioprine for 3 months. By November 2004, she was able to discontinue insulin therapy. Repeated insulin receptor antibody testing in February 2005 revealed that her insulin receptor antibody had become negative. The patient’s fasting glucose level became normal, and only occasional mild postprandial hyperglycemic episodes have been noted.ConclusionImmunosuppressive therapy with azathioprine seems to be responsible for our patient’s remission of type B insulin resistance, although the possibility of the occurrence of a spontaneous remission cannot be completely excluded. (Endocr Pract. 2007;13:51-55)     

Graves’ Disease and Stiff-Person (Stiff-Man) Syndrome: Case Report and Literature Review

ObjectiveTo report an association between two autoimmune conditions, Graves’ disease and stiff-person (stiff-man) syndrome, and discuss the relevant literature.MethodsWe present a case of a 52-year-old white woman with stiff-person syndrome who also had Graves’ disease, discuss her management, and review the related literature. Pertinent published reports from 1950 through 2004 were researched with use of MEDLINE and PubMed, and cross-references to other articles were reviewed.ResultsA 52-year-old white woman presented with symptoms of hyperthyroidism due to Graves’ disease. Laboratory data were as follows: thyrotropin < 0.005 μIU/mL, thyroxine 11.1 μg/dL, free thyroxine index (FTI) 10.7, and triiodothyronine 170 ng/dL. Thyroid-stimulating immunoglobulins (TSI) and thyrotropin-binding inhibitory immunoglobulins (TBII) were positive at 1,986% and 82.5 U/L, respectively. The hyperthyroidism was treated with propranolol. She had a long-standing history of musculoskeletal complaints and was ultimately diagnosed with stiff-person syndrome. During her thyroid evaluation, she had severe neurologic deterioration that necessitated hospitalization and treatment with clonazepam, baclofen, intravenous immunoglobulin, and subsequently prednisone and azathioprine for appreciable symptomatic relief. The aggressive immunosuppression had a profound effect on her symptoms of hyperthyroidism, results of thyroid function tests, and thyrotropin receptor antibodies (TRABs). Thyrotropin was 0.52 μIU/mL, thyroxine was 6.9 μg/dL, and FTI was 5.7. The TSI decreased from 1,986% to 248%, and her TBII normalized from 82.5 U/L to < 5 U/L. She was clinically and biochemically euthyroid at last follow-up in May 2004.ConclusionThis case illustrates the association between TRAB-positive Graves’ disease and stiff-person syndrome and the improvement of Graves’ disease with immunosuppressive therapy. (Endocr Pract. 2005;11: 259-264)     

Long-Term Outcomes of Radioiodine Therapy for Juvenile Graves Disease with Emphasis on Subsequently Detected Thyroid Nodules: A Single Institution Experience from Japan

Objective: To investigate the long-term outcomes of radioiodine therapy (RIT) for juvenile Graves disease (GD) and the ultrasonographic changes of the thyroid gland.Methods: All of 117 juvenile patients (25 males and 92 females, aged 10 to 18 &lsqb;median 16] years) who had undergone RIT for GD at our clinic between 1999 and 2018 were retrospectively reviewed. Each RIT session was delivered on an outpatient basis. The maximum ¹³¹I dose per treatment was 13.0 mCi, and the total ¹³¹I dose per patient was 3.6 to 29.8 mCi (median, 13.0 mCi). ¹³¹I administration was performed once in 89 patients, twice in 26, and three times in 2 patients. Ultrasonography of the thyroid gland was regularly performed after RIT. The duration of follow-up after the initial RIT ranged from 4 to 226 (median 95) months.Results: At the latest follow-up more than 12 months after RIT (n = 111), the patients' thyroid functions were overt hypothyroidism (91%), subclinical hypothyroidism (2%), normal (5%), or subclinical hyperthyroidism (2%). New thyroid nodules were detected in 9 patients, 4 to 17 years after initial RIT. Patients with newly detected thyroid nodules underwent RIT with lower doses of ¹³¹I and had larger residual thyroid volumes than those without nodules. None of the patients were diagnosed with thyroid cancer or other malignancies during the follow-up period.Conclusion: Over a median follow-up period of 95 months (range, 4 to 226 months), RIT was found to be effective and safe in juvenile GD. However, cumulative evidence from further studies is required to confirm the long-term safety of RIT for juvenile GD.Abbreviations: ATD = antithyroid drug; GD = Graves disease; KI = potassium iodide; LT4 = levothyroxine; MMI = methimazole; PTU = propylthiouracil; RAIU = radio-active iodine uptake; RIT = radioiodine therapy; ^99mTc = technetium-99m; TSH = thyrotropin