Lack of a Threshold Size for Autonomously Functioning Thyroid Nodules that Excludes Hyperthyroidism

Objective: To correlate the size of autonomously functioning thyroid nodules (AFTNs) with thyroid function tests.Methods: A retrospective analysis was performed of data from patients with a diagnosis of a single AFTN who were seen in a university-based endocrinology clinic between January 1, 2003, and December 31, 2015. Patients with a nuclear thyroid scan confirming the presence of an AFTN without significant cystic degeneration were included in the study.Results: The volume of the AFTN and the corresponding thyroid function tests were compared in 32 patients who met inclusion criteria. There was no correlation between the volume of the AFTN and thyroid-stimulating hormone (TSH) levels (r² = 0.044). There was also no volume threshold below which an AFTN was always associated with a TSH within the reference range.Conclusion: The results agree with the findings of other recent studies comparing the volume of AFTNs with TSH levels, suggesting that smaller nodules can still demonstrate subclinical and overt hyperthyroidism and that a normal TSH level does not preclude the presence of an AFTN.Abbreviations: AFTN = autonomously functioning thyroid nodule; T3 = triiodothyronine; T4 = thyroxine; TSH = thyroid-stimulating hormone     

Timing of Radioactive Iodine Therapy does not Impact Overall Survival in High-Risk Papillary Thyroid Carcinoma

Objective: Postthyroidectomy radioiodine (RAI) therapy is indicated for papillary thyroid carcinoma (PTC) with high-risk features. There is variability in the timing of RAI therapy with no consensus. We analyzed the impact of the timing of initial RAI therapy on overall survival (OS) in PTC.Methods: The National Cancer Data Base (NCDB) was queried from 2003 to 2006 for patients with PTC undergoing near/subtotal or total thyroidectomy and RAI therapy. High-risk patients had tumors >4 cm in size, lymph node involvement, or grossly positive margins. Early RAI was ≤3 months, whereas delayed was between 3 and 12 months after thyroidectomy. Kaplan-Meier (KM) and Cox survival analyses were performed after adjusting for patient and tumor-related variables. A propensity-matched set of high-risk patients after eliminating bias in RAI timing was also analyzed.Results: There were 9,706 patients in the high-risk group. The median survival was 74.7 months. KM analysis showed a survival benefit for early RAI in high-risk patients (P = .025). However, this difference disappeared (hazard ratio [HR] 1.26, 95% confidence interval [CI] 0.98–1.62, P = .07) on adjusted Cox multivariable analysis. Timing of RAI therapy failed to affect OS in propensity-matched high-risk patients (HR 1.09, 95% CI 0.75–1.58, P = .662).Conclusion: The timing of postthyroidectomy initial RAI therapy does not affect OS in patients with high-risk PTC.Abbreviations:CI = confidence intervalCLNM = cervical lymph node metastasisFVPTC = follicular variant papillary thyroid carcinomaHR = hazard ratioKM = Kaplan-MeierNCDB = National Cancer Data BaseOS = overall survivalPTC = papillary thyroid carcinomaRAI = radioactive iodine     

Initial Adoption of Recombinant Human Thyroid-Stimulating Hormone Following Thyroidectomy in the Medicare Thyroid Cancer Patient Population

Objective: Recombinant human thyroid-stimulating hormone (rhTSH) has been approved for diagnostic (1998) and therapeutic (2008) indications in conjunction with radioactive iodine (RAI) administration post-thyroidectomy. Potential benefits of rhTSH, including avoidance of hypothyroidism side effects and shorter, less costly hospital stays, have not been assessed at the population level within the United States. In this study we quantify utilization, outcomes, and associated costs of rhTSH within the nationally representative Surveillance, Epidemiology, and End Results (SEER)-Medicare patient population.Methods: We conducted a retrospective analysis of beneficiaries aged >65 years diagnosed within the SEER-Medicare data with differentiated thyroid cancer. Endpoints examined included (1) rhTSH utilization in the 2 years post-thyroidectomy (patients diagnosed 1996–2011 [utilization cohort]) and (2) comparison of resource utilization and costs as a function of rhTSH receipt in the 30 days prior to and 1 year following therapeutic RAI administration (patients diagnosed 2008–2011 [resource use cohort]). All costs were adjusted to reflect 2013 dollars.Results: A total of 6,482 patients met inclusion criteria, of which, 1,363 (21.0%) received rhTSH. Receipt varied by region and was higher in the South (18%), Northeast (28%), and West (44%) compared to the Midwest (10%), and lower in census tracts in the bottom quartile of high school education rates (odds ratio 0.68, 95% confidence interval [CI] 0.55–0.83). rhTSH receipt was not associated with patient sex, age, comorbidities, or stage. Post-therapeutic RAI, 1,444 patients were assessed for resource utilization (2008–2011). The average cost of rhTSH was $905 per patient, with $2,483 being spent on average among patients who received rhTSH in association with therapeutic RAI. rhTSH receipt was not significantly associated with total inpatient days or number of outpatient and emergency department visits. Multivariable analyses showed similar overall costs among patients who did versus did not receive rhTSH (cost ratio [CR] 0.96, 95% CI 0.86–1.09), partially due to increased mean outpatient costs ($5,213 vs. $4,190) being offset by lower inpatient costs ($3,493 vs. $6,143). Overall costs were significantly higher in multivariable analyses among patients with distant metastatic disease (CR 1.92, 95% CI 1.58–2.32) and multiple comorbidities (CR 2.15, 95% CI 1.83–2.53).Conclusion: rhTSH recipients had higher outpatient, lower inpatient, and similar total Medicare payments as those not receiving rhTSH in conjunction with RAI, lending support to the use of rhTSH as a cost-neutral treatment option from the payer perspective.Abbreviations: CI = confidence interval; CMS = Centers for Medicare & Medicaid Services; CR = cost ratio; HCPCS = Healthcare Common Procedure Coding System; IQR = interquartile range; mCi = millicurie; OR = odds ratio; PET = positron emission tomography; RAI = radioactive iodine; rhTSH = recombinant human thyroid-stimulating hormone; RR = risk ratio; SEER = Surveillance, Epidemiology, and End Results     

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     

No Benefit of Dedicated Thyroid Nodule Screening in Patients with Acromegaly

Objective: Acromegaly results from the excessive production of growth hormone and insulin-like growth factor-1. While there is up to a 2-fold increased prevalence of thyroid nodules in patients with acromegaly, the incidence of thyroid cancer in this population varies from 1.6 to 10.6% in several European studies. The goal of our study was to determine the prevalence of thyroid nodules and thyroid cancer among patients with acromegaly at a large urban academic medical center in the United States (U.S.).Methods: A retrospective chart review was performed of all patients with acromegaly between 2006–2015 within the University of California, Los Angeles health system. Data were collected regarding patient demographics, thyroid ultrasounds, thyroid nodule fine needle aspiration (FNA) biopsy cytology, and thyroid surgical pathology.Results: In this cohort (n = 221, 49.3% women, mean age 53.8 ± 15.2 [SD] years, 55.2% Caucasian), 102 patients (46.2%) underwent a thyroid ultrasound, from which 71 patients (52.1% women, mean age 52.9 ± 15.2 [SD] years, 56.3% Caucasian) were found to have a thyroid nodule. Seventeen patients underwent a thyroid nodule FNA biopsy and the results revealed 12 benign biopsies, 1 follicular neoplasm, 3 suspicious for malignancy, and 1 papillary thyroid cancer (PTC), from which 6 underwent thyroidectomy; PTC was confirmed by surgical pathology for all cases (8.5% of all nodules observed).Conclusion: In this sample, the prevalence of thyroid cancer in patients with acromegaly and coexisting thyroid nodules is similar to that reported in the general U.S. population with thyroid nodules (7 to 15%). These findings suggest that there is no benefit of dedicated thyroid nodule screening in patients newly diagnosed with acromegaly.Abbreviations: AACE = American Association of Clinical Endocrinologists; ATA = American Thyroid Association; DTC = differentiated thyroid cancer; FNA = fine needle aspiration; GH = growth hormone; IGF-1 = insulin-like growth factor-1; PTC = papillary thyroid cancer; U.S. = United States     

Effect of Post-Surgical Rai Therapy on Parathyroid Function in Patients with Differentiated Thyroid Cancer

Objective: Radiotherapy with radioactive iodine (RAI) has become a common treatment for postsurgical differentiated thyroid carcinoma (DTC). The objective of this study was to determine the effect of RAI therapy following surgery on the function of the parathyroid glands in DTC patients.Methods: A total of 81 DTC patients who received RAI therapy after surgery were enrolled in the study. The size of the residual thyroid was detected by technetium-99m (^99mTc)-pertechnetate thyroid scan (^99mTc thyroid scan) before RAI therapy. The iodine uptake ability of residual thyroid was evaluated by iodine-131 (¹³¹I) whole-body scan (WBS). All patients were treated with an activity of 3.7 GBq (100 mCi) ¹³¹I. Parathyroid hormone (PTH), serum calcium, phosphorus, and magnesium were evaluated at 1 day before treatment, and at 1 month and 3 months after treatment.Results: The results show that there was no statistically significant difference in blood PTH level observed (P>.05) between 3 time points (pre-treatment, 1 month post-treatment and 3 months post-treatment). The serum calcium and phosphorus did not change significantly (P>.05), but serum magnesium level was elevated after treatment (P<.05). There were no significant differences between PTH changes and sex, age, scores of ^99mTc thyroid scan, scores of ¹³¹I WBS, Tumor (T) stage, and Node (N) stage.Conclusion: RAI therapy following surgery did not significantly affect parathyroid function in DTC patients.Abbreviations: ATA = American Thyroid Association; DTC = differentiated thyroid carcinoma; FT3 = free triiodothyronine; FT4 = free thyroxine; 131I = iodine-131; PTH = parathyroid hormone; RAI = radioiodine; 99mTc = Technetium-99m; TG = thyroglobulin; TNM = Tumor Node Metastasis; TSH = thyroid-stimulating hormone; WBS = whole-body scan     

Unfavorable Responses to Radioiodine Therapy in N1b Papillary Thyroid Cancer: A Propensity Score Matching Study

Objective: Regional nodal metastases carry prognostic significance in papillary thyroid cancer (PTC). However, whether different locational nodal metastases correlate with different therapeutic responses remains controversial. We innovatively applied the response to therapy restratification system to evaluate the dynamic disease status after surgery and radioactive iodine (RAI) therapy in PTC patients with different locational nodal metastases.Methods: A total of 585 nondistant-metastatic PTC patients who underwent total thyroidectomy and RAI therapy were retrospectively enrolled. Patients with nodal metastases were categorized into N1a and N1b groups. Propensity score matching was used to balance the bias between the 2 groups. Therapeutic responses were dynamically evaluated, and responses to RAI therapy were classified into excellent (ER), indeterminate (IDR), biochemical incomplete (BIR) and structural incomplete response (SIR).Results: N1b group patients showed a significantly higher pre-ablation stimulated thyroglobulin (Ps-Tg) level than N1a group patients (7.4 ng/mL versus 3.2ng/mL, P<.001). After RAI therapy, N1b group patients took a longer time to achieve ER (9.86 months versus 3.29 months, P<.001) and exhibited a higher proportion of non-ER (IDR, BIR, and SIR) (39.15% versus 17.46%, P<.001) compared to N1a group patients. In logistic regression, N1b and Ps-Tg ≥10 ng/mL were confirmed to be independent factors predicting non-ER (odds ratio: 2.591, and 9.196, respectively). In Cox regression, patients with N1b disease and Ps-Tg ≥10 ng/mL showed significantly lower hazards for achieving ER (hazard ratio: 0.564, and 0.223, respectively).Conclusion: N1b PTC patients showed inferior responses to surgery and RAI therapy compared to N1a patients. N1b was confirmed to be an independent factor predicting unfavorable responses to RAI therapy.Abbreviations: AJCC = American Joint Committee on Cancer; ATA = American Thyroid Association; BIR = biochemical incomplete response; BRAF^V600E = proto-oncogene B-Raf V600E mutation; CI = confidence interval; CT = computed tomography; DNA = deoxyribonucleic acid; DTC = differentiated thyroid cancer; ER = excellent response; ETE = extrathyroidal extension; HR = hazard ratio; IDR = indeterminate response; LNM = lymph node metastasis; N1a = central cervical LNM; N1b = lateral cervical LNM; OR = odds ratio; PSM = propensity score matching; Ps-Tg = pre-ablation stimulated thyroglobulin; PTC = papillary thyroid cancer; RAI = radioactive iodine; SIR = structural incomplete response; Tg = thyroglobulin; TgAb = thyroglobulin antibody; TSH = thyroid-stimulating hormone     

Long-Term Outcomes and Prognostic Factors in Patients With Differentiated Thyroid Carcinoma and Bone Metastases

Objective: This institutional study sought to retrospectively evaluate disease progression and survival of patients with differentiated thyroid cancer (DTC) and bone metastases (BM) and to investigate variables predictive of better long-term outcomes.Methods: The Rabin Medical Center Thyroid Cancer Registry was searched for patients with bone-metastatic DTC. Variables including a patient's gender and age, pathology of the thyroid tumor, and characteristics of BM were retrieved and analyzed in association with disease progression and mortality.Results: The cohort included 64 patients (48.4% female). Mean age at diagnosis was 62.1 ± 14.3 years; mean primary tumor size was 41 ± 30 mm. Overall, 60.4% had stage T3/T4 disease; 46.3% had extrathyroidal extension; 40% had lymph-node metastases. Histopathology yielded papillary and follicular DTC in 40.6% and 32.8% of patients, respectively, and poorly/intermediately differentiated carcinoma in 26.6%. BM were synchronous in 50%. Mean follow-up was 11 ± 9.6 years from DTC detection. The common first sites of BM detection were spine (46.9% of patients), pelvis (37.5%) and ribs (21.9%). Nineteen patients (29.7%) presented with multiple-site BM, of whom 15 (78.9%) had spinal metastases. After initial treatment, 62/64 patients had structural persistence, and at last follow-up, 57.8% had progressive disease. Overall, 54.7% of patients died, 71.4% of DTC. Improved long-term outcomes were associated with younger age, lower tumor stage, no extrathyroidal extension, bone-only metastases, and non-spinal BM. Younger age and non-spinal BM were the only independent predictors for improved survival.Conclusions: Selected patients with bone-metastatic DTC may achieve fair long-term outcomes. Spinal metastases are associated with disseminated skeletal spread and increased mortality.Abbreviations: BM = bone metastases; COX = multivariate analyses; DM = distant metastases; DSM = disease-specific mortality; DSS = disease-specific survival; DTC = differentiated thyroid carcinoma; ETE = extrathyroidal extension; LNM = lymph node metastases; OM = overall mortality; OS = overall survival; PTCFV = papillary thyroid carcinoma; RAI = radioactive iodine; SM = spinal metastases; SRE = skeletal-related event; txWBS = whole-body scan after RAI therapy     

Serial Neck Ultrasound is More Likely to Identify False-Positive Abnormalities than Clinically Significant Disease in Low-Risk Papillary Thyroid Cancer Patients

Objective: American Thyroid Association (ATA) low-risk papillary thyroid cancer (PTC) patients without structural evidence of disease on initial posttreatment evaluation have a low risk of recurrence. Despite this, most patients undergo frequent surveillance neck ultrasound (US). The objective of the study was to evaluate the clinical utility of routine neck US in ATA low-risk PTC patients with no structural evidence of disease after their initial thyroid surgery.Methods: We performed a retrospective review of 171 ATA low-risk PTC patients after total thyroidectomy, with or without radioactive iodine (RAI) ablation, who had a neck US without suspicious findings after therapy. The main outcome measure was a comparison of the frequency of finding false-positive US abnormalities and the frequency of identifying structural disease recurrence.Results: Over a median follow-up of 8 years, 171 patients underwent a median of 5 neck US (range 2–17). Structural recurrence with low-volume disease (≤1 cm) was identified in 1.2% (2/171) of patients at a median of 2.8 years (range 1.6–4.1 years) after their initial diagnosis. Recurrence was associated with rising serum thyroglobulin (Tg) level in 1 of the 2 patients and was detected without signs of biochemical recurrence in the other patient. Conversely, false-positive US abnormalities were identified in 67% (114/171) of patients after therapy, leading to additional testing without identifying clinically significant disease.Conclusion: In ATA low-risk patients without structural evidence of disease on initial surveillance evaluation, routine screening US is substantially more likely to identify false-positive results than clinically significant structural disease recurrence.Abbreviations:18FDG-PET = 18-fluorodeoxyglucose-positron emission testingAJCC = American Joint Committee on CancerATA = American Thyroid AssociationCT = computed tomographyETA = European Thyroid AssociationMRI = magnetic resonance imagingPTC = papillary thyroid cancerRAI = radioactive iodineTg = thyroglobulinTgAb = antithyroglobulin antibodiesTSH = thyroid-stimulating hormoneUS = ultrasound     

Practical Barriers to Implementation of Thyroid Cancer Guidelines in the Asia-Pacific Region

Objective: Numerous published guidelines have described the optimal management of thyroid cancer. However, these rely on the clinical availability of diagnostic and therapeutic modalities. We hypothesized that the availability of medical resources and economic circumstances vary in Asia-Pacific countries, making it difficult to implement guideline recommendations into clinical practice.Methods: We surveyed participants at the 2009 and 2013 Congresses of the Association of Southeast Asian Nations Federation of Endocrine Societies by distributing questionnaires to attendees at registration.Results: Responses were obtained from 268 respondents in 2009 and 163 respondents in 2013. Similar to the high prevalence of low-risk thyroid cancer observed in the Surveillance, Epidemiology, and End Results database, across the Asia-Pacific countries surveyed in 2009 and 2013, 50 to 100% of the respondents from the Philippines, Malaysia, Singapore, China, Taiwan, Thailand, Hong Kong, Korea, and Sri Lanka reported that more than 50% of the patients had low-risk thyroid cancer on follow-up. Importantly, there was much variation with regards to the perceived availability of investigation and treatment modalities.Conclusion: We found a wide variation in clinicians' perception of availability of diagnostic and therapeutic modalities in the face of a rise in thyroid cancer incidence and thyroid cancer management guidelines that emphasized their importance. The lack of availability of management tools and treatments will prove to be a major barrier to the implementation of thyroid cancer management guidelines in Southeast Asia, and likely in other parts of the world as well.Abbreviations: AFES = ASEAN Federation of Endocrine Societies ASEAN = Association of Southeast Asian Nations ATA = American Thyroid Association FNA = fine-needle aspiration PET = positron emission tomography RAI = radioactive iodine Tg = thyroglobulin TSH = thyroid-stimulating hormone     

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.     

The Absence of Thyroid Disease in an Australian Hepatitis C Cohort Treated With Triple Combination Therapy: A Paradigm Shift

Objective: To assess the prevalence of thyroid disease in triple combination therapy with interferon (IFN)-α, ribavirin (RBV), and protease inhibitors (boceprevir and telaprevir) for the treatment of chronic hepatitis C virus (HCV) infection in an Australian hepatitis C cohort. Also, to compare with those who received dual RBV and IFN in the past.Methods: A preliminary, retrospective, and nested case control study of thyroid disease in patients who underwent triple combination therapy for chronic HCV infection compared with dual therapy at a major tertiary referral hospital center. Fifty-nine patients were treated with such therapy at the Hunter New England Area Hepatitis C Treatment Center. Of these, 38 were treated with boceprevir and 21 with telaprevir. All had genotype 1 HCV infection. The main outcome measures included (1) the prevalence of thyroid disease (TD), including hyperthyroidism and hypothyroidism, and (2) thyroid outcome comparison with patients who had received dual therapy.Results: There was no case of TD detected for the entire duration of therapy with triple anti-HCV therapy. There was a significant absence of TD in the protease inhibitor–treated group.Conclusion: No case of TD was detected during the treatment of HCV patients with protease inhibitor–based triple therapy. The reasons for this are unclear. Larger studies are necessary to confirm this finding.Abbreviations: CV = coefficient of variation fT₃ = free triiodothyronine fT₄ = free thyroxine HCV = hepatitis C virus IFN-α = interferon-alpha PI = protease inhibitor RBV = ribavirin TD = thyroid disease TSH = thyroid-stimulating hormone TTX = thyrotoxicosis     

Management of Thyrotoxicosis Among General Practitioners in Trinidad Compared with 2016 American Thyroid Association Guidelines for Hyperthyroidism

Objective: A previous Trinidadian survey highlighted the investigative and therapeutic approaches selected by general practitioners (GPs) in managing thyrotoxicosis. The main objective of this study was to compare practice with existing guidelines.Methods: In this cross-sectional study a pretested de novo questionnaire was self-administered to GPs throughout Trinidad. The survey evaluated GPs' choices in management of thyrotoxicosis cases and compared their responses to the 2016 American Thyroid Association guidelines as well as with those previously reported locally.Results: A total of 159 completed questionnaires were analyzed (59% response rate). Thyroid stimulating hormone was the preferred (94%) biochemical test to confirm thyrotoxicosis etiology. A combination of ultra-sound and thyroid scintigraphy, thyroid ultrasound alone, and scintigraphy only were the testing options selected by 41%, 38%, and 12%, respectively. Generally medical therapy with antithyroid drugs was the preferred treatment option with 86% of respondents selecting this option for the index case of newly diagnosed female Graves disease. The greatest proportion of respondents that selected radioactive iodine (RAI) was 35% for both the index case as well as the male equivalent. Surgery was the most popular option at 25% for patients with a toxic multinodular goiter. Having access to RAI and scintigraphy was reported by 32% and 28%, respectively.Conclusion: GPs appear to be constrained to making rational choices based upon availability rather than what the guidelines recommend. In the absence of formal continuing medical education for GPs on thyrotoxicosis, dissemination of guidelines at the primary care level may reduce this gap.Abbreviations: ATA = American Thyroid Association; ATD = antithyroid drugs; CME = continued medical education; GP = general practitioner; RAI = radioactive iodine; SURG = surgery; T4 = thyroxine; TSH = thyroid-stimulating hormone     

Predictors of Hypothyroidism Following Empirical Dose Radioiodine in Toxic Thyroid Nodules: Real-Life Experience

ObjectiveWe aimed to determine the factors predicting hypothyroidism after radioactive iodine (RAI) treatment in patients with toxic adenoma and toxic multinodular goiter.MethodsWe retrospectively collected the data of 237 patients with toxic multinodular goiter or toxic adenoma who had consecutively received RAI treatment between 2014 and 2020 at 2 medical centers. Patients who received the second RAI treatment and whose medical records could not be accessed were excluded from the study. Finally, 133 patients were included in the study. RAI was administered at an empirical dose of 15 or 20 mCi.ResultsThe median age of the 133 participants was 69 years (interquartile range, 62-75 years), and 64.7% of the participants were women. A total of 42.1% of the patients had toxic adenoma, whereas 57.9% of patients had toxic multinodular goiter. The median follow-up was 24 months (interquartile range, 11-38 months). During the follow-up, 61.7% of patients became euthyroid, 30.8% developed hypothyroidism, and 7.5% remained hyperthyroid. The median month of hypothyroidism onset was 4 months (interquartile range, 2-9 months). Regression analysis revealed 2 factors that could predict hypothyroidism: thyroid-stimulating hormone (odds ratio, 2.548; 95% CI, 1.042-6.231; P = .04) and thyroid volume (odds ratio, 0.930; 95% CI, 0.885-0.978; P = .005).ConclusionOverall, 30.8% of the cases developed hypothyroidism after the RAI treatment. Approximately 78% of hypothyroidism developed within the first 10 months. The risk of hypothyroidism was higher in patients with higher thyroid-stimulating hormone and smaller thyroid volume.     

Factors Influencing the Successful Maintenance of Euthyroidism after Lobectomy in Patients with Papillary Thyroid Microcarcinoma: A Single-Center Study

Objective: This study aimed to evaluate factors influencing the successful maintenance of postoperative euthyroidism in patients who did not undergo immediate thyroid hormone replacement after lobectomy for papillary thyroid microcarcinoma (PTMC).Methods: From September 2015 to June 2017, 186 patients underwent lobectomy for PTMC in our hospital. Patients taking medications for hypothyroidism and hyperthyroidism before and after lobectomy were excluded. Multiple parameters, including sex, age, pre-operative free thyroxine (T4), thyroid-stimulating hormone (TSH), thyroglobulin (TG), and thyroid autoantibody levels, body mass index (BMI), postoperative histopathology of the thyroid gland, remnant thyroid gland volume, and session number of levothyroxine discontinuation were retrospectively evaluated. These factors were compared between groups based on the maintenance of postoperative euthyroidism.Results: In 88 of the 175 patients (50.3%), postoperative euthyroidism was successfully maintained without thyroid hormone replacement during the first year after lobectomy. There were significant differences in sex (P = .003), pre-operative TSH levels (P = .002), and histopathology of the thyroid gland (P = .035) between the groups showing maintenance success and failure. The group showing successful maintenance had a higher percentage of male patients, lower levels of pre-operative TSH, and normal parenchymal histology of the thyroid gland. However, there were no significant between-group differences in age, pre-operative free T4, TG, and thyroid autoantibody levels, BMI, remnant thyroid gland volume, and session number of levothyroxine discontinuation.Conclusion: Patient sex, pre-operative TSH levels, and histopathology of the thyroid gland may influence the maintenance of postoperative euthyroidism after lobectomy.Abbreviations: BMI = body mass index; PTMC = papillary thyroid microcarcinoma; RR = reference range; T4 = thyroxine; TFT = thyroid function test; TG = thyroglobulin; TSH = thyroid-stimulating hormone     

Percutaneous Laser Ablation in the Treatment of Toxic and Pretoxic Nodular Goiter

ObjectiveTo report data regarding treatment with use of percutaneous laser ablation (PLA) in autonomously functioning thyroid nodules (AFTN).MethodsWe treated 18 patients (10 women and 8 men, 31 to 80 years old) who presented with a single hyperfunctioning thyroid nodule (8 patients) or a multi-nodular goiter (10 patients) with clearly hyperfunctioning areas on a thyroid scintiscan. In 5 cases, free thyroxine (FT₄) and free triiodothyronine (FT₃) levels were high, and in these patients and a further 9 patients with cardiovascular symptoms, methimazole therapy was initiated to restore euthyroidism. The total number of PLA sessions ranged from 1 to 5 (median, 3). Thyroid-stimulating hormone, FT₄, FT₃, thyroglobulin, and antithyroglobulin and anti-thyroid peroxidase antibodies were measured by a commercial kit the day after PLA treatment, then weekly during the first month, and monthly thereafter. The Student t test was used for statistical analyses, and data are reported as mean values ± SE.ResultsAfter each PLA session, there was a transient and mild increase in FT₄ and FT₃—5.2% to 18.1% (mean, 11.1 ± 0.69%) (P < 0.001) in patients not treated with methimazole and 4.0% to 8.3% (mean, 5.9 ± 0.31%) (P < 0.001) in patients treated with methimazole—relative to values before treatment; however, these values never reached the range of hyperthyroidism. In addition, thyroglobulin showed a remarkable increase after 24 hours— 115% to 390% (mean, 266.0 ± 12.7%) (P < 0.001). Thyroid-stimulating hormone increased in all cases and reached normal values in all patients with single AFTN and in 5 patients (50%) with multinodular goiter within 3 months after PLA. At 1-year follow-up, the decrease in nodular volume was 24% to 72% (mean, 59.3 ± 8.2%; P < 0.001).ConclusionOur data show that PLA can be a useful treatment in AFTN and particularly in single toxic nodules. Possible elective indications are patients who refuse surgical or radioiodine treatment and patients with cardiovascular comorbidity who need rapid restoration of the euthyroid state and who cannot tolerate the discontinuation of antithyroid drugs for radioiodine treatment. (Endocr Pract. 2007;13:30-36)     

Study Of The Prevalence Of Autoimmune Thyroid Disease In Women With Breast Cancer

Objective: The aim of this study was to analyze the prevalence of thyroid disorders in patients with a positive biopsy for breast cancer prior to specific antitumor treatment.Methods: The frequency and pattern of thyroid disorders were evaluated in 112 patients with breast cancer (G1) and 125 control patients (G2) by analyzing serum thyroid-stimulating hormone (TSH), anti–thyroid peroxidase antibodies, and anti-thyroglobulin antibodies. In addition, the expression of estrogen receptors, progesterone receptors, and human epidermal growth factor receptor 2 (HER2) was assessed in the breast biopsies by immunohistochemistry.Results: The frequency of thyroid disorders, such as changes in TSH levels and/or the presence of thyroid antibodies, was not different between the 2 groups examined (30.4% in G1 versus 28.0% in G2) (P = .69). However, a family history of thyroid disease was more frequent in patients with breast cancer (50.5% in G1 versus 28.2% in G2) (P = .001). Regarding the clinical stage of breast cancer, there was no difference between women with autoimmune thyroiditis and those without thyroid dysfunction (P = .316). Similarly, there were no differences in hormone receptor (estrogen or progesterone) and HER2 expression between patients who tested positive and those who tested negative for anti-thyroid antibodies (P = .052 and P = .549, respectively).Conclusion: The data obtained in this study did not reveal a higher frequency of autoimmune thyroid disease in patients with breast cancer compared to controls. A family history of thyroid disease was more common in those with breast cancer.Abbreviations:anti-Tg = anti-thyroglobulinanti-TPO = anti–thyroid peroxidaseBIRADS = Breast Imaging-Reporting and Data SystemER = estrogen receptorFT₄ = free thyroxineG1 = study groupG2 = final control groupHER2 = human epidermal growth factor receptor 2PR = progesterone receptorTSH = thyroid-stimulating hormone     

Hyperkalemia Develops in Some Thyroidectomized Patients Undergoing Thyroid Hormone Withdrawal in Preparation for Radioactive Iodine Ablation for Thyroid Carcinoma

Objective: Hyponatremia is observed in hypothyroidism, but it is not known if hypo- or hyperkalemia is associated with hypothyroidism. To study these questions, we determined serum potassium (K⁺) levels in thyroidectomized patients undergoing levothyroxine withdrawal before radioactive iodine (RAI) therapy for thyroid carcinoma.Methods: We retrospectively studied the records of 108 patients who had undergone total thyroidectomy for thyroid carcinoma followed by levothyroxine withdrawal and then ablation with RAI at Nagasaki University Hospital from 2009–2013. Blood samples were analyzed for serum K⁺ concentrations when patients were euthyroid just before levothyroxine withdrawal and hypothyroid 21 days after levothyroxine withdrawal. We determined the proportion of patients who developed hyperkalemia (K⁺ ≥5 mEq/L) and hypokalemia (K⁺ ≤3.5 mEq/L).Results: Five (4.6%) patients developed hyperkalemia and 2 (1.9%) patients developed hypokalemia after levothyroxine withdrawal. The mean serum K⁺ level after levothyroxine withdrawal was significantly higher than before levothyroxine withdrawal (4.23 ± 0.50 mEq/L vs. 4.09 ± 0.34 mEq/L; P<.001). After levothyroxine withdrawal, serum K⁺ values were significantly correlated with age, serum sodium and creatinine levels, and the estimated glomerular filtration rate but not with serum free thyroxine or thyroid-stimulating hormone concentrations. The finding of an elevated serum K⁺ of >0.5 mEq/L after levothyroxine withdrawal was more prevalent with age >60 years (odds ratio [OR], 4.66; P = .026) and with the use of angiotensin-II receptor blockers or angiotensin-converting enzyme inhibitors (OR, 3.53; P = .033) in a multivariate analysis.Conclusion: Hyperkalemia develops in a small percentage of hypothyroid patients after thyroid hormone withdrawal, especially in patients over 60 years of age who are using antihypertensive agents that inhibit the reninangiotensin- aldosterone system.Abbreviations: ACE-I = angiotensin-converting enzyme inhibitor ARB = angiotensin-II receptor blocker Cr = creatinine eGFR = estimated glomerular filtration rate Eu-K⁺ = serum level of K⁺ in the euthyroid state Hypo-K⁺ = serum level of K⁺ in the hypothyroid state K⁺ = potassium Na⁺ = sodium ?K⁺ = Hypo-K⁺ value minus Eu-K⁺ value RAI = radioactive iodine TSH = thyroid-stimulating hormone