Serial Changes of Liver Function Tests Before and During Methimazole Treatment in Thyrotoxic Patients (original) (raw)
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Clinical Endocrinology, 1988
Since the effectiveness of 30 mg methimazole in a single daily dose in gaining initial control of hyperthyroidism may depend largely on patient characteristics, 52 patients (34 with diffuse and 18 with nodular goitre) were investigated in an attempt to determine the relative importance of a number of pretreatment variables. Return to normal thyroid hormone levels after 2 to 6 weeks of treatment appeared to be the rule, although eight of these patients formed notable exceptions (6-20 weeks). The individual duration of treatment until achievement of biochemical euthyroidism correlated with the initial free thyroxine index (r = 0.75, P < 0.001) and the free triiodothyronine index (r = 0.70, P < 0.001). For patients with a diffuse goitre it was also related to the thyroid volume estimated by ultrasound (r = 0.73, P < 0.001). According to multiple linear regression analysis however these variables were found to have no independent prognostic value. The decrease in thyroid volume during initial therapy, the nature of the goitre, a medication compliance score and various other patient variables did not correlate with the effect of treatment. In 12 cases perchlorate discharge tests were performed. The results suggest continued hormone synthesis in patients with highly active iodine trapping as an important mechanism of the postponed attainment of euthyroidism.
Endocrine Journal, 1997
A prospective long-term follow-up study was performed with conventional divided doses (group C:10 mg 3 times daily, N=58) and a small single daily dose (group S:15 mg once daily, N=54) of methimazole (MMI) for the treatment of Graves' hyperthyroidism. Within 8 weeks, almost 80% of the patients in both groups became euthyroid. The mean time required to achieve a euthyroid state was 5.6 ± 2.7 weeks in group C and 5.8 ± 3.1 in group S. TSH binding inhibitor immunoglobulin (TBII) levels before therapy were 44.2 ± 22.7% and 47.1 ± 23.9% in group C and group S, respectively. A similar gradual fall in TBII levels was observed in both groups over a two-year period of treatment. MMI doses were gradually reduced to a maintenance dose (5 mg daily) after the patients became euthyroid. The patients were treated for 28 ± 9 months and were followed up after therapy was stopped (observation period in patients who remained in remission was 12-130 (75 ± 34) months and the interval to relapse in reccured cases was 1-98 (20 ± 27) months). The rates of recurrence in group C were 41% at 1 yr, 54% at 2 yrs, 56% at 4 yrs and 61% at 6 yrs. In group S, these were 44%, 53%, 56% and 63%, respectively. No differences between relapse rates were observed with the two different dosage regimens. Adverse effects occurred more frequently in group C patients (24%) than in group S patients (13%). These results show that there is no difference in the clinical and immunological course or in the long-term remission rate of Graves' hyperthyroidism when the treatment is initiated with either a small single daily dose (15 mg) or the conventional regimen (10 mg 3 times daily).
Incidence of Abnormal Liver Biochemical Tests in Hyperthyroidism
Clinical endocrinology, 2017
Abnormal serum liver function tests are common in patients with untreated thyrotoxicosis, even prior to the initiation of antithyroidal medications that may worsen their severity. There is a wide range of the incidence of these abnormalities in the published literature. The aim of this study was to assess the risks factors and threshold of thyrotoxicosis severity for developing an abnormal liver biochemical test upon the diagnosis of new thyrotoxicosis. Single-institution retrospective cohort study. Patients ≥18 years old receiving medical care at a large, academic, urban U.S. medical center between 2002-2016. Inclusion criteria were a serum thyroid stimulating hormone [TSH] concentration < 0.3 mIU/L or ICD-9 code for thyrotoxicosis, with thyrotoxicosis confirmed by either a concurrent elevated serum triiodothyronine (T3) and/or thyroxine (T4) concentration [total or free] within 3 months), and an available liver biochemical test(s) within 6 months of thyrotoxicosis. The biochemi...
Taking all the sideroads of hyperthyroidism therapy: Pitfalls and possibilities
2021
There are three basic modalities for the treatment of thyrotoxicosis: thyrosuppresive drug therapy, ablation with radioactive iodine and surgical treatment. Patients who do not achieve adequate thyrotoxicosis control, as was the case of described patient, have a high mortality rate due to the possibility of developing a thyroid storm. The use of drug therapy for hyperthyroidism, as the first line of treatment, is associated with the appearance of various side effects, as was the case in our patient. Side effects of Methimazole are dose-dependent, while in the case of Propylthiouracil, the occurrence of side effects is not clearly dose-dependent. In the case of the described patient, all alternative, lesser known modalities for the treatment of hyperthyroidism were applied, after the occurrence of adverse reactions to thyrosuppressive therapy. Sodium perchlorate, ie. Sodium with perchloric acid is rarely used in the treatment of hyperthyroidism, as in cases of severe idiosyncratic re...
Effect of long-term continuous methimazole treatment of hyperthyroidism: comparison with radioiodine
European Journal of Endocrinology, 2005
Objective: To investigate the long-term effects of continuous methimazole (MMI) therapy. Design and methods: Five hundred and four patients over 40 years of age with diffuse toxic goiter were treated with MMI for 18 months. Within one year after discontinuation of MMI, hyperthyroidism recurred in 104 patients. They were randomized into 2 groups for continuous antithyroid and radioiodine treatment. Numbers of occurrences of thyroid dysfunction and total costs of management were assessed during 10 years of follow-up. At the end of the study, 26 patients were still on continuous MMI (group 1), and of 41 radioiodine-treated patients (group 2), 16 were euthyroid and 25 became hypothyroid. Serum thyroid and lipid profiles, bone mineral density, and echocardiography data were obtained. Results: There was no significant difference in age, sex, duration of symptoms and thyroid function between the two groups. No serious complications occurred in any of the patients. The cost of treatment was lower in group 1 than in group 2. At the end of 10 years, goiter rate was greater and antithyroperoxidase antibody concentration was higher in group 1 than in group 2. Serum cholesterol and low density lipoprotein-cholesterol concentrations were increased in group 2 as compared with group 1; relative risks were 1.8 (1.12 -2.95, P , 0.02) and 1.6 (1.09 -2.34, P , 0.02) respectively. Bone mineral density and echocardiographic measurements were not different between the two groups. Conclusion: Long-term continuous treatment of hyperthyroidism with MMI is safe. The complications and the expense of the treatment do not exceed those of radioactive iodine therapy.
Clinical Endocrinology, 2004
The present study was to compare the efficacy of a single daily dose of methimazole (MMI) and propylthiouracil (PTU) in the treatment of Graves&amp;amp;amp;#39; hyperthyroidism. Antithyroid drugs, MMI and PTU, are widely used in the treatment of hyperthyroidism. Previous studies in the treatment of hyperthyroidism with a single daily dose of antithyroid drugs have demonstrated a more favourable result with MMI. However, the efficacy of a single daily dose of PTU was inconsistent. In this study, we examined the therapeutic efficacy of single daily doses of MMI and PTU on the change of thyroid hormones and thyrotropin receptor antibodies (TRAb) levels. Thirty patients with newly diagnosed Graves&amp;amp;amp;#39; hyperthyroidism were randomly divided into two groups, each receiving a single dose of either 15 mg MMI or 150 mg PTU daily for 12 weeks. The therapeutic efficacy was determined by serum total triiodothyronine (TT3), total thyroxine (TT4), thyrotropin (TSH), free thyroxine (FT4), and TRAb levels at baseline and at the end of 4, 8 and 12 weeks during the study period. There was no significant difference in baseline thyroid function parameters. Serum TT3, TT4 and FT4 levels in the MMI-treated group were significantly lower than those of the PTU-treated group after 4 weeks and through the end of the study. MMI also has superior effect on reducing serum TRAb levels than PTU after 8 weeks and at the end of the study. During the 12-week treatment of Graves&amp;amp;amp;#39; hyperthyroidism, a single daily dose of 15 mg MMI was much more effective in the induction of euthyroidism than a single daily dose of 150 mg PTU. In the doses used in this study, MMI is preferable to PTU when a once-daily regimen of antithyroid drug is considered for the treatment of Graves&amp;amp;amp;#39; hyperthyroidism.
Failure of Radioactive Iodine in the Treatment of Hyperthyroidism
Annals of Surgical Oncology, 2014
Introduction-Persistent or recurrent hyperthyroidism after treatment with radioactive iodine (RAI) is common, and many patients require either additional doses or surgery before they are cured. The purpose of this study was to identify patterns and predictors of failure of RAI in patients with hyperthyroidism. Methods-We conducted a retrospective review of patients treated with RAI from 2007-2010. Failure of RAI was defined as receipt of additional dose(s) and/or total thyroidectomy. Using a Cox proportional hazards model, we conducted univariate analysis to identify factors associated with failure of RAI. A final multivariate model was then constructed with significant (p < 0.05) variables from the univariate analysis. Results-Of the 325 patients analyzed, 74 patients (22.8%) failed initial RAI treatment. 53 (71.6%) received additional RAI, 13 (17.6%) received additional RAI followed by surgery, and the remaining 8 (10.8%) were cured after thyroidectomy. The percentage of patients who failed decreased in a step-wise fashion as RAI dose increased. Similarly, the incidence of failure increased as the presenting T3 level increased. Sensitivity analysis revealed that RAI doses < 12.5 mCi were associated with failure while initial T3 and free T4 levels of at least 4.5 pg/mL and 2.3 ng/dL, respectively, were associated with failure. In the final multivariate analysis, higher T4 (HR 1.13, 95% CI 1.02-1.26, p=0.02) and methimazole treatment (HR 2.55, 95% CI 1.22-5.33, p=0.01) were associated with failure. Conclusions-Laboratory values at presentation can predict which patients with hyperthyroidism are at risk for failing RAI treatment. Higher doses of RAI or surgical referral may prevent the need for repeat RAI in selected patients.
European Journal of Endocrinology, 2003
Objective: Retrospective studies have indicated that anti-thyroid drugs (ATD) might possess a radioprotective effect, leading to a higher rate of recurrence of hyperthyroidism after iodine-131 ( 131 I) therapy. Design: A randomized clinical trial was performed to clarify whether resumption of methimazole after 131 I influences the final outcome of this treatment. Methods: We assigned 149 patients with Graves' disease or a toxic nodular goitre to groups either to resume (þATD) or not to resume (2ATD) methimazole 7 days after 131 I. Before 131 I therapy, all patients were rendered euthyroid by methimazole, which was discontinued 4 days before the 131 I therapy.