<b><i>Objective:</i></b> Endogenous subclinical hyperthyroidism (eSCH) is defined by subnormal serum thyroid-stimulating hormone (TSH) level. There is limited evidence of metabolic changes induced by eSCH. The aim of our work was to evaluate changes in BMI and lipid parameters after radioiodine treatment in patients with grade 1 (TSH: 0.1–0.39 mlU/L) and 2 (TSH <0.1 mlU/L) eSCH. <b><i>Design:</i></b> A retrospective study was performed on 74 patients with eSCH caused by benign autonomous nodular goiter which was treated with radioiodine. <b><i>Methods:</i></b> We assessed BMI, lipids parameters, and TSH after radioiodine therapy. The 12-month follow-up time point was used to compare the primary outcome variables. TSH was measured by the electrochemiluminescence method. <b><i>Results:</i></b> After radioiodine therapy, the absolute and relative increases in BMI at 12 months were significantly higher in the grade 2 group than in the grade 1 group (1.07 ± 0.27 kg/m<sup>2</sup> vs. 0.26 ± 0.15 kg/m<sup>2</sup>, respectively; <i>p</i> = 0.023 and 4.01 ± 0.98% vs. 1.01 ± 0.56%, respectively; <i>p</i> = 0.026). Compared to baseline, significant increases in the levels of total cholesterol and LDL were observed after treatment in the grade 2 eSCH group (16.7 ± 4.5 mg/dL <i>p</i> < 0.01 and 14.3 ± 4.1 mg/dL <i>p</i> < 0.01, respectively) but not in the grade 1 group. In a multivariate model, a negative correlation was observed between pretreatment TSH levels and absolute BMI gain (<i>p</i> < 0.01). <b><i>Conclusions:</i></b> After correction of eSCH, increases in BMI and LDL levels were observed only in patients with grade 2 eSCH. Pretreatment serum TSH was the main independent factor associated with BMI changes after radioiodine treatment.
Ninety five patients with Graves' disease were studied before and at three months intervals after antithyroid drugs (ATD) (31 cases) or radioiodine (64 cases) therapy until recovery. Before treatment, the T4 maxima binding capacity of TBPA was significantly decreased 253.5 +/- 11.4 mug/100 ml)(mean + se) (control values: 287 +/- 10.4 mug/100 ml) (alpha = 0.04), especially in 53.7% of patients (m = 177 +/- 8 mug/100 ml). The mean of TBG (m = 20.7 +/- 0.9 mug/100 ml) was not different from euthyroid subjects (m = 19.7 +/- 1.7 mug/100 ml) except in 51.2% of patients who had a low TBG (m = 14.3 +/- 1.1 mug/100 ml). An inverse linear correlation was found between TBG-DFT4 (alpha = 0.05) and DF T 3 (alpha = 0.002), TBPA-log DF T4 (alpha = 0.05) but not between TBG and TBPA. The physiological relationship between DFT3, DFT4, TT3, TBG and TBPA was studied in vitro; after adding increased quantities of T4 to a pool of sera collected from eu, hypo or hyperthyroid patients, DFT4, DFT3, FT3 index increased in linear positive relationship with TT4 concentrations, the kinetic of this phenomena was inversely correlated with T4 maximal binding capacity of TBG or TBPA for T4. Addition of T3 to the same sera did not show any effect on the previous parameters. DFT3 depended on the level of T4 in serum more than T3 concentration and was in inverse relationship with the maximal binding capacity of TBG. This data might explain the paradoxal normal or slightly increased values of DFT3 found in T3 thyrotoxicosis. In patients treated with ATD or radioiodine, TBPA but not TBG increased significantly on year after. However, in subjects with an initial very low TGB or TBPA, this phenomenon occurred on the third month after radioiodine or ATD. During the same period, DF T4 and DF T3 were inversely correlated to TBG and TBPA. In conclusion, important changes in T4 binding proteins and free fractions of thyroid hormones were observed in Graves' disease but were corrected by antithyroid therapy. All these data were in good agreement with the normalisation of thyroid function.
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