Subacute thyroiditis may trigger autoreactive B cells to produce TSH receptor antibodies, resulting in TSH receptor antibody-associated thyroid dysfunction in some patients.
To investigate the effect of maternal iodine therapy for Graves' disease on fetal thyroid, we examined serum free T4 (FT4) and TSH levels in the fetus vs. those in the mother. Patients who were severely thyrotoxic were not included. Cord and maternal sera were tested at delivery in 35 patients with Graves' disease treated with iodine alone during pregnancy (6-40 mg daily). At the initiation of therapy, the mothers were at 11-37 weeks gestation, and FT4 levels ranged from 28.3-65.8 pmol/L. At delivery, maternal FT4 values ranged from 9.3-42.0 pmol/L, slightly above normal in 22 of the 35 mothers and normal in the other 13. Fetal FT4 levels were above the normal range occurred significantly less often than maternal levels (2 in 35; P less than 0.001), and no fetus had FT4 below normal. In the 13 mothers with normal FT4 levels, all fetal FT4 levels were normal; the fetal TSH level was above normal in 1 and normal in the remainder. A significant correlation was found between cord and maternal FT4 levels (P less than 0.05). In 12 of the 35 mothers, FT4 levels rose after a transient fall during iodine administration. The correlation of cord FT4 and maternal FT4 was closer when these 12 cases were excluded (P less than 0.001). Neither the dose of iodine nor the duration of therapy correlated with thyroid function in fetuses or mothers. Fetal TSH binding inhibitory antibody values strongly correlated with maternal TSH binding inhibitory antibody values (P less than 0.001). These findings indicate that 1) in the treatment of hyperthyroidism due to Graves' disease, iodine seldom if ever exposes the fetus to the risk of hypothyroidism; 2) the fetal thyroid is influenced by the same stimulatory and inhibitory factors as the maternal thyroid; and 3) escape from the inhibitory effects of iodine occurs less often in fetuses than in mothers, which may account at least in part for the lower thyroid status in the fetus compared to that in the mother.
We evaluated the determination of serum G-CSF in the diagnosis of granulocytopenia due to methimazole (MMI) in 54 patients with Graves' disease, while they were being treated with MMI, by way of measuring WBC counts and serum levels of G-CSF, thyroid hormones, IgE, and interleukin-2. Serum TSH was measured by immunoradiometric assay, serum G-CSF was done by enzyme immunoassay, thyroid hormones and IgE were done by radioimmunoassay, and serum Interleukin-2 was done by enzyme-linked immunosorbent assay. The population whose G-CSF levels were higher than the minimum detectable level (30pg/ml) was 6 (30%) in normal subjects, 4 (22%) in patients with untreated Graves' disease, 2 (12%) in patients with treated euthyroid Graves' disease, 3 (23%) in patients with Graves' disease who had gone through agranulocytosis, and 2 (33%) in patients with Graves' disease complicated with granulocytopenia. There was no significant change in WBC counts for 4 weeks, but there was a significant difference between WBC counts before treatment and those at 8 weeks after treatment. We observed no significant change of serum G-CSF levels in patients with Graves' disease under treatment. However, there were significantly high levels of serum G-CSF and significantly low counts of WBC in patients with Graves' disease complicated with granulocytopenia induced by MMI, compared with those in normal subjects, patients with untreated Graves' disease, patients with treated euthyroid Graves' disease, and patients with euthyroid Graves' disease who had gone through agranulocytosis.(ABSTRACT TRUNCATED AT 250 WORDS)
In this paper, we report on a 40-year-old female with subacute thyroiditis (SAT) who showed high levels of TSH-binding inhibitory immunoglobulins (TBII) and thyroid-stimulation blocking antibodies (TSBAb) from the early stage of the disease. Thyrotoxicosis continued for 2 months and it was subsequently followed by severe hypothyroidism. Levothyroxine was then started. At that time, both TBII and TSBAb were still positive, but they disappeared 6 months later and she remained euthyroid thereafter without treatment. When she was in a thyrotoxic phase and had a suppressed TSH level, her 24-hour radioiodine uptake was not suppressed (11%), and thyroid scan showed partial suppression of uptake in the right lobe. These observations indicate that the presence of TSH receptor antibodies (TRAb) may have modified the changes in thyroid state and the course of SAT.
Thyroid function has been almost exactly evaluated by the measurement of serum free thyroxine (FT4), free triiodothyronine (FT3) and thyrotropin (TSH) concentrations. However, we occasionally experience patients who show a discrepancy between free thyroid hormones and TSH values, and the assessment of thyroid function in such cases is extremely difficult. Thyroid hormone autoantibodies (THAA) interfere with radioimmunoassay (RIA) of FT4 and FT3 by giving inappropriate values. To investigate the incidence of THAA, immune precipitation of patients' sera after incubation with labelled T4 (125I-T4) or T3 (125I-T3) analog tracer was done in 394 patients with thyroid diseases. 9 patients (2.3%) showed an increased binding of 125I-T4 or 125I-T3 analog. Heterophilic antimouse antibodies in a patient's serum (human antimouse immunoglobulin antibodies: HAMA) can interfere in two-site immunometric assays (IMA) using mouse monoclonal antibodies and result in spuriously increased serum TSH concentrations. Manufacturers now customarily add nonspecific mouse immunoglobulins into their assay kits to absorb HAMA and prevent such interference. This approach may not always be enough to prevent HAMA interference in all samples. In 14 thyrotoxic patients with inappropriately high TSH measured by an IMA kit, we measured the levels of TSH by the further addition of mouse serum into this kit. Their serum TSH levels were fully suppressed except for 2 patients with a syndrome of inappropriate secretion of TSH (SITSH). The presence of abnormal albumin in the serum also interferes with RIA of FT4 and FT3. We experienced a female case of Graves' disease treated with methimazole who showed an inappropriately high serum FT3 measured by an analog tracer RIA kit, whose serum FT4, FT3 and TSH were 1.31 ng/dl, 19.3 pg/ml and 1.9 mu U/ml respectively. Although the anti-T3 autoantibody was considered to be present initially, immune precipitation of her serum with 125I-T3 analog tracer gave a negative result. In order to elucidate this finding, Sephadex-G200 chromatography of her serum after incubation with 125I-T3 analog tracer was done. Radioactivity of her serum in albumin fraction was significantly higher than that of normal control serum to indicate the presence of abnormal albumin in the serum. In conclusion, to assess the thyroid function of a patient with a discrepancy between free thyroid hormones and TSH values, it is important to consider the presence of THAA, HAMA, or rarely, an abnormal albumin.
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