Thyroid hemiagenesis prevalence was studied by neck ultrasound examination in 24,032 unselected 11- to 14-yr-old schoolchildren from southeastern Sicily. Twelve cases of thyroid hemiagenesis were identified, with a prevalence of 0.05%. The female to male ratio was 1:1.4. Thyroid hemiagenesis was always due to the absence (11 cases) or severe hypoplasia (1 case) of the left lobe. The hemiagenetic thyroid volume was within the normal total thyroid volume range normalized to age in 4 of 12 cases, enlarged in 3, and significantly reduced in 5. Thyroid function (thyroid hormones and TSH, both basal and 30 min after administration of 200 micro g TRH, iv) was evaluated in 9 of 12 children and was always within the normal range. However, children with thyroid hemiagenesis had an average serum TSH significantly higher than that of 18 matched controls (2.8 +/- 0.6 vs. 1.9 +/- 0.5 mU/liter; P < 0.001). This study confirms that thyroid hemiagenesis is nearly always due to left lobe defect, and that its prevalence is similar to the cumulative prevalence of thyroid agenesis and ectopia. Compensatory hypertrophy of the residual thyroid lobe occurs in most, but not all, cases and is due to thyroid tissue overstimulation by TSH. The high risk of goiter and hypothyroidism suggests systematic follow-up of all identified cases of thyroid hemiagenesis.
The frequency of thyroid disorders in our series of acromegalic subjects was similar to that previously observed in these patients. However, the prevalence of thyroid cancer was not only strikingly elevated (5.6%) in comparison to the estimated prevalence in the general population (0.093%), but it was even higher than that reported for acromegalic subjects. Sustained exposure to high serum IGF-1 levels is likely to play a role in the development of thyroid cancer in this disease. An additive role for the autocrine/paracrine action of locally produced IGF-1 is also possible. Our results suggest that thyroid function and morphology should be carefully monitored in all acromegalic patients.
Newborns with high TSH at birth and with normal free T(4) and normal or slightly elevated TSH at the confirmatory examination are considered false positive for congenital hypothyroidism. We evaluated thyroid function, thyroid antibodies, thyroid volume and morphology, thyroperoxidase and TSH receptor genes, and auxological data in 56 false positive children at 16-44 months of age. In these children thyroid function at confirmatory examination was fully normal in 33 (TSH, 0.8-4.9 mU/liter; group I) and nearly normal (borderline elevated TSH, 5.0-11.7 mU/liter) in the other 23 (group II). Compared with 65 control children with normal TSH at birth, false positive children had significantly higher basal serum TSH (mean +/- SD, 4.38 +/- 2.2 vs. 1.4 +/- 0.8 mU/liter; P < 0.01). Subclinical hypothyroidism, indicated by increased basal TSH and/or increased TSH response to TRH, was present in 36% children in group I and 70% in group II. Free T(4) was within the normal range in all children. Compared with the control group, false positive children had significantly higher free T(3) values (4.9 +/- 0.8 vs. 3.7 +/- 1.0 pmol/liter; P < 0.01) and a higher prevalence of antithyroid antibodies (25% vs. 1.5%; P < 0.001). Frequent thyroid morphology abnormalities and frequent thyroperoxidase and TSH receptor gene sequence variations were also observed. In conclusion, newborns classified false positive at congenital hypothyroidism screening have a very high risk of subclinical hypothyroidism in infancy and early childhood.
This prospective longitudinal study confirms that newborns "false positive" at neonatal screening have a high risk to develop persistent subclinical hypothyroidism. The prevalence of hypothyroidism decreases with increasing age, but it is still high (>30%) in late childhood. Even those "false positive" children that maintain euthyroidism in late childhood have an average TSH value that, although within the normal range, is higher than in normal controls, a possible marker of minor congenital thyroid function abnormalities.
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