Free Thyroxine Concentrations in Sera of Individuals with Familial Dysalbuminemic Hyperthyroxinemia: A Comparison of Three Methods of Measurement.

Background: Euthyroid individuals with familial dysalbuminemic hyperthyroxinemia (FDH) have often falsely elevated serum free thyroxine (fT4) concentrations determined by different automated immunoassays. Methods: We measured serum fT4 using direct dialysis coupled with tandem mass spectrometry (fT4 DDMS) in individuals with the common albumin gene mutation (ALB R218H) from 14 FDH families and compared them with results obtained by direct immunometric assay (fT4 DIMM) and free thyroxine index (fT4I). Results: While all 14 individuals with FDH had elevated total serum T4, the fT4 measured by DIMM was elevated in 12, by fT4I in 5, and by DDMS in 1. Conclusion: The latter method greatly reduced the discordance of fT4 results relative to thyrotropin in FDH.

Reduced Sensitivity to Thyroid Hormone as a Transgenerational Epigenetic Marker Transmitted Along the Human Male Line.

Background: Evidence for transgenerational epigenetic inheritance in humans is still controversial, given the requirement to demonstrate persistence of the phenotype across three generations. A previous study showed that exposure of human and mouse embryos to high maternal thyroid hormone (TH) concentrations not only affects the newborns but also subsequently reduces thyrotroph sensitivity to TH during adult life. The current investigation set out to determine if this epigenetic effect is transmitted by humans not exposed in utero to high TH levels to their offspring. Methods: The study took advantage of the high frequency of intrauterine exposure to high TH in the Azorean wild-type population born to healthy mothers with high TH levels because of a heterozygous TH receptor beta gene mutation. Wild-type individuals from F2 (second) and F3 (third) generations were studied, whose parents and grandparents, respectively, were not exposed to high maternal TH levels. Twenty-six individuals belonging to 17 nuclear families were tested for their sensitivity to TH using their thyrotropin (TSH) response to thyrotropin-releasing hormone (TRH) after administration of liothyronine (LT3). Results: Preservation of reduced sensitivity to TH (RSTH) was found in descendants of males but not of females with likewise RSTH. In F2, offspring of fathers but not of mothers exposed to high TH levels had RSTH (TRH-stimulated TSH of 6.39 ± 0.63 vs 1.58 ± 0.41 mIU/L [p < 0.001], respectively, after treatment with LT3). In F3, whose parents nor themselves were exposed to TH excess during their fetal life, descendants of fathers and not mothers had RSTH (TRH-stimulated TSH of 4.60 ± 0.61 vs 1.37 ± 0.23 mIU/L [p < 0.01], respectively, after pretreatment with LT3). Conclusions: Since intrauterine total body and gonadal exposure to elevated TH can potentially affect only the F1 and F2, respectively, the results obtained from F3 confirm a true inheritance of an epigenetic effect, scarcely observed in humans. While the exact mechanism underlying the inheritance of this epigenetic effect remains unknown, it correlates with type 3 deiodinase overexpression demonstrated in pituitary glands of mice born to dams with high TH. This enzyme inactivates TH, and is encoded by an imprinted gene with specific parent of origin expression.

Diagnostic Dilemma in Discordant Thyroid Function Tests Due to Thyroid Hormone Autoantibodies.

OBJECTIVE: Assay interference could be the cause of abnormal thyroid function tests. Early recognition prevents inappropriate patient management. The objective of this report is to present a case with discordant thyroid function tests in different thyroid assay platforms due to thyroid autoantibodies. METHODS: We present a case her family, laboratory data and methods that investigate immunoassay interference. RESULTS: A 21-year-old woman with autoimmune thyroid disease was treated for hypothyroidism with levothyroxine and noted to have elevated total and free thyroxine, free triiodothyronine but normal thyroid-stimulating hormone. Repeat thyroid function tests using different platforms revealed discrepant results. Further investigation showed that the patient had positive thyroid hormone autoantibodies (THAAbs). CONCLUSION: We demonstrates abnormal thyroid function tests caused by THAAbs. The latter were the cause of interference with assays resulting in discrepant test results inconsistent with the clinical presentation. Early recognition would prevent inappropriate patient management.

Autosomal dominant resistance to thyrotropin as a distinct entity in five multigenerational kindreds: clinical characterization and exclusion of candidate loci.

CONTEXT: Resistance to TSH (RTSH) is an inherited disorder of variable hyposensitivity to TSH. The metabolic consequences can range from euthyroid hyperthyrotropinemia to severe congenital hypothyroidism with thyroid hypoplasia. Although subclinical and mild hypothyroidism fitting the RTSH phenotype is common in the population, the role of genetic factors is far from being understood. Only in rare cases has RTSH been attributed to TSHR or PAX8 gene mutations. OBJECTIVE, SETTING, AND PARTICIPANTS: Toward the identification of novel RTSH genes, we studied five large, unrelated families comprising 102 individuals, 56 of whom were affected. RESULTS: Inheritance of RTSH in these families followed an autosomal dominant pattern without evidence for incomplete penetrance, yet expressivity was variable. Considering only fully phenotyped generations, 64% of the progeny was affected, with a 1:1.4 male-to-female ratio. Of 18 affected individuals tested in the neonatal period, two were undetected because of borderline results. The thyroid phenotype was indistinguishable from that observed with PAX8 and TSHR defects. In four families, untreated affected subjects of all ages had elevated serum thyroglobulin levels, consistent with a defect in the thyroid follicle cells. Linkage of RTSH to TSHR and PAX8 was excluded in all five families. For the largest families, we likewise excluded a contribution of genes previously only associated with syndromic forms of RTSH, namely TITF1, GNAS, and FOXE1. CONCLUSIONS: These kindreds represent a distinct etiological entity of autosomal dominant RTSH. According to the clinical presentation of these families, genetic causes of mild hyperthyrotropinemia in the general population may be more common than currently appreciated.

Four new cases of congenital secondary hypothyroidism due to a splice site mutation in the thyrotropin-beta gene: phenotypic variability and founder effect.

Isolated TSH deficiency is a rare cause of congenital hypothyroidism. We here report four children from two consanguineous Turkish families with isolated TSH deficiency. Affected children who were screened at newborn age had an unremarkable TSH result and a low serum TSH level at diagnosis. Age at diagnosis and clinical phenotype were variable. All affected children carried an identical homozygous splice site mutation (IVS2 + 5 G--> A) in the TSHbeta gene. This mutation leads to skipping of exon 2 and a loss of the translational start codon without ability to produce a TSH-like protein. However, using specific monoclonal antibodies, we detected a very low concentration of authentic, heterodimeric TSH in serum, indicating the production of a small amount of correctly spliced TSH mRNA. By genotyping all family members with polymorphic markers at the TSHbeta locus, we show that the mutation arose on a common ancestral haplotype in three unrelated Turkish families indicating a founder mutation in the Turkish population. These results suggest that this TSHbeta mutation is among the more common TSHbeta gene mutations and stress the need for a biochemical and molecular genetic workup in children with symptoms suggestive of congenital hypothyroidism, even when the neonatal TSH screening is normal.

A novel, ultrarapid parathyroid hormone assay to distinguish parathyroid from nonparathyroid tissue.

BACKGROUND: Frozen section is the gold standard for distinguishing parathyroid tissue from lymph nodes, thyroid nodules, or fat during parathyroidectomy and thyroidectomy. Although a very accurate procedure, it can be time-consuming and costly. We hypothesize that the extremely high concentrations of parathyroid hormone (PTH) in parathyroid tissue allow for modification of a standard PTH assay that would distinguish parathyroid from nonparathyroid tissue in substantially less time than frozen section or any currently available PTH assay. METHODS: A prospective, single-institution study using a modified PTH assay protocol and a manual luminometer was undertaken by testing 20 parathyroid adenomas and 9 control tissues. Analyses were performed simultaneously by the modified PTH protocol and the conventional intraoperative PTH assay. RESULTS: PTH luminescence values from parathyroid tissue and control tissue aspirates were significantly different at 60 seconds (P = .015). ROC curve analysis showed the assay to be 100% sensitive and 100% specific in differentiating parathyroid from nonparathyroid tissue. CONCLUSION: Our novel PTH assay accurately and reliably differentiates parathyroid from nonparathyroid tissue within 60 seconds of measurement onset. This assay provides a great advantage in time savings compared with frozen section as well as any currently existing PTH assays.