Case report. Kocher-Debre-Semelaigne syndrome with pericardial effusion.
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We report a 10-year-old female child with hypothyroidism and limb muscle pseudohypertrophy (i.e. Kocher-Debre-Semelaigne syndrome) with pericardial effusion. The child presented with generalized swelling, breathlessness and difficulty in walking and in getting up from sitting position (of chronic duration). She had bradycardia, dull facies, marked hypertrophy of both calf muscles and nonpitting edema of legs. Pericardial effusion was detected clinically and confirmed on investigations. Muscle pseudohypertrophy was a striking feature and hypothyroidism was confirmed on thyroid studies. The response to thyroxine replacement was excellent, with resolution of the pericardial effusion and clinical improvement. The unusual presence of pericardial effusion in Kocher-Debre-Semelaigne syndrome is discussed in the report. (+info)
Recurrence of the p.R277X/p.R1511X compound heterozygous mutation in the thyroglobulin gene in unrelated families with congenital goiter and hypothyroidism: haplotype analysis using intragenic thyroglobulin polymorphisms.
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Thyroglobulin (TG) functions as the matrix for thyroid hormone synthesis. Thirty-five different loss-of-function mutations in the TG gene have been reported. These mutations are transmitted in an autosomal recessive mode. The objective of this study is to analyze the recurrence of the p.R277X/p.R1511X compound heterozygous mutation in the TG gene in two unrelated families (one Argentinian and another Brazilian) with congenital hypothyroidism, goiter and impairment of TG synthesis. The first and last exon of the TG gene, the exons where previously mutations and single nucleotide polymorphisms (SNPs) were detected, as well as the TG promoter, were analyzed by automatic sequencing in one affected member of the each family. Four microsatellite markers localized in introns 10, 27, 29 and 30 of the TG gene, one insertion/deletion intragenic polymorphism and 15 exonic SNPs were used for haplotype analysis. A p.R277X/p.R1511 compound heterozygous mutation in the TG gene was found in two members of an Argentinian family. The same mutations had been also reported previously in two members of a Brazilian family. We constructed mutation-associated haplotypes by genotyping members of the two families. Our results suggest that the cosegregating haplotype is different in each one of these families. Different haplotypes segregated with the p.R277X and p.R1511 mutations demonstrating the absence of a founder effect for these mutations between Argentinian and Brazilian populations. However, haplotyping of Argentinian patients showed the possibility that the p.R277X alleles might be derived from a common ancestral chromosome. (+info)
Successful intrauterine therapy for fetal goitrous hypothyroidism during late gestation.
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We experienced a case of fetal goitrous hypothyroidism in an infant delivered by a 33-year-old woman receiving 300 mg/day of propylthiouracil (PTU) for hyperthyroidism due to Graves' disease. A large fetal goiter (maximum diameter, 60 mm) was detected by magnetic resonance imaging (MRI) at 36 weeks of gestation. Initial fetal blood sampling revealed hypothyroidism with a serum thyroid-stimulating hormone (TSH) of 99 microIU/mL, free triiodothyronine (T(3)) of 1.97 pg/mL, and free thyroxine (T(4)) of 0.29 ng/dL. Consequently, a diagnosis of fetal goitrous hypothyroidism due to transplacental passage of maternal PTU was made. To reduce the risk of perinatal complications, 300 microg of levothyroxine sodium (L-T(4)) was administered into the maternal amniotic fluid twice between 37 and 38 weeks of gestation. Subsequent fetal MRI showed that the size of goiter had decreased. At 38 weeks and 5 days of gestation, a 3042-g male infant was born by cesarean section. There were no severe complications at delivery, although mild tachypnea was observed and the infant's thyroid gland was slightly enlarged. He was treated with L-T(4) for two weeks. At present, his growth and neurological development are normal. This case indicates that intrauterine therapy by the intraamniotic administration of L-T(4) can be effective in treating fetal goitrous hypothyroidism even during late gestation. (+info)
A Japanese patient of congenital hypothyroidism with cerebellar atrophy.
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We encountered a Japanese patient of congenital hypothyroidism with severe cerebellum atrophy. The boy was born after 40 weeks of gestation by normal vaginal delivery from nonconsanguineous parents. There were no abnormal physical findings; however neonatal mass screening for congenital hypothyroidism at 5 days of age demonstrated elevated thyrotropin (TSH) level (15.5 microU/ml, normal range 0.54-10.0 microU/ml). He was suspected to have subclinical or mild congenital hypothyroidism (CH). Thus he was treated with L-thyroxine using a regimen that rendered his serum TSH concentration within normal range from 27 days of age. Despite early and adequate treatment, he showed signs of global developmental delay and became gradually hypotonic and exhibited a staggering gait at 3 years of age. Brain magnetic resonance imaging (MRI) demonstrated marked cerebellar atrophy with an intact brainstem. Thyroidal uptake of radioiodide and thyroid gland size were normal, indicating a functional defect only. The relation between congenital hypothyroidism and severe cerebellar atrophy in our patient is not clear. As only a few cases of the combination of CH and cerebellar anomalies have been described previously, cerebellar symptoms in CH should be examined carefully. (+info)
Hypothyroidism in children: diagnosis and treatment.
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OBJECTIVE: To present relevant and updated information on the status of hypothyroidism in the pediatric population (newborn infants to adolescents). SOURCES: Original and review articles and books containing relevant updated data. SUMMARY OF THE FINDINGS: This review addressed data on the etiopathogeny of hypothyroidism and on the importance of screening for congenital hypothyroidism to assure early diagnosis and treatment of the newborn. We point out the difficulties experienced in the handling of subclinical hypothyroidism; we also address the importance of diagnosing autoimmune Hashimoto's thyroiditis, the high incidence of the disease among adolescents, mainly females, and the occurrence of a severe neurological condition, Hashimoto's encephalopathy. We indicate situations in which severe hypothyroidism may lead to puberty disorders (precocious or delayed puberty) and describe the importance of transcription factors in thyroid embryogenesis. Diagnostic and therapeutic criteria are also addressed. CONCLUSION: Thyroid hormones are necessary for normal growth and development since fetal life. Insufficient production or inadequate activity on the cellular or molecular level lead to hypothyroidism. These hormones are necessary for the development of the brain in the fetus and in the newborn infant. Neonatologists and pediatricians deal with child development issues in their practice, and many of these issues start during intrauterine life. Currently, with neonatal screening, neonatologists and pediatricians can prevent irreversible damage through early treatment. They should also be alert for dysfunctions such as subclinical hypothyroidism and Hashimoto's thyroiditis, which may provoke damage not only to growth, but also to the neurological and psychological development of these children and adolescents. (+info)
Biallelic inactivation of the dual oxidase maturation factor 2 (DUOXA2) gene as a novel cause of congenital hypothyroidism.
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CONTEXT: Dual oxidase 2 (DUOX2) is the catalytic core of the H(2)O(2) generator crucial for the iodination of thyroglobulin in thyroid hormone synthesis. DUOX2 deficiency produces congenital hypothyroidism (CH) in humans and mice. We recently cloned a novel gene, the product of which (dual oxidase maturation factor 2; DUOXA2) is required to express DUOX2 enzymatic activity. OBJECTIVE: Our objective was to identify DUOXA2 mutations as a novel cause of CH due to dyshormonogenesis. PATIENTS: Subjects included 11 CH patients with partial iodine organification defect but negative for other known genetic causes of partial iodine organification defect. RESULTS: One Chinese patient born to nonconsanguineous parents was homozygous for a nonsense mutation (p.Y246X), producing a truncated DUOXA2 protein lacking transmembrane helix 5 and the C-terminal cytoplasmic domain. The mutant protein was inactive in reconstituting DUOX2 in vitro. Pedigree analysis demonstrated recessive inheritance, because heterozygous carriers had normal thyroid function including negative results in neonatal TSH screening. One heterozygous carrier of Y246X was identified in unrelated Chinese controls (n = 92) but not in Caucasian or Japanese controls, indicating that homozygosity for Y246X could be a frequent cause of CH in Chinese. Functional studies suggest that the DUOXA2 paralog (DUOXA1) can partially compensate DUOXA2 deficiency, consistent with the proband having a milder CH phenotype than patients with biallelic DUOX2 nonsense mutations. CONCLUSIONS: We report the first mutation in DUOXA2, identified in a patient with CH and dyshormonogenic goiter. Results of our studies provide evidence for the critical role of DUOXA2 in thyroid hormonogenesis. Biallelic DUOXA2 mutations are a novel genetic event in permanent CH. (+info)
Testicular development in growth-retarded mice.
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To assess delayed fertility in male growth-retarded (grt) mice with congenital primary hypothyroidism, their testes were chronologically examined. The testicular weight in grt mice was significantly lower than age-matched normal mice until 8 weeks but was comparable at 13 and 26 weeks. While normal mice had mature sperm cells in both testes and epididymides at 5 weeks, age-matched grt mice did not. The size of the seminiferous tubules in testes of grt mice was smaller than that of normal mice before 13 weeks but was comparable at 26 weeks. These findings suggest that male grt mice might need more than 13 weeks to develop mature testes. (+info)
Blocking type immunoglobulins in patients with nongoitrous primary hypothyroidism in area of iodine deficiency.
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We have evaluated the role of circulating serum immunoglobulins (IgG) which inhibit the growth of thyroid in the etiology of thyroid atrophy in endemic cretinism. Twenty nongoitrous cretins (13 women and 7 men, age range: 9-33) were classified on the basis of clinical criteria for cretinism in China. They were born and living in an iodine deficient area, Xinjiang, northwest China. Antimicrosomal antibody titers were negative in all serum. Nine patients (seven women and two men; age range: 11-23) were biologically primary hypothyroid. Seven subjects were of a myxedematous form and two subjects were of a mixed form. We have studied thyroid-growth inhibiting immunoglobulin (TGII) activity that was measured as an inhibitory effect of 4 mg/ml IgG on TSH-induced [3H]-thymidine incorporation into the DNA of a rat thyroid follicular cell line, FRTL5 cells. Six (five women and one man) out of the nine patients with primary hypothyroidism (66.7 percent) had TGII. We also measured other growth-blocking IgG that inhibited [3H]-thymidine incorporation into DNA stimulated by insulin-like growth factor-I (IGF-I), a growth factor working through a cAMP-independent pathway. Five (three women and two men) out of nine patients (55.6 percent) with nongoitrous primary hypothyroidism had IGF-I-blocking IgG. These results indicate that TGII plays an important role in atrophy of the thyroid in spite of increased serum TSH concentrations, and IgG which inhibits thyroid growth stimulated by IGF-I also might play a role in thyroid atrophy in some endemic cretins.(ABSTRACT TRUNCATED AT 250 WORDS) (+info)