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Query: UMLS:C0025362 (mental retardation)
 15,878 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The development of radioimmunoassays over the past 20 years has expanded our knowledge of thyroid physiology and improved our management of thyroid disease. The use of these tools in neonatal screening for congenital hypothyroidism alone has reduced the incidence of mental retardation in the industrialized world. Based on an accurate physical examination, the judicious use of immunoassays for thyroxine, triiodothyronine, and thyrotropin and the use of thyroglobulin and thyroid microsomal antibodies will allow the general physician to confidently delineate common thyroid disorders in the great majority of patients. The additional use of an ultrasensitive thyrotropin assay, thyroid scans, and fine-needle aspiration biopsy will complete the accurate diagnosis of the great majority of thyroid diseases. The ultrasensitive thyrotropin assay may become the universal thyroid function test. The major pitfalls in the use of these tests lies in the variable effect chronic illness has on the most frequently used tests: thyroxine and triiodothyronine. Tests for these thyroid hormones, which in the relatively well outpatient are highly accurate, may in the ill, hospitalized patient become very misleading.
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PMID:Interpretation of thyroid function tests. 267 Apr 94

Congenital hypothyroidism is a common preventable cause of mental retardation. The overall incidence is approximately 1:4000; females are affected about twice as often as males. Approximately 85% of cases are sporadic, while 15% are hereditary. The most common sporadic etiology is thyroid dysgenesis, with ectopic glands more common than aplasia or hypoplasia. While the pathogenesis of dysgenesis is largely unknown, some cases are now discovered to be the result of mutations in the transcription factors PAX-8 and TTF-2. Loss of function mutations in the thyrotropin (TSH) receptor have been demonstrated to cause some familial forms of athyreosis. The most common hereditary etiology is the inborn errors of thyroxine (T4) synthesis. Recent mutations have been described in the genes coding for the sodium/iodide symporter, thyroid peroxidase (TPO), and thyroglobulin. Transplacental passage of a maternal thyrotropin receptor blocking antibody (TRB-Ab) causes a transient form of familial congenital hypothyroidism. The vast majority of infants are now diagnosed after detection through newborn screening programs using a primary T4-backup TSH or primary TSH test. Screening test results must be confirmed by serum thyroid function tests. Thyroid scintigraphy, using 99mTc or 123I, is the most accurate diagnostic test to detect thyroid dysgenesis or one of the inborn errors of T4 synthesis. Thyroid sonography is nearly as accurate, but it may miss some cases of ectopic glands. If maternal antibody-mediated hypothyroidism is suspected, measurement of maternal and/or neonatal TRB-Ab will confirm the diagnosis. The goals of treatment are to raise the serum T4 as rapidly as possible into the normal range, adjust the levothyroxine dose with growth to keep the serum T4 (or free T4) in the upper half of the normal range and the TSH normal, and maintain normal growth and development while avoiding overtreatment. An initial starting dose of 10-15 microg/kg per day is recommended; this dose will decrease on a weight basis over time. Serum T4 (or free T4) and TSH should be monitored every 1-2 months in the first year of life and every 2-3 months in the second and third years.
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PMID:Congenital hypothyroidism: etiologies, diagnosis, and management. 1044 22

The mechanism by which a lack of thyroid hormone in the early development of the brain causes permanent mental retardation in cretins is currently unknown. On the other hand, an abnormality in dopamine-related brain function is believed to underlie some forms of mental illness. In this study, we demonstrate that although the activation of a dopaminergic D(2)-like receptor inhibited glutamatergic transmission in the hippocampal slices of normal adult rats, indicating the inhibitory action of the D(2)-like receptor on glutamatergic transmission, it markedly enhanced glutamatergic transmission both in a mutant hypothyroid rat with a missense mutation in thyroglobulin and in hypothyroid rats treated with methylmercaptoimidazole (MMI), indicating the excitatory action of the D(2)-like receptor on glutamatergic transmission. Paired pulse facilitation of field excitatory postsynaptic potentials was reduced by the activation of the D(2)-like receptors from MMI-induced hypothyroid rats, suggesting a presynaptic locus of the excitatory action of the D(2)-like receptors. In normal rats, the excitatory D(2)-like dopamine receptors were observed in the developing stages and were completely replaced by normal inhibitory responses up to adulthood. Furthermore, the continuous supplement of thyroxine from birth exerted a normalising effect on the abnormal excitatory property of D(2)-like dopamine receptors in the hippocampal slices of MMI-treated hypothyroid rats. From these results, it is suggested that thyroxine may play a crucial role in reversing the excitatory property of D(2)-like dopaminergic receptors in the immature brain to an inhibitory one in the mature brain. Moreover, we suggest that the abnormal excitatory property of D(2)-like dopaminergic receptors may develop in response to a lack of thyroxine and may contribute to some central nervous system deficits, including cognitive dysfunctions accompanied by hypothyroidism.
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PMID:Dopamine D(2)-like receptor function is converted from excitatory to inhibitory by thyroxine in the developmental hippocampus. 1628 31

Congenital hypothyroidism (CH) is the commonest treatable cause of mental retardation. The prevelance is 1/3000 - 1/4000 live births worldwide. The importance of CH is that, the longer the diagnosis of CH is delayed, the higher the risk of mental retardation and neurologic sequale; such as poor motor coordination, ataxia, spastic diplegia, muscular hypotonia, strabismus, learning disability and diminished attention span. The most common cause of permenant CH is thyroid dysgenesis (85-90%) in which the transcription factors TTF1,TTF2 and PAX8 would appear to be obvious candidate genes in the aetiology. Especially cardiac defects and some other birth defects are described in patients with CH. Inborn errors of thyroid hormonogenesis are responsible for 10-15% of CH cases and usually have autosomal recessive inheritance, consistent with a single gene mutation. Transient CH is very common in prematures with an estimate of 10% of CH babies identified on newborn screening, or 1 in 40,000 neonates. CH neonates are usually symptom-free and the most encountered symptoms are prolonged jaundice, large fontanelles and umbilical hernia. In general, the extent of clinical findings depends on the cause, severity and duration of hypothyroidism. An elevated TSH>20 microm Iu/L and a decreased concentration of T4 confirms the diagnosis of CH. Infants with permanant abnormalities of thyroid function mostly have a serum TSH concentration > 50 microm Iu/L. Ultrasonography, thyroid scintigraphy, bone x ray of the knee and serum thyroglobulin concentration are the other essentials after diagnosis to clarify the status of the thyroid and the severity of hypothyroidism. The higher doses of 10- 15 microm g/kg/day and the commencement of treatment before 2 weeks gave rise to better long term outcome of CH patients. In the follow up of the patients noncompliance is the most important problem and serum freeT4 or T4 and TSH should be obtained at each visit to adjust the doses of L-thyroxine. Still a small number of patients with severe hypothyroidism in utero or reflected by clinical signs and symptoms extremely low T4 levels and delayed bone age may have intellectual deficits despite normal intelligence.
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PMID:Congenital hypothyroidism clinical aspects and late consequences. 1644 57

Congenital hypothyroidism is the principle cause of preventable mental retardation, with a prevalence of 1 in 3,500 neonates. The disorder may be permanent or transitory. Permanent congenital hypothyroidism is caused principally by thyroid dysgenesis. In industrialized countries, mass screening allows the disorder to be diagnosed at birth. The severity is variable but is generally more pronounced in females. The majority of studies point to a genetic origin for the disease and no consistent evidence has been found to suggest a major role for environmental factors. The genetic factors have already been identified and involve several elements (mutations in the TTF-1, TTF-2, PAX8 and TSH receptor genes). The etiological diagnosis is based on scintigraphy, ultrasound and the level of circulating thyroglobulin. At present, treatment is administered at an adapted dose during the first two weeks of life and should allow the child to reach its full intellectual potential. However, minor anomalies have been reported in some treated children, suggesting that this treatment cannot compensate for a certain degree of foetal hypothyroidism.
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PMID:[Congenital hypothyroidism]. 1707 33

Congenital hypothyroidism is the most frequent endocrine disorder in neonates. Controversy exists regarding the necessity to adjust current screening programs to also diagnose patients with central hypothyroidism or those with mild forms of congenital hypothyroidism, who have high TSH levels but normal T(4) and normal T(3) levels (also known as 'subclinical hypothyroidism'). Thyroid hormone replacement should start as soon as the diagnosis is confirmed by measurement of elevated TSH and low serum thyroid hormone levels. Further diagnostic approaches, such as ultrasonography, scintigraphy and measurement of thyroglobulin levels, to determine the subtype of congenital hypothyroidism, should not delay initiation of treatment. Recommendations regarding the initial dosage of levothyroxine vary considerably, and no general accepted guideline exists with regards to initial dosage or optimal time point for dose adjustment according to biochemical parameters. More than 30 years after the introduction of the first neonatal screening programs, mental retardation can be prevented in the majority of children (>90%) with congenital hypothyroidism if therapy is commenced within the first 2 weeks of life, making neonate screening for this disorder the most successful population-based screening test in pediatrics.
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PMID:Detection and treatment of congenital hypothyroidism. 2200 63

Radioactive iodine (RAI) is used effectively in the treatment of hyperthyroidism and thyroid cancer, but it is contraindicated during pregnancy. RAI treatment during pregnancy can lead to fetal hypothyroidism, mental retardation and increased malignancy risk in the infant. Pregnancy tests must be performed before treatment in all women of reproductive age. However, at times, RAI is being used before ruling out pregnancy. We herein present a male newborn infant with congenital hypothyroidism whose mother was given a three-week course of methimazole therapy for her multiple hyperactive nodules and subsequently received 20 mCi RAI during the 12th week of her pregnancy. The patient was referred to our neonatology unit at age two weeks when his thyrotropin (TSH) level was reported to be high in the neonatal screening test. Physical examination was normal. Laboratory investigations revealed hypothyroidism (free triiodothyronine 1.55 pg/mL, free thyroxine 2.9 pg/mL, TSH 452 mU/L, thyroglobulin 20.1 ng/mL). The thyroid gland could not be visualized by ultrasonography. L-thyroxine treatment was initiated.
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PMID:Congenital hypothyroidism due to maternal radioactive iodine exposure during pregnancy. 2267 71