UMLS:C0042963 - FACTA Search

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Query: UMLS:C0042963 (vomiting)
31,883 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A 24-year-old man with anorexia, repeated bouts of vomiting, and wasting was found to have florid thyrotoxicosis and hypercalcaemia. Pamidronate promptly reduced the serum calcium concentration to normal, and simultaneously abated the abdominal symptoms, which did not recur in spite of continuing severe hyperthyroidism, which was eventually controlled by radioactive iodine ablation of thyroid activity.
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PMID:Abdominal symptoms, hypercalcaemia and apathetic hyperthyroidism: treatment with pamidronate. 774 97

Hyperthyroidism or increased thyroid function has been reported in many patients with trophoblastic tumors. In these cases, greatly increased human chorionic gonadotropin (hCG) levels and suppressed TSH levels suggest that hCG has thyrotropic activity. Recent investigations have clarified the structural homology not only in the hCG and TSH molecules but also in their receptors, and this homology suggests the basis for the reactivity of hCG with the TSH receptor. The clinical significance of the thyrotropic action of hCG is now also recognized in normal pregnancy and hyperemesis gravidarum. Highly purified hLH binds to recombinant hTSH receptor and is about 10 times as potent as purified hCG in increasing cAMP. The beta-subunits of hCG and hLH share 85% sequence identity in their first 114 amino acids but differ in the carboxy-terminal peptide because hCG beta contains a 31-amino acid extension (beta-CTP). A recombinant mutant hCG that lacks beta-CTP showed almost identical potency to LH on stimulation of recombinant hTSH receptor. If intact hCG were as potent as hLH in regard to its thyrotropic activity, most pregnant women would become thyrotoxic. One of the roles of the beta-CTP may be to prevent overt hyperthyroidism in the first trimester of pregnancy when a large amount of hCG is produced by the placenta. Nicked hCG preparations, obtained from patients with trophoblastic disease or by enzymatic digestion of intact hCG, showed approximately 1.5- to 2-fold stimulation of recombinant hTSH receptor compared with intact hCG. This suggests that the thyrotropic activity of hCG may be influenced by the metabolism of the hCG molecule itself. Deglycosylation and/or desialylation of hCG enhances its thyrotropic potency. Basic hCG isoforms with lower sialic acid content extracted from hydatidiform moles were more potent in activating adenylate cyclase, and showed high bioactivity/immunoactivity (B/I) ratio in CHO cells expressing human TSH receptors. This is consistent with the finding that the beta-CTP truncated hCG with higher thyrotropic potency is substantially deglycosylated and desialylated in the beta-subunit relative to intact hCG because all four O-linked glycosylation sites occur within the missing C-terminal extension. The desialylated hCG variant also interacts directly with recombinant hTSH receptors transfected into human thyroid cancer cells. There is thyroid-stimulating activity in sera of normal pregnant women, and this correlates with serum hCG levels. The thyroid gland of normal pregnant women may be stimulated by hCG to secrete slightly excessive quantities of T4 and induce a slight suppression of TSH, perhaps being about 1 mU/L less than nongravid levels, but not high enough to induce overt hyperthyroidism. Maternal thyroid glands may secrete more thyroid hormone during early pregnancy in response to the thyrotropic activity of hCG that overrides the normal operation of the hypothalamic-pituitary-thyroid feedback system. Biochemical hyperthyroidism associated with hyperemesis gravidarum has been attributed to hCG. In patients with hyperemesis gravidarum, thyrotropic in serum correlated with hCG immunoreactivity, and the severity of vomiting as indicated by clinical and biochemical parameters correlated with the degree of thyroid stimulation. To understand the thyrotropic action of hCG, it is necessary to know whether hCG activates the same domain of the TSH receptor as does TSH. The identification of the molecular structure of the hCG isoform with the highest thyrotropic potency will resolve the enigma of gestational thyrotoxicosis and the hyperthyroidism associated with trophoblastic disease and hCG-producing tumors.
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PMID:Thyrotropic action of human chorionic gonadotropin. 856 83

At the Institutes of Gynecology and Obstetrics of the University of Rome (La Sapienza), Italy, serum levels of free thyroxine (FT4), FT3, thyroid stimulating hormone (TSH), and the beta subunit of human chorionic gonadotropin (hCG-beta) were compared before and 7-10 days after induced abortion in 19 normal women in their first trimester of pregnancy. The women were divided into those with nausea and vomiting (7) and those without these symptoms (12). The aim was to distinguish slight transient hyperthyroidism associated with nausea and vomiting in normal early pregnancy with pre-existing thyrotoxicosis or hyperemesis gravidarum. In both groups of women, serum hCG-beta levels were significantly lower 7-10 days after the induced abortion than before (p 0.01) while serum TSH levels were significantly higher (p 0.02). The serum levels of FT4 were higher before than after abortion in both groups of women, but were significantly so in women with nausea and vomiting (p 0.001). After induced abortion, serum levels of FT4 and TSH returned to normal levels. Earlier research found that hCG peaks at 10-13 weeks gestation and decreases to a stable level by 20 weeks gestation and that hCG is associated with thyroid hormone levels. This study's findings support those of earlier research since women in the nausea and vomiting group had higher levels of FT4 and hCG-beta and lower levels of TSH before the induced abortion than after it. Perhaps, hCG physiologically activates the thyroid gland in early pregnancy, which may in turn induce vomiting during early pregnancy.
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PMID:Nausea, vomiting and thyroid function before and after induced abortion in normal pregnancy. 865 28

A post menopausal female with severe vomiting and weight loss in association with elevated thyroid hormone levels is presented. Signs and symptoms of thyrotoxicosis were not evident at presentation. Possible pathophysiological mechanisms and treatment are discussed. Antithyroid therapy with carbimazole and propranolol induced rapid resolution of her symptoms and marked improvement in well-being. Radioactive iodine ablation of her thyroid gland was performed later and she has remained asymptomatic.
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PMID:Thyrotoxic vomiting. A case report. 926 May 38

Nausea and vomiting are both common in early pregnancy. Most cases are mild and do not require treatment. However, persistent vomiting and severe nausea can progress to hyperemesis if the woman is unable to maintain adequate hydration, and fluid and electrolyte as well as nutritional status are jeopardised. Hyperemesis gravidarum is a diagnosis of exclusion, characterised by prolonged and severe nausea and vomiting, dehydration, ketosis and bodyweight loss. Investigation may show hyponatraemia, hypokalaemia, a low serum urea level, metabolic hypochloraemic alkalosis and ketonuria. The haematocrit is raised and the specific gravity of the urine is increased. There may be associated liver function test abnormalities and abnormal thyroid function tests, with biochemical thyrotoxicosis with raised free thyroxine levels and/or suppressed thyroid-stimulating hormone levels. The pathophysiology of hyperemesis is poorly understood. Various hormonal, mechanical and psychological factors have been implicated. Studies have demonstrated a direct relationship between the severity of hyperemesis, the degree of biochemical hyperthyroidism and the levels of human chorionic gonadotrophin (hCG). Management of hyperemesis should include hospitalisation, intravenous fluid and electrolyte replacement, thiamine (vitamin B1) supplementation, use of conventional antiemetics and psychological support. Most patients improve spontaneously with the help of the above measures without long term sequelae. Conventionally, antiemetics are not usually prescribed, especially before 12 weeks gestation, except for women with hyperemesis. This reluctance relates to fears which are often unfounded concerning the teratogenic effects of antiemetics. Severe hyperemesis, refractory to conventional management with intravenous fluids and antiemetics is a rare, miserable and disabling condition, associated with multiple hospital admissions, time away from work and the family, and psychological morbidity. If inadequately or inappropriately treated, it may cause Wernicke's encephalopathy, central pontine myelinolysis and death. In extreme cases, women may request, or their obstetricians recommend, termination of the pregnancy. There are uncontrolled data supporting a beneficial effect of corticosteroids in these women, and a randomised placebo-controlled trial is currently in progress.
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PMID:Treatment of nausea and vomiting in pregnancy. When should it be treated and what can be safely taken? 970 51

The present report focuses on the two main causes of hyperthyroidism observed in the pregnant state: Graves' disease (GD) and gestational transient thyrotoxicosis. Together, the prevalence of hyperthyroidism may represent 3% to 4% of all pregnancies, and therefore constitutes an important clinical issue. Concerning GD, the variable presentations of the disease (women under treatment, in remission, or considered cured) and specific alterations occurring in pregnancy are discussed: changes in thyrotropin (TSH) receptor antibody titers, the risk of fetal and neonatal thyrotoxicosis, the outcome of pregnancy in relation to the control of hyperthyroidism, and the treatment of active GD during and after pregnancy with antithyroid drugs. Gestational transient thyrotoxicosis is associated with a direct stimulation of the maternal thyroid gland by human chorionic gonadotropin (hCG), and has been shown to be directly related to both the amplitude and duration of peak hCG values. The syndrome is usually transient, observed at the end of the first trimester, and is frequently associated with emesis. Finally, we propose a global strategy for the systematic screening of hyperthyroidism during pregnancy, based on an algorithm that allows for the diagnosis of both autoimmune and nonautoimmune forms of hyperthyroidism in the pregnant state.
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PMID:Thyroid hyperfunction during pregnancy. 977 58

There is abundant evidence that human chorionic gonadotropin (hCG) is a weak thyrotropin (TSH) agonist. In FRTL-5 rat thyroid cells, hCG increases cyclic adenosine monophosphate (cAMP), iodide transport, and cell growth. hCG has thyroid-stimulating activity in bioassays in mice and in clinical studies in man. In cultured cells transfected with the human TSH receptor, hCG increases generation of cAMP. Molecular variants of hCG with increased thyrotropic potency include basic molecules with reduced sialic acid content, truncated molecules lacking the C-terminal tail, or molecules in which the 47-48 peptide bond in the beta-subunit loop is nicked. In normal pregnancy, when hCG levels are highest at 10 to 12 weeks gestation, there is suppression of serum TSH levels, presumably due to slight increases in free thyroxine (T4) concentration. In twin pregnancies, hCG levels tend to be higher and suppressed TSH levels are more frequent. Hyperemesis gravidarum, defined as severe vomiting in early pregnancy that causes 5% weight loss and ketonuria, is usually associated with increased hCG concentration. A high proportion of patients with hyperemesis gravidarum, about one-third to two-thirds in different series, have evidence of increased thyroid function. Only a small proportion of these patients have clinical hyperthyroidism, termed gestational thyrotoxicosis. These patients probably secrete a variant of hCG with increased thyroid-stimulating activity. Trophoblastic tumors, hydatidiform mole, and choriocarcinoma often cause hyperthyroidism because they secrete very large amounts of hCG. When the serum hCG exceeds about 200 IU/mL, hyperthyroidism is likely to be found. There is a correlation between the biochemical severity of hyperthyroidism and the serum hCG in these patients. Removal of the mole or effective chemotherapy of the choriocarcinoma cures the hyperthyroidism. In conclusion, hCG has thyroid-stimulating activity that influences thyroid function early in pregnancy when hCG levels are high. Excessive hCG secretion may cause hyperthyroidism in patients with hyperemesis gravidarum or trophoblastic tumors.
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PMID:Human chorionic gonadotropin and the thyroid: hyperemesis gravidarum and trophoblastic tumors. 1044 9

Fetal and neonatal hyperthyroidism are usually produced by transplacental passage of thyroid-stimulating immunoglobulins. Most commonly, the thyroid-stimulating immunoglobulins are a component of active maternal Graves' disease. However, such antibodies may continue to be produced after ablation of the thyroid by surgery, radioiodine, or by the immune mechanisms of Hashimoto's thyroiditis. Other mechanisms that have produced fetal and neonatal hyperthyroidism include activating mutations of the stimulatory G protein in McCune-Albright syndrome and activating mutations of the thyrotropin (TSH) receptor. Fetal hyperthyroidism may be associated with intrauterine growth retardation, nonimmune fetal hydrops, craniosynostosis, and intrauterine death. Features of this condition in the neonate include hyperkinesis, diarrhea, poor weight gain, vomiting, ophthalmopathy, cardiac failure and arrhythmias, systemic and pulmonary hypertension, hepatosplenomegaly, jaundice, hyperviscosity syndrome, thrombocytopenia, and craniosynostosis. The time course of thyrotoxicosis depends on etiology. Remission by 20 weeks is most common in neonatal Graves' disease; remission by 48 weeks is nearly always seen. A subset of these patients may have persistent disease when there is a strong family history of Graves' diseases. Disease persistence is characteristic of patients with activating mutations of the TSH receptor. Treatment of fetal hyperthyroidism comprises administration of antithyroid drugs to the mother. Fetal heart rate and fetal growth should be monitored. Ultrasonography may reveal changes in thyroid size. At times, cordocentesis may be useful for monitoring fetal thyroid function. Hyperthyroid neonates may be treated with antithyroid drugs, beta-adrenergic receptor blocking agents, iodine, or iodinated contrast agents, and at times, with glucocorticoids and digoxin. Nonremitting causes of neonatal hyperthyroidism require ablative treatments such as thyroidectomy.
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PMID:Fetal and neonatal hyperthyroidism. 1044 21

L-Thyroxine (T4) is commonly prescribed medication for hypothyroidism in humans and animals. Overdose has generally resulted in limited symptomatology managed with sedatives and beta-adrenergic receptor antagonists. We describe the largest acute T4 ingestion ever reported, which resulted in a profound thyrotoxicosis, resistant to treatment. A 34-y-old man ingested 900 (0.8 mg) tablets of veterinary T4 (720 mg) and was given 60 g of activated charcoal. He became lethargic on post-ingestion days 2 and 3; had vomiting, diaphoresis and insomnia on day 4; on day 5 he "looked like he had too much coffee", began "using a lot of words" and became agitated, assaultive and stopped speaking intelligibly; and on day 6 returned to the hospital combative and confused. He was diaphoretic, mydriatic, hyperreflexic, tremulous, with clear lungs and active bowel sounds, and received activated charcoal, haloperidol, diazepam, and phenobarbital, and was tracheally intubated. During hospitalization he was rehydrated, treated with propranolol and diazepam, but remained continuously tachycardic. On day 12 he became afebrile and his tachycardia resolved. Free T4 levels ranged from > 13 mcg/dL on day 6 to 1.2 mcg/dL on day 12. By discharge (day 15) he had lost 20 kilograms of body weight, but was clinically euthyroid 2 w later. This case suggests that large intentional T4 ingestions should be managed differently than current T4 overdose protocol.
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PMID:Severe symptoms following a massive intentional L-thyroxine ingestion. 1050 39

A 35-year-old hyperthyroid woman who developed nausea, vomiting, tachycardia, nystagmus and mental disturbance, was referred to our hospital with a suspected diagnosis of thyroid storm. However, the thyroid gland was only slightly palpable, bruits were not audible, and exophthalmos was not present. Serum levels of thyroid hormone were increased, but TSH receptor antibodies were negative. Echography and color flow doppler ultrasonography revealed a slightly enlarged thyroid gland and a slightly increased blood flow, both of which were much less milder than those expected for severe hyperthyroid Graves' disease. Under the diagnosis of hyperthyroidism due to gestational thyrotoxicosis associated with Wernicke encephalopathy, vitamin B1 was administered on the first day of admission. Her consciousness became nearly normal on the second day except for slight amnesia. Her right abducent nerve palsy rapidly improved, but horizontal and vertical nystagmus, diminished deep tendon reflexes and gait ataxia improved only gradually. MRI findings of the brain were compatible with acute Wernicke encephalopathy. We concluded that history taking and physical findings are important to make a differential diagnosis of gestational thyrotoxicosis with acute Wernicke encephalopathy from Graves' thyroid storm, and that Wernicke encephalopathy should be treated as soon as possible to improve the prognosis.
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PMID:Gestational thyrotoxicosis with acute Wernicke encephalopathy: a case report. 1072 54

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