Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0023890 (cirrhosis)
42,195 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Levels of thyroid hormones, serum thyroxine, triiodothyronine (T3), free thyroxine (FT4), free triiodothyronine (FT3) and thyrotropin (TSH) were measured in 55 patients with liver cirrhosis using radioimmunoassay techniques. Results were compared with 78 controls. The mean serum concentration of T3, FT3 and FT4 were significantly decreased in cirrhotics, while no significant change was noted in serum T4 and TSH levels. T3/T4 ratio was also lower than the normal. This indicates an impaired liver conversion of T4 to T3 in peripheral tissues. Serum T3 and FT3 showed an inverse correlation with serum bilirubin and a positive correlation with serum albumin. T3, FT3 and T3/T4 ratios were significantly low in patients who had ascites as compared to those who had no ascites. This study confirms the presence of abnormalities in serum thyroid hormone levels in cirrhosis of liver. Alteration in serum T3 and FT3 levels correlate well with the disease severity and may be useful in assessing the course and prognosis in cirrhotic patients.
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PMID:Serum thyroid hormone levels in liver cirrhosis. 250 64

In healthy subjects intravenous glucagon administration induces a prompt (at 1 h) fall in serum T3 concentration and a later (at 4 h) rise in biologically inactive rT3. Since high levels of plasma glucagon have frequently been found in some patients with severe chronic illnesses, together with an anomalous thyroid condition (low serum T3, high serum rT3), it has been supposed that hyperglucagonemia could play a pathogenetic role in causing selective T3 deficiency. In the present study fasting plasma glucagon concentration was measured in 48 patients with low T3 and severe nonthyroidal illnesses: hepatic cirrhosis in 16 cases, chronic non-A non-B hepatitis in 4 cases, uncontrolled type II diabetes mellitus in 5 cases, renal failure in 12 cases, congestive heart failure in 5 cases, tumor in 16 cases. In comparison with a group of 21 healthy controls fasting plasma glucagon concentration was significantly higher in the patients (198.75 +/- 13.20 pg/ml vs. 127 +/- 6.80 pg/ml; p less than 0.001). However, only 29 patients (60.4%) had elevated plasma glucagon levels, whereas 19 (39.5%) had abnormal plasma glucagon levels. Furthermore, no significant difference was found between the thyroid hormone pattern of the patients with hyperglucagonemia and of the patients with normal glucagonemia. On the other hand, a significant correlation between plasma glucagon concentrations and serum T3 and rT3 concentrations was not found. All these findings indicate that in patients with severe chronic illnesses the fall in circulating T3 cannot be due to hyperglucagonemia only which, therefore, might simply be a contributory factor together with other as yet unidentified disorders.
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PMID:[Role of high blood glucagon in the reduction of serum levels of triiodothyronine in severe non-thyroid diseases]. 263 98

The so-called "low T3 syndrome" has frequently been reported in patients with cirrhosis. In this study, we aimed to determine whether administration of propranolol to such patients leads to further changes in plasma thyroid hormones, since it can affect their peripheral metabolism. Twenty cirrhotics (11 with ascites) whom we investigated showed no clinical evidence of thyroid dysfunction. The free fractions of plasma T3 and T4 (FT3, FT4) were determined by radioimmunoassay before and after the achievement of an effective beta-blockade by propranolol. The activity of the sympathetic nervous system also was evaluated by measuring plasma norepinephrine concentration. Under basal conditions, cirrhotics showed a reduced FT3 (2.45 +/- 0.11 SEM vs 3.55 +/- 0.16 pg/ml; p less than 0.001) and comparable FT4 (7.62 +/- 0.79 vs 9.2 +/- 0.42 pg/ml) and FT3/FT4 ratio (0.38 +/- 0.04 vs 0.42 +/- 0.013) with respect to healthy controls. When patients with ascites were considered apart, a reduction of FT4 was also found (6.78 +/- 0.74 pg/ml; p less than 0.01). In these patients, many of whom showed an increased plasma norepinephrine concentration, an inverse correlation between log FT3/FT4 and log plasma norepinephrine concentration was found (r = -0.79; p less than 0.01). The effective beta-blockade did not lead to significant changes in either FT3 or FT4 or FT3/FT4, whether the patients were considered as a whole (2.52 +/- 0.19 pg/ml, 9.3 +/- 1.41 pg/ml, and 0.36 +/- 0.04, respectively), or were split into groups according to the presence of ascites. When administered to cirrhotics, propranolol did not worsen thyroid hormone abnormalities, thus appearing to be safe in this respect. This may result from an impaired influence of the sympathoadrenergic system on thyroid hormone metabolism.
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PMID:"Low T3 syndrome" in cirrhosis: effect of beta-blockade. 278

Ten patients with liver cirrhosis and six normal subjects were studied to evaluate the effect of iopanoic acid (IA) on thyrotropin secretion. A thyrotropin-releasing-hormone (TRH) test was performed before and 5 days after IA administration (single oral dose of 3 g). After IA administration, a significant increase in TSH response to TRH was observed in normal subjects. In cirrhotics, however, it did not significantly increase after IA administration. The serum T3 and T3/TBG ratio were significantly decreased and the serum T4 and T4/TBG ratio were increased after IA administration in normal subjects and cirrhotics. There was no significant difference in the % decrease in serum T3, % increase in serum T4 or other thyroid hormone parameters including TSH in IA induced TSH responders (R) and non-responders (NR). However, r-T3 before and after IA in R was higher than those in NR. The values for hepatic function tests such as serum albumin, prothrombin time, 45 minutes retention rate of bromsulphalein (BSP 45 min) and the cholinesterase (ChE) level in R were not different from those of NR. These results suggested that in cirrhotics, abnormal regulation of the hypothalamo-pituitary system might exist.
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PMID:The effect of iopanoic acid on thyrotropin secretion in patients with cirrhosis of the liver. 367 54

Basal thyroid hormone levels were measured in 68 women with liver cirrhosis (LC) of different etiology (alcoholic n = 34, posthepatitic B n = 9, PBC n = 5, cryptogenetic n = 18, M. Wilson n = 2). In addition the rise of TSH after 400 micrograms TRH was measured in 23 women with LC and compared with the data obtained from 17 women of a control group. There was no difference of the median T4-concentrations (LC 8.0 micrograms/dl versus 7.2 micrograms/dl) but a significant correlation of T4 to the grade of decompensation of LC. In contrast of T4 there was a marked decrease of T3 in LC-patients (109 ng/dl versus 143 ng/dl) and a rise of reverse T3 (0.21 ng/ml versus 0.13 ng/ml). The decrease of T3 and rise of reverse T3 equally correlated to the severeness of LC. TBG concentrations fell according to the grade of decompensation of LC and T4/TBG-quotient exhibited no difference to the control data (0.51 both). Though basal thyroid hormones and TSH show euthyroidism the significant augmented TSH release after TRH (delta-TSH 7.0 versus 3.2 microU/ml) indicate a status of latent hypothyroidism. In alcoholic cirrhosis the degree of TSH release was much higher than in non alcoholic cirrhosis. Estradiol and estrone levels correlated significantly negatively to T4, T3, estrone negatively to TBG and positively to reverse T3 but not to TSH and TSH release. Otherwise TSH release correlated positively to estradiol. The thyroid status in women with liver cirrhosis does not differ from the thyroid hormone profile found in men with cirrhosis.
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PMID:[Thyroid hormones in women with liver cirrhosis]. 393 Aug 34

Measurement of serum concentrations of free triiodothyronine (FT3) is considered to be an accurate index of thyroid function in the patient. In this study, we measured serum concentrations of FT3, free thyroxine (FT4) and reverse triiodothyronine (rT3) by radioimmunoassay in blood samples taken from the navel cord of 20 newborns as well as 20 nonpregnant women, 20 pregnant women, 10 patients with liver diseases, 25 patients with diabetes mellitus, 65 patients with hyperthyroidism, 30 patients with primary hypothyroidism and 29 normal subjects. In pregnant women, serum FT3 and FT4 levels gradually decreased as the pregnancy progressed. In cord blood, FT3 levels were less than a quarter of the values found during the first trimester of pregnancy or that of non-pregnant women, whereas serum rT3 levels were drastically increased. In chronic hepatitis, liver cirrhosis and diabetes mellitus, serum FT3 and FT4 levels were significantly lower than that in the controls. In thyroid diseases, serum FT3 levels varied parallel to other thyroid hormone levels. In primary hypothyroidism, however, serum FT3 levels were still lower than these in the controls after treatment with 1-thyroxine, whereas other thyroid hormone levels and TSH levels returned to control levels.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Circulating free T3 in pregnancy, liver diseases, diabetes mellitus and thyroid diseases]. 651 13

Liver is one of the major sites of T4 metabolism. Several studies have reported low serum T3 concentrations and elevated reverse T3 (rT3) levels in hepatic cirrhosis. This study examined the influence of degree of the hepatocellular damage and the effect of improvement in clinical state on thyroid hormone concentrations in 44 cirrhotic patients. Low serum T4 and T3 as well as raised rT3 were observed in cirrhotic patients with advanced liver dysfunction alone. T3 resin uptake was increased in some of these patients suggesting decrease in serum thyroid-binding globulin concentration. In patients with histological changes but with normal liver function tests, serum T4, T3, and rT3 were not altered. Serum T3 and rT3 correlated significantly with liver function tests. T4, T3, and rT3 normalized on improvement in clinical status and liver function tests. Lowest levels of T4 and T3 with extremely high rT3 were seen in patients with extremely advanced liver dysfunction. In these patients, the mortality was high. Therefore, in hepatic cirrhosis, 1) T4 metabolism is altered with lowering of T4 and T3 and a rise in rT3. 2) These changes may be dependent on the degree of hepatocellular damage and reverse on improvement in liver function. 3) T4, T3, and rT3 levels are useful prognostic indices.
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PMID:Serum T3 and reverse T3 levels in hepatic cirrhosis: relation to hepatocellular damage and normalization on improvement in liver dysfunction. 663 68

Basal plasma thyroid hormone, testosterone and cortisol levels, TSH and PRL responses to TRH, and LH and FSH responses to LRH were assessed in six young subjects with normal liver function and anatomy before and after portacaval anastomosis. All tests were normal and unchanged by the operations. It is concluded that in patients with normal liver function, portal systemic shunting does not produce alterations in the pituitary-gonadal and pituitary-thyroid axes. The abnormalities of these endocrine functions in patients with cirrhosis are probably related to the severity of hepatocellular dysfunction rather than to the effects of portal systemic shunting.
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PMID:Pituitary and thyroid function before and after portacaval anastomosis in patients with normal livers. 677 96

An elevated plasma glucagon concentration and reduced T3 production from T4 have both been observed in several clinical disorders, including hepatic cirrhosis, uremia, diabetes mellitus, and starvation. The question of whether glucagon has a direct effect on T3 production was studied in normal rats infused iv with [125I]T4 of [125I]T3 and 3 micrograms T4/day, using implanted minipumps. The blood [125I]T4 and [125I]T3 levels maintained a plateau between the fifth and ninth days of infusion. Each animal also received a second minipump, implanted ip, that infused either a diluant solution or 30 micrograms glucagon/100 g BW . day. After 7 days of continuous infusion, the glucagon-treated animals showed a 20% increase in plasma glucose and a 4-fold increase in plasma glucagon from baseline. However, the levels of insulin, T4, and T3 remained unchanged. The MCRs and the disposal rates of T4 and T3, calculated by the constant infusion method, showed T4 and T3 MCRs to be 0.99 +/- 0.18 and 11.25 +/- 2.52 ml/h . 100 g, respectively, and T4 and T3 disposal rates to be 68 +/- 10 and 9 +/- 2 ng/h . 100 g; there was no difference between the control animals and the glucagon-infused animals. T3 production was also determined in vitro from T4 added to a liver homogenate. Compared to control animals, the liver homogenate prepared from glucagon-infused animals showed a modestly higher T3 production rate throughout the 60-min incubation period (P = 0.025--0.05). However, the concentration of nonprotein-bound sulfhydryls was similar in the liver, kidney, brain, muscle, and heart of the two animal groups. In conclusion, glucagon does not have an important regulating role on the peripheral metabolism of thyroid hormone and T3 production in rats.
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PMID:Comparison of peripheral thyroid hormone metabolism in normal rats and in rats receiving prolonged glucagon infusion. 704 21

In several pathophysiologic states, i.e., cirrhosis of liver, protein calorie malnutrition, starvation, carbohydrate deprivation, etc., thyroid hormone metabolism is reported to be altered with a decrease in serum T3 and a reciprocal increase in TR3. Uncontrolled diabetes mellitus is a similar state in which glucose does not enter the cells causing cellular starvation and hyperglycemia ensues. Therefore, serum T4, T3, RT3, T3-resin uptake, TSH, and glucose were determined after an overnight fast in 94 male diabetics (aged 28 to 85 years) during a routine follow-up visit to the outpatient clinic and 24 healthy male adults (aged 24 to 81 years). Glycosylated hemoglobin concentrations were measured as well in normal subjects and 16 newly discovered diabetics. In normal subjects, no significant relationships between fasting plasma glucose and T3 and RRT3 levels were observed. In diabetics there was a significant positive (r = 0.611; p less than 0.001) correlation between glucose and RT3. Similarly, a significant negative relationship was observed between glucose and T3 (r = 0.491; p less than 0.001). T4, free T4, T3-resin uptake, and TSH were normal in diabetics. In 16 newly discovered diabetics, with fasting plasma glucose greater than 200 mg/dl, serum T3 rose (96 +/- 5 to 128 +/- 5 ng/dl) and RT3 declined (26.3 +/- 10.4 +/- 1.4 ng/dl) on improvement of hyperglycemia (fasting plasma glucose less than 140 mg/dl) after intensive therapy for 6 to 8 weeks. Glycosylated hemoglobin levels declined as well (14.6 +/- 0.9% to 9.3 +/- 0.7%). These data indicate: (1) thyroid hormone metabolism may be altered in diabetes mellitus with a fall in serum T3 and a reciprocal rise in RT3; and (2) T3 and RT3 concentrations may serve as indicators of metabolic control in diabetes mellitus.
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PMID:Low serum 3, 5, 3'-triiodothyronine (T3) and raised 3, 3', 5'-triidothyronine (reverse T3 or RT3) in diabetes mellitus: normalization on improvement in hyperglycemia. 714 29


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