Introduction: Serum Thyrotropin (TSH) level is used to assess adequacy of levothyroxine dosing for patients with hypothyroidism. Some patients have raised TSH levels despite being on an adequate dose of levothyroxine ...Introduction: Serum Thyrotropin (TSH) level is used to assess adequacy of levothyroxine dosing for patients with hypothyroidism. Some patients have raised TSH levels despite being on an adequate dose of levothyroxine (100 mcg/day - 200 mcg/day). Aim: To evaluated the effect of advising patients to take their levothyroxine 45 - 60 minutes before breakfast on raised serum TSH levels. Patients and Methods: Rather than increase the dose, patients with raised TSH levels were asked to take their levothyroxine at least 45 - 60 minutes before breakfast and other oral medications. Thyroid Function Tests were assessed at base line and repeated after two months. Results: Data from ten patients who presented between 2008 and 2010 were analyzed (9 females, 1 male): With median (IQR) age: 39 (33 - 49) years and duration of hypothyroidism: 6 (3 - 7.8) years. Median (IQR) levothyroxine dose was 175 (144 - 250) mcg, serum free-Thyroxine (free-T4): 13 (10.5 - 17.1) pmol/L and serum TSH: 12.63 (6.2 - 48.3) mIU/L. After two months all patients demonstrated biochemical improvement;a decrease in serum TSH to 3.15 (0.4 - 6.1) mIU/L accompanied by an increase in serum free-T4 to 17.7 (14.8 - 21.3) pmol/L. Both changes were statistically significant (p < 0.05 and p < 0.01, respectively). The median (IQR) percentage TSH reduction was 83.5 (40.3 - 95.8) mIU/L and this bore no significant correlation with the initial TSH level (rs = 0.2, p = 0.58). Conclusion: Changing levothyroxine administration to 45 - 60 minutes before breakfast and other oral medications reduced TSH levels by 40% - 96% in all patients. We recommend this advice for all patients with hypothyroidism on adequate doses of levothyroxine but still appear biochemically under-replaced.展开更多
To get the hybridoma cell lines secreting anti-thyrotropin monoclonal antibodies with high affinity and specificity. Methods: BALB/c mice were immunized with extract of human pituitaries. The spleen cells of one immun...To get the hybridoma cell lines secreting anti-thyrotropin monoclonal antibodies with high affinity and specificity. Methods: BALB/c mice were immunized with extract of human pituitaries. The spleen cells of one immunized mouse were fused with mouse myeloma cells in polyethylene glycol and the positive clones were subcloned 3 times. Results: Two hybridoma cell lines which secrete anti-thyrotropin monoclonal antibodies with high affinity and specificity have been collected. The antibodies were of the IgG1 subclass and their maximum binding with thyrotropin was 60% and 45. 1% respectively. Using competitive binding assay,the antibodies were found to direct against different epitopes of human thyrotropin. Conclusion: The extract of human pituitaries could be used to produce monoclonal anti-pituitary hormone antibodies. The two anti-thyrotropin monoclonal antibodies produced in this study could be used in the establishment of a sensitive measurement of human thyrotropin.展开更多
Objective: To evaluate the effects of thyorotropin-releasing hormone (TRH ) on severe head injury.Methods: Eighty--seven severely head injured patients with a Glasgow Coma Scale (GCS ) score of & or less wererando...Objective: To evaluate the effects of thyorotropin-releasing hormone (TRH ) on severe head injury.Methods: Eighty--seven severely head injured patients with a Glasgow Coma Scale (GCS ) score of & or less wererandomized into TRH--treated and saline control groups. In TRH treated group. the treatment was started with abolus injection of 0. 2 mg/kg followed by continuous infusion for 2 hours at 0. 2 mg/kg/h. Such treatment wasgiven once a day for 4 times. The patients in control group were given the equivalent normal saline with the samemethod. Results: TRH, administered intravenously after head injury. promoted the recovery of consciousness andGCS score, alleviated the traumatic brain edema, controlled and lowered the intracranial pressure. decreased thelevel of lipid superoxides, decreased the mortality rate. and improved the life quality of the survivals. Nocomplications or adverse and toxic effects were noted during the course of TRH treatment. Conclusion: TRH hasbeneficial effects on patients with severe head injury.展开更多
Background: Thyrotropin-secreting pituitary adenomas (TSHomas) are a rare cause of hyperthyroidism. Somatostatin (SST) analogs work by interacting with somatostatin receptors (SSTRs). This study aimed to evalua...Background: Thyrotropin-secreting pituitary adenomas (TSHomas) are a rare cause of hyperthyroidism. Somatostatin (SST) analogs work by interacting with somatostatin receptors (SSTRs). This study aimed to evaluate short-term preoperative octreotide (OCT) use in TSHoma patients and to investigate SSTR2 and SSTR5 expression and observe structural changes in tumor tissue. Methods: We reviewed records and samples from eight TSHoma patients treated between July 2012 and July 2015. We tested immunohistochemically for SSTR2/5 expression and examined TSHoma cells for morphological changes. Signed rank sum test was used to compare the efficacy of short-term preoperative OCT treatment. Results: OCT treatment (median time: 7.9 days, range: 3-16 days; median total dose: 1.8 mg, range: 0.94.2 mg) led to significant decrease in all patients' thyroid hormone levels (FT3 [nmol/L]: 8.33 [7.02, 12.29] to 4.67 [3.52, 5.37] [P = 0.008]; FT4 [pmol/L]: 25.36 [21.34, 28.99] to 16.66 [14.88, 21.49] [P = 0.016]; and TSH [gU/ml]: 5.80 [4.37, 6.78] to 0.57 [0.19, 1.24] [P = 0.008]). All the eight tumor specimens expressed high SSTR2 protein levels; 5/8 expressed high SSTRS, but 3/8 that expressed low SSTR5 presented a significantly higher TS H suppression rate (P = 0.036). Electron microscopy showed subcellular level impairments, including clumped nuclear chromatin and reduced cytoplasmic volume. Golgi complexes were observed in the OCT-treated TSHoma specimens. Conclusions: OCT can control hormone levels and damage the ultrastructure of tumor cells and organelles. Short-term response to OCT may be related to SSTR5 expression. Preoperative SST analog treatment for TSHoma could be considered as a combination therapy.展开更多
Mild thyroid stimulating hormone (TSH) elevations are highly prevalent whereas large proportion of individuals with TSH elevations is without chronic autoimmune thyroid diseases.TSH secretion exhibits a daily circad...Mild thyroid stimulating hormone (TSH) elevations are highly prevalent whereas large proportion of individuals with TSH elevations is without chronic autoimmune thyroid diseases.TSH secretion exhibits a daily circadian rhythm,and we previously reported that individuals with sleep disorders have significantly higher TSH levels than controls.展开更多
Objective: To investigate the early effect of thyrotropin-releasing hormone (TRH) on cerebral free radical reactions after acute brain injury in rabbits. Methods: 30 healthy white rabbits were randomly divided into th...Objective: To investigate the early effect of thyrotropin-releasing hormone (TRH) on cerebral free radical reactions after acute brain injury in rabbits. Methods: 30 healthy white rabbits were randomly divided into three groups: Group A (n=10), Group B (n=12) and Group C (n=8). The rabbits in Group A and Group B were injured by direct hit. At 0.5-4 hours after injury, the rabbits in Group A were injected with TRH ( 8 mg/kg body weight) through a vein and the rabbits in Group B were injected with normal saline of equal volume. The rabbits in Group C served as the normal control. Then all the rabbits were killed and brain tissues were obtained. The content of lipoperoxide (LPO), the activity of superoxide dismutase (SOD) and the water content of the brain tissues were measured. Results: The contents of LPO and water in brain tissues in Group A were lower and the activity of SOD was higher than those of Group B (P< 0.05). After injury, intracranial pressure (ICP) rose rapidly and continuously with time passing by. When TRH was given to the animals in Group A, the rising speed of ICP slowed down significantly. Conclusions: TRH can decrease the cerebral free radical reactions and cerebral edema after acute brain injury in rats.展开更多
AIM:To establish the presence of the hypothalamic hormone protirelin(thyrotropin-releasing hormone,TRH)in human thyroid and to investigate whether the concentration of this peptide in the thyroid gland is sensitive to...AIM:To establish the presence of the hypothalamic hormone protirelin(thyrotropin-releasing hormone,TRH)in human thyroid and to investigate whether the concentration of this peptide in the thyroid gland is sensitive to thyroid status.METHODS:A procedure has been developed for the determination of TRH in the thyroid gland,distinct from TRH-like peptides which also react with TRH-antibody.RESULTS:Human thyroid was shown to contain both authentic TRH and TRH-like peptides,a similar pattern was seen in a range of animal thyroids.The concentrations of TRH in non-active goiter thyroids were substantial(41.6-248 pmol·g-1);in contrast the thyroids from hyperthyroid patients contained very little TRH(0.01-2.52 pmol·g-1).CONCLUSION:The physiologic role of TRH in the thyroid is not known but the large difference between the concentrations of this hormone in non-active and hyperactive thyroids suggests that thyroidal TRH may be involved in the regulation of thyroid status.展开更多
文摘Introduction: Serum Thyrotropin (TSH) level is used to assess adequacy of levothyroxine dosing for patients with hypothyroidism. Some patients have raised TSH levels despite being on an adequate dose of levothyroxine (100 mcg/day - 200 mcg/day). Aim: To evaluated the effect of advising patients to take their levothyroxine 45 - 60 minutes before breakfast on raised serum TSH levels. Patients and Methods: Rather than increase the dose, patients with raised TSH levels were asked to take their levothyroxine at least 45 - 60 minutes before breakfast and other oral medications. Thyroid Function Tests were assessed at base line and repeated after two months. Results: Data from ten patients who presented between 2008 and 2010 were analyzed (9 females, 1 male): With median (IQR) age: 39 (33 - 49) years and duration of hypothyroidism: 6 (3 - 7.8) years. Median (IQR) levothyroxine dose was 175 (144 - 250) mcg, serum free-Thyroxine (free-T4): 13 (10.5 - 17.1) pmol/L and serum TSH: 12.63 (6.2 - 48.3) mIU/L. After two months all patients demonstrated biochemical improvement;a decrease in serum TSH to 3.15 (0.4 - 6.1) mIU/L accompanied by an increase in serum free-T4 to 17.7 (14.8 - 21.3) pmol/L. Both changes were statistically significant (p < 0.05 and p < 0.01, respectively). The median (IQR) percentage TSH reduction was 83.5 (40.3 - 95.8) mIU/L and this bore no significant correlation with the initial TSH level (rs = 0.2, p = 0.58). Conclusion: Changing levothyroxine administration to 45 - 60 minutes before breakfast and other oral medications reduced TSH levels by 40% - 96% in all patients. We recommend this advice for all patients with hypothyroidism on adequate doses of levothyroxine but still appear biochemically under-replaced.
文摘To get the hybridoma cell lines secreting anti-thyrotropin monoclonal antibodies with high affinity and specificity. Methods: BALB/c mice were immunized with extract of human pituitaries. The spleen cells of one immunized mouse were fused with mouse myeloma cells in polyethylene glycol and the positive clones were subcloned 3 times. Results: Two hybridoma cell lines which secrete anti-thyrotropin monoclonal antibodies with high affinity and specificity have been collected. The antibodies were of the IgG1 subclass and their maximum binding with thyrotropin was 60% and 45. 1% respectively. Using competitive binding assay,the antibodies were found to direct against different epitopes of human thyrotropin. Conclusion: The extract of human pituitaries could be used to produce monoclonal anti-pituitary hormone antibodies. The two anti-thyrotropin monoclonal antibodies produced in this study could be used in the establishment of a sensitive measurement of human thyrotropin.
文摘Objective: To evaluate the effects of thyorotropin-releasing hormone (TRH ) on severe head injury.Methods: Eighty--seven severely head injured patients with a Glasgow Coma Scale (GCS ) score of & or less wererandomized into TRH--treated and saline control groups. In TRH treated group. the treatment was started with abolus injection of 0. 2 mg/kg followed by continuous infusion for 2 hours at 0. 2 mg/kg/h. Such treatment wasgiven once a day for 4 times. The patients in control group were given the equivalent normal saline with the samemethod. Results: TRH, administered intravenously after head injury. promoted the recovery of consciousness andGCS score, alleviated the traumatic brain edema, controlled and lowered the intracranial pressure. decreased thelevel of lipid superoxides, decreased the mortality rate. and improved the life quality of the survivals. Nocomplications or adverse and toxic effects were noted during the course of TRH treatment. Conclusion: TRH hasbeneficial effects on patients with severe head injury.
文摘Background: Thyrotropin-secreting pituitary adenomas (TSHomas) are a rare cause of hyperthyroidism. Somatostatin (SST) analogs work by interacting with somatostatin receptors (SSTRs). This study aimed to evaluate short-term preoperative octreotide (OCT) use in TSHoma patients and to investigate SSTR2 and SSTR5 expression and observe structural changes in tumor tissue. Methods: We reviewed records and samples from eight TSHoma patients treated between July 2012 and July 2015. We tested immunohistochemically for SSTR2/5 expression and examined TSHoma cells for morphological changes. Signed rank sum test was used to compare the efficacy of short-term preoperative OCT treatment. Results: OCT treatment (median time: 7.9 days, range: 3-16 days; median total dose: 1.8 mg, range: 0.94.2 mg) led to significant decrease in all patients' thyroid hormone levels (FT3 [nmol/L]: 8.33 [7.02, 12.29] to 4.67 [3.52, 5.37] [P = 0.008]; FT4 [pmol/L]: 25.36 [21.34, 28.99] to 16.66 [14.88, 21.49] [P = 0.016]; and TSH [gU/ml]: 5.80 [4.37, 6.78] to 0.57 [0.19, 1.24] [P = 0.008]). All the eight tumor specimens expressed high SSTR2 protein levels; 5/8 expressed high SSTRS, but 3/8 that expressed low SSTR5 presented a significantly higher TS H suppression rate (P = 0.036). Electron microscopy showed subcellular level impairments, including clumped nuclear chromatin and reduced cytoplasmic volume. Golgi complexes were observed in the OCT-treated TSHoma specimens. Conclusions: OCT can control hormone levels and damage the ultrastructure of tumor cells and organelles. Short-term response to OCT may be related to SSTR5 expression. Preoperative SST analog treatment for TSHoma could be considered as a combination therapy.
基金This study was supported by a grant from the National Natural Science Foundation of China (No. 81600603).
文摘Mild thyroid stimulating hormone (TSH) elevations are highly prevalent whereas large proportion of individuals with TSH elevations is without chronic autoimmune thyroid diseases.TSH secretion exhibits a daily circadian rhythm,and we previously reported that individuals with sleep disorders have significantly higher TSH levels than controls.
文摘Objective: To investigate the early effect of thyrotropin-releasing hormone (TRH) on cerebral free radical reactions after acute brain injury in rabbits. Methods: 30 healthy white rabbits were randomly divided into three groups: Group A (n=10), Group B (n=12) and Group C (n=8). The rabbits in Group A and Group B were injured by direct hit. At 0.5-4 hours after injury, the rabbits in Group A were injected with TRH ( 8 mg/kg body weight) through a vein and the rabbits in Group B were injected with normal saline of equal volume. The rabbits in Group C served as the normal control. Then all the rabbits were killed and brain tissues were obtained. The content of lipoperoxide (LPO), the activity of superoxide dismutase (SOD) and the water content of the brain tissues were measured. Results: The contents of LPO and water in brain tissues in Group A were lower and the activity of SOD was higher than those of Group B (P< 0.05). After injury, intracranial pressure (ICP) rose rapidly and continuously with time passing by. When TRH was given to the animals in Group A, the rising speed of ICP slowed down significantly. Conclusions: TRH can decrease the cerebral free radical reactions and cerebral edema after acute brain injury in rats.
基金This work was suported in part by EC Science Plan SCI-CT92-0762 to DGS and JRGby a grant(00206/CV/97)from the Seneca Foundation,Murcia,Spain.
文摘AIM:To establish the presence of the hypothalamic hormone protirelin(thyrotropin-releasing hormone,TRH)in human thyroid and to investigate whether the concentration of this peptide in the thyroid gland is sensitive to thyroid status.METHODS:A procedure has been developed for the determination of TRH in the thyroid gland,distinct from TRH-like peptides which also react with TRH-antibody.RESULTS:Human thyroid was shown to contain both authentic TRH and TRH-like peptides,a similar pattern was seen in a range of animal thyroids.The concentrations of TRH in non-active goiter thyroids were substantial(41.6-248 pmol·g-1);in contrast the thyroids from hyperthyroid patients contained very little TRH(0.01-2.52 pmol·g-1).CONCLUSION:The physiologic role of TRH in the thyroid is not known but the large difference between the concentrations of this hormone in non-active and hyperactive thyroids suggests that thyroidal TRH may be involved in the regulation of thyroid status.
