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Some may find these articles interesting. Clonidine is used as a hypertention drug. It works very well on keeping cortisol levels down at minimal baseline; extreme dry mouth is observed at .15mg dosage and higher; fatigue and tiredness is also observed. Best taken before bedtime; best sleep ever.
Effect of oral clonidine, insulin-induced hypoglycemia and exercise on plasma GHRH levels in short-stature children.
Human growth hormone release is affected by a variety of pharmacological and physiological stimuli. We have studied the effect of oral clonidine, insulin hypoglycemia, and exercise on plasma hGH and GHRH levels in 31 healthy short-stature children. Thirteen underwent an oral clonidine test (0.15 mg/m2), 12 an iv. insulin test (0.1 U/kg), and 6 performed exercise (running for 10 min in a defined route). GHRH-1-44 was extracted from plasma on silica columns and determined by RIA. Although all three stimuli induced a marked increase in plasma hGH levels, only clonidine induced a significant increase in plasma GHRH levels. Maximal increment in GHRH during clonidine was 6.82 +/- 1.05 pmol/l (mean +/- SEM) as compared with 0.51 +/- 0.28 and 0.53 +/- 0.62 during hypoglycemia and exercise (p less than 0.0005 and p less than 0.005), respectively. An additional 24 subjects received TRH 0.2 mg/kg iv: 8 TRH alone, 8 TRH and insulin, and 8 TRH and clonidine. Only insulin potentiated the TRH-induced TSH response with a peak of 22.0 +/- 3.2 vs 16.0 +/- 0.8 and 15.3 +/- 1.5 mU/l (p less than 0.025) for TRH alone and TRH and clonidine, respectively. It is suggested that clonidine stimulates hGH secretion mainly through an enhancement of GHRH release, whereas stress stimuli such as hypoglycemia and exercise achieve hGH release by a different mechanism, possibly inhibition of somatostatin.
Comparison of the effect of insulin hypoglycemia and clonidine on secretion of growth hormone, cortisol and beta-endorphin in children and adolescents.
Plasma beta-endorphin, human growth hormone (hGH) and cortisol were measured concomitantly during insulin hypoglycemia (0.1 u/kg i.v.) or clonidine administration (0.075 mg/m2 orally) in children with idiopathic short stature. Whereas hypoglycemia raised plasma beta-endorphin levels, clonidine slightly decreased beta-endorphin in six subjects and had no effect in four. Cortisol levels increased following hypoglycemia and decreased markedly after clonidine. hGH increased to greater than 20 ng/ml in all but one subject. The findings are interpreted as further evidence that the hGH stimulation of clonidine is not stress-mediated.
Plasma growth hormone response to oral clonidine as compared to insulin hypoglycemia in obese children and adolescents.
The response of plasma growth hormone (hGH) to a single oral dose of clonidine (0.15 mg/m2) was compared with that obtained with insulin hypoglycemia (ITT) induced by administration of double the usual dose (0.2 U/kg i.v.) in 13 obese subjects aged 5-17 years (7 males, 6 females) with a subscapular skinfold greater than 20 mm and a weight greater than 2 SD of the median. Six healthy subjects (3 males, 3 females), aged 8-14 years who served as controls received the usual dose of 0.1 U/kg i.v. in the ITT. Clonidine induced an increase of more than 10 ng/ml in the plasma hGH levels in 10 (4 males, 6 females) of the 13 obese subjects and in all of the healthy controls, with peak levels ranging from 14.3 to 31.0 ng/ml (m +/- SD 21.0 +/- 5.2 ng/ml); the ITT elicited a similar rise in only 6 of the 13 subjects and 3 of the healthy controls, with peak levels ranging from 9.8 to 20.0 ng/ml (m +/- SD 14.4 +/- 4.5 ng/ml). Clonidine decreased plasma insulin levels in all the obese female subjects (by a mean of 65%) whereas in the obese males the insulin pattern was variable. There was no change in blood glucose levels following the administration of clonidine; during the ITT all subjects showed a decrease to less than 50 mg/dl. Blood pressure decreased by a mean of 20 mmHg during the clonidine test. This study demonstrates that clonidine is a more effective hGH stimulus than insulin induced hypoglycemia in normal and in obese children and that the lower hGH secretion of the obese is confirmed by the clonidine test.
Basal plasma HGH and cortisol levels and the effect of clonidine administration in female migrainous patients.
Clonidine, a central alpha-adrenergic agent and prophylactic antimigraine drug is known to stimulate human growth hormone (HGH) release and to suppress cortisol secretion. A possible association between basal hormonal levels and response to either acute clonidine test or chronic treatment in female migrainous patients was investigated. 15 females, aged 18-43 years, suffering from migraine, underwent an acute clonidine test by administration of a single oral dose of 0.15 mg. High basal HGH levels (greater than or equal to 9 ng/ml) were observed in 6 patients, while the other 9 patients demonstrated normal low basal HGH levels. Acute clonidine administration induced a marked rise of HGH in 8 of the 9 patients with low basal HGH. In 4 of the 8 responders HGH levels exceeded 20 ng/ml and 3 subjects reached the acromegalic range (greater than 90 ng/ml). The mean response in this group was higher than in a reference group consisting of children and adolescents. It is suggested that the basal hypersecretion and the hyperresponsiveness of HGH to clonidine provocation test in some migrainous patients results from a hypersensitivity of the central alpha-adrenergic receptors. 12 of the 15 females were treated for 10 weeks with clonidine at gradually increased doses of 0.05 mg/day up to a maximal dose of 0.15 mg/day. A marked suppressive effect on cortisol secretion was observed in the migrainous patients after acute and chronic administration of clonidine. No correlation was observed between HGH and cortisol response to acute or chronic clonidine administration and the prophylactic effect of clonidine on migraine.
Effect of oral clonidine, insulin-induced hypoglycemia and exercise on plasma GHRH levels in short-stature children.
Human growth hormone release is affected by a variety of pharmacological and physiological stimuli. We have studied the effect of oral clonidine, insulin hypoglycemia, and exercise on plasma hGH and GHRH levels in 31 healthy short-stature children. Thirteen underwent an oral clonidine test (0.15 mg/m2), 12 an iv. insulin test (0.1 U/kg), and 6 performed exercise (running for 10 min in a defined route). GHRH-1-44 was extracted from plasma on silica columns and determined by RIA. Although all three stimuli induced a marked increase in plasma hGH levels, only clonidine induced a significant increase in plasma GHRH levels. Maximal increment in GHRH during clonidine was 6.82 +/- 1.05 pmol/l (mean +/- SEM) as compared with 0.51 +/- 0.28 and 0.53 +/- 0.62 during hypoglycemia and exercise (p less than 0.0005 and p less than 0.005), respectively. An additional 24 subjects received TRH 0.2 mg/kg iv: 8 TRH alone, 8 TRH and insulin, and 8 TRH and clonidine. Only insulin potentiated the TRH-induced TSH response with a peak of 22.0 +/- 3.2 vs 16.0 +/- 0.8 and 15.3 +/- 1.5 mU/l (p less than 0.025) for TRH alone and TRH and clonidine, respectively. It is suggested that clonidine stimulates hGH secretion mainly through an enhancement of GHRH release, whereas stress stimuli such as hypoglycemia and exercise achieve hGH release by a different mechanism, possibly inhibition of somatostatin.
Comparison of the effect of insulin hypoglycemia and clonidine on secretion of growth hormone, cortisol and beta-endorphin in children and adolescents.
Plasma beta-endorphin, human growth hormone (hGH) and cortisol were measured concomitantly during insulin hypoglycemia (0.1 u/kg i.v.) or clonidine administration (0.075 mg/m2 orally) in children with idiopathic short stature. Whereas hypoglycemia raised plasma beta-endorphin levels, clonidine slightly decreased beta-endorphin in six subjects and had no effect in four. Cortisol levels increased following hypoglycemia and decreased markedly after clonidine. hGH increased to greater than 20 ng/ml in all but one subject. The findings are interpreted as further evidence that the hGH stimulation of clonidine is not stress-mediated.
Plasma growth hormone response to oral clonidine as compared to insulin hypoglycemia in obese children and adolescents.
The response of plasma growth hormone (hGH) to a single oral dose of clonidine (0.15 mg/m2) was compared with that obtained with insulin hypoglycemia (ITT) induced by administration of double the usual dose (0.2 U/kg i.v.) in 13 obese subjects aged 5-17 years (7 males, 6 females) with a subscapular skinfold greater than 20 mm and a weight greater than 2 SD of the median. Six healthy subjects (3 males, 3 females), aged 8-14 years who served as controls received the usual dose of 0.1 U/kg i.v. in the ITT. Clonidine induced an increase of more than 10 ng/ml in the plasma hGH levels in 10 (4 males, 6 females) of the 13 obese subjects and in all of the healthy controls, with peak levels ranging from 14.3 to 31.0 ng/ml (m +/- SD 21.0 +/- 5.2 ng/ml); the ITT elicited a similar rise in only 6 of the 13 subjects and 3 of the healthy controls, with peak levels ranging from 9.8 to 20.0 ng/ml (m +/- SD 14.4 +/- 4.5 ng/ml). Clonidine decreased plasma insulin levels in all the obese female subjects (by a mean of 65%) whereas in the obese males the insulin pattern was variable. There was no change in blood glucose levels following the administration of clonidine; during the ITT all subjects showed a decrease to less than 50 mg/dl. Blood pressure decreased by a mean of 20 mmHg during the clonidine test. This study demonstrates that clonidine is a more effective hGH stimulus than insulin induced hypoglycemia in normal and in obese children and that the lower hGH secretion of the obese is confirmed by the clonidine test.
Basal plasma HGH and cortisol levels and the effect of clonidine administration in female migrainous patients.
Clonidine, a central alpha-adrenergic agent and prophylactic antimigraine drug is known to stimulate human growth hormone (HGH) release and to suppress cortisol secretion. A possible association between basal hormonal levels and response to either acute clonidine test or chronic treatment in female migrainous patients was investigated. 15 females, aged 18-43 years, suffering from migraine, underwent an acute clonidine test by administration of a single oral dose of 0.15 mg. High basal HGH levels (greater than or equal to 9 ng/ml) were observed in 6 patients, while the other 9 patients demonstrated normal low basal HGH levels. Acute clonidine administration induced a marked rise of HGH in 8 of the 9 patients with low basal HGH. In 4 of the 8 responders HGH levels exceeded 20 ng/ml and 3 subjects reached the acromegalic range (greater than 90 ng/ml). The mean response in this group was higher than in a reference group consisting of children and adolescents. It is suggested that the basal hypersecretion and the hyperresponsiveness of HGH to clonidine provocation test in some migrainous patients results from a hypersensitivity of the central alpha-adrenergic receptors. 12 of the 15 females were treated for 10 weeks with clonidine at gradually increased doses of 0.05 mg/day up to a maximal dose of 0.15 mg/day. A marked suppressive effect on cortisol secretion was observed in the migrainous patients after acute and chronic administration of clonidine. No correlation was observed between HGH and cortisol response to acute or chronic clonidine administration and the prophylactic effect of clonidine on migraine.
