Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0020538 (hypertension)
170,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Published "normal" values of some hormones have an excessively wide range and unequal mean values because the material on which these values are based is from subjects suffering from different diseases which only apparently are not associated with the investigated hormone, or else the specimens are obtained under non-standard conditions (malnutrition, stress, alcohol etc.). This wide range of normal values may hide incipient pathological processes and is not suitable even as control group. The investigation is based on the assessment of insulin, growth hormone (GH), cortisol, thyroxine (T4) and triiodothyronine (T3) in a group of blood donors. The assembled results were compared with two other groups of blood donors and a group of obese subjects. The following findings were assembled: We recommend to lower the upper borderline of "normal" insulinaemia from the recommended value of 26 to 20 i.u./l, as the original range may comprise milder forms of hyperinsulinism which is recently assumed to participate in the genesis of type 2 diabetes, hypertension, coronary ischemia and polycystic ovaries. Elevated normal values of serum insulin may be obtained also from blood donors who usually have breakfast before the blood is collected. The wide range of cortisolaemia is due to the diurnal rhythm. The basal value is raised by a declining blood sugar level, alcohol, obesity and of course, varying forms of stress. The upper range of cortisolaemia at 8 a.m. should not be beyond the range of 140-690 nmol/l. GH secretion is governed by an individual 3.5-hour cycle as well as changes of the blood sugar level, e. g. during the OGTT: the declining blood sugar level raises the GH level.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Factors affecting normal levels of insulin, cortisol, STH, thyroxine and triiodothyronine]. 226 67

Previous studies using human pituitary extracts have not resolved whether the sodium retaining effects of human growth hormone (hGH) are mediated in part by increased aldosterone secretion. We have studied the effects of an authentic biosynthetic GH (bio-hGH) preparation on sodium metabolism and on the activity of the renin-angiotensin system. Six young men were administered this preparation at 0.2 U/kg/d subcutaneously for five consecutive days. Twenty-four-hour urine collections were obtained for measurement of sodium excretion and osmolality and blood collected for quantitating changes in sodium, osmolality, plasma renin activity (PRA), aldosterone, and arginine vasopressin (AVP) concentrations. Bio-hGH administration resulted in a fall in 24-hour urinary sodium excretion (197 +/- 38 to 42 +/- 20 mmol, mean +/- SD, P less than .005), a reduction in urine volume (1,652 +/- 182 to 848 +/- 348 mL, P less than .05) but not osmolality. PRA increased significantly from 1,118 +/- 73 to 3,608 +/- 1,841 fmol angiotensin 1 L/s (P less than .005), which was associated with a sevenfold increase in plasma aldosterone concentration (52 +/- 12 to 402 +/- 99 pg/mL, P less than .001). Plasma osmolality and AVP concentrations did not change significantly. The results show that Bio-GH-induced retention of sodium involves the activation of the renin-angiotensin system. This mechanism may explain in part the occurrence of plasma volume expansion and hypertension in acromegaly and suggests a risk of fluid retention and possibly hypertension in subjects receiving supraphysiological doses of bio-hGH for treatment of short stature.
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PMID:The antinatriuretic action of biosynthetic human growth hormone in man involves activation of the renin-angiotensin system. 240 33

Ketanserin, a serotonin-2-receptor antagonist, was administered to 12 subjects with mild to moderate hypertension in a randomized, double-blind, placebo-controlled crossover trial. After 6 weeks of ketanserin (40 mg every 12 h), blood pressures measured 12 h after dosing were not significantly different from those obtained during the placebo period. However, 2 h after ketanserin administration, supine systolic and diastolic blood pressures declined 11 +/- 10 mm Hg (p less than 0.01) and 6 +/- 5 mm Hg (p less than 0.005) from predose values, whereas placebo caused no change in either systolic or diastolic blood pressure. At the time of peak antihypertensive activity, plasma renin activity, aldosterone, growth hormone, and prolactin levels were unchanged. Prolactin levels decreased slightly (4.1 +/- 3.0 vs. 3.7 +/- 2.9 ng/ml, p less than 0.05) during ketanserin therapy when measured 12 h after dosing. Other pituitary hormones, serum testosterone, plasma catecholamines, and plasma lipids showed no changes. Heart rate was also unchanged. Stroke volume, measured 2 h after dosing, increased (70 +/- 22 vs. 85 +/- 31 ml, p less than 0.05) with ketanserin therapy, but cardiac output did not change significantly. Ketanserin has a moderate antihypertensive effect and neutral metabolic-hormonal profile when used as monotherapy for the treatment of hypertension. However, further studies are needed to define the frequency of dosing that will provide 24-h antihypertensive activity.
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PMID:Antihypertensive therapy with ketanserin: metabolic and hemodynamic effects. 246 37

Acromegaly is associated with an increased cardiac morbidity and mortality, but it is not clear whether this is the result of increased incidence of hypertension and coronary heart disease or of a specific disease of heart muscle. Thirty four acromegalic patients were studied by non-invasive techniques. Seven of these patients had raised plasma concentrations of growth hormone at the time of study; three were newly diagnosed and had not received any treatment. Hypertension was present in nine (26%) but only three (9%) had electrocardiographic left ventricular hypertrophy. Echocardiography showed ventricular hypertrophy in 12 (48%) and increased left ventricular mass in 17 (68%) patients. Holter monitoring detected important ventricular arrhythmias in 14 patients. Thallium-201 scanning showed evidence for coronary heart disease in eight patients. Systolic time intervals were normal except when there was coexistent ischaemic heart disease. A comparison between 19 acromegalic patients with no other detectable cause of heart disease and 22 age matched controls showed appreciably abnormal left ventricular diastolic function in the group with acromegaly. The abnormalities shown did not correlate with left ventricular mass or wall thickness. There was no difference in diastolic function between patients with active acromegaly and those with treated acromegaly. Hypertensive acromegalic patients had worse diastolic function than hypertensive controls, suggesting that hypertension may further impair the left ventricular diastolic abnormality in acromegaly. This is the first study to find evidence of subclinical cardiac diastolic dysfunction in acromegaly and it supports the suggestion that there is a specific disease of heart muscle in acromegaly.
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PMID:Subclinical cardiac dysfunction in acromegaly: evidence for a specific disease of heart muscle. 239 Mar 94

We have studied plasma ANF before and after a 4-h intravenous infusion of normal saline in eight subjects with active acromegaly and in eight age and sex-matched control subjects. Plasma ANF, serum aldosterone and blood pressure were measured basally and after 2 and 4 h and plasma renin activity basally and after 4 h. Basal plasma ANF was similar in each group (4.4 +/- 1.5 pmol/l (mean +/- SEM) in acromegalic subjects and 5.3 +/- 0.7 pmol/l in controls NS). Plasma ANF did not rise significantly after saline in the acromegalic group (2-h value, 5.9 +/- 0.9; 4-h value, 5.1 +/- 0.9 pmol/l) but did rise significantly in the control group (2-h value, 8.9 +/- 1.9; 4-h value 9.5 +/- 1.3 pmol/l, both values P less than 0.05 vs basal level). The 4-h ANF value was significantly higher in the control group than in the acromegalic group (P less than 0.05). Basal and stimulated serum aldosterone values were similar in the two groups. Plasma renin activity suppressed to a lesser extent in the acromegalic group after 4 h. The facts that basal plasma ANF was not raised in acromegalic subjects and did not respond to saline stimulation demonstrate that an abnormality of ANF control may be an important factor in the aetiology of the expanded sodium status of patients with acromegaly and hence may contribute to the hypertension seen in patients with growth hormone excess.
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PMID:Basal and saline-stimulated levels of plasma atrial natriuretic factor in acromegaly. 253 66

Partial alpha 2-agonists are thought to lower blood pressure principally by stimulation of postsynaptic central nervous system alpha 2-adrenoceptors. It is possible for some to have also a peripheral action, either by acting on the inhibitory presynaptic or as an antagonist at the postsynaptic alpha 2-adrenoceptor. In order to assess these other actions, indices are required for these receptors. Plasma growth hormone is used for the central nervous system and skin blood flow for peripheral postsynaptic alpha 2-adrenoceptors. Plasma insulin is also an index for the latter, but a double-site assay is required to detect decreases within the fasting range. Plasma noradrenaline reflects both central nervous system and peripheral modulation of sympathetic nerve activity, so that "dynamic" tests (described next) are required to dissect these two control mechanisms. Selective peripheral alpha 2-adrenoceptor stimulation or blockade may be attractive for various therapeutic applications such as hypertension, diabetes, and Raynaud's phenomenon. The balance of opposing pre- and postsynaptic alpha 2-adrenoceptor effects will be important and this may require more dynamic tests than already mentioned, such as comparing the effect of alpha-methylnoradrenaline on plasma noradrenaline (presynaptic effect) and skin blood flow (postsynaptic effect) in the presence and absence of the partial alpha 2-agonist or antagonist under investigation. Since alpha-methylnoradrenaline does not penetrate the central nervous system, any blockade of its action by a drug must be peripherally mediated. Examples of all these indices, investigations, and drugs are presented.
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PMID:Investigation of alpha 2-adrenoceptors in humans. 257 Dec 94

Using mice transgenic for the growth hormone gene (TGHM), we have studied the effects of a systemic elevation of growth hormone on vascular growth with the aim of investigating the role of vascular mass changes in producing hypertension. In contrast to human acromegaly or gigantism, there was no elevation of blood pressure in TGHM, but there were significant increases in vascular wall mass. In accordance with a presumably increased perfusion of larger organs, the medial cross-sectional areas of thoracic aorta and mesenteric resistance vessels were greater in the TGHM. These differences could be normalized in the aorta by body weight and in the mesenteric vessel by small intestine weight. Furthermore, the brain was not significantly heavier in the TGHM, and their carotid and cerebral vessels also were not larger. Wall-to-lumen ratios were similar in the aorta, carotid, and middle cerebral arteries suggesting that wall stress was the controlling factor in wall thickness. Surprisingly, the mesenteric vessels had increased wall-to-lumen ratio, which was similar to that seen in hypertensive vascular remodeling but in a normotensive animal. In an attempt to explain this finding it was noted that the pattern of mesenteric vascular networks and even organized structure within the vessel wall itself appeared to be fixed, perhaps by genetic mechanisms. Thus, vascular network structure may be a potentially limiting factor in the ability of the vessel wall to remodel and may have been responsible for the greater wall-to-lumen ratio in TGHM mesenteric vessels. A similar situation in human acromegaly or gigantism could result in a circulation marginally able to correct for other demands on blood flow resulting in about one third of cases being hypertensive.
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PMID:Vascular remodeling in the growth hormone transgenic mouse. 280 41

Cardiac enlargement and dysfunction are common in patients with acromegaly. Whether these changes are a direct consequence of growth hormone excess is obscured by the high frequency of hypertension, diabetes mellitus, or atherosclerosis in acromegalic patients. In this study, the effects of chronic elevations of growth hormone (GH) upon the heart were studied in rats with GH-producing tumours implanted subcutaneously for 4 weeks. Geometric measurements and histology were employed to detect the presence of cardiac changes. Increased mass was observed in the tumour-bearing animals. When compared with controls, in tumour-bearing rats there were significantly greater (P less than 0.05) right (0.17 +/- 0.03 v. 0.13 +/- 0.01 g) and left (0.62 +/- 0.05 v. 0.50 +/- 0.04 g) ventricular weights, external cardiac dimensions, and myocardial fibre diameters (9.4 +/- 0.6 v. 8.3 +/- 0.4 micron). However, these increases were linearly-related to increased body mass in the tumour-bearing group so that the ratios of ventricular weights to body weight were similar in both groups. Furthermore, no pathologic changes such as myocardial fibrosis or asymmetric septal hypertrophy were present in the tumour-bearing rats. Thus, under the conditions of this study, growth hormone excess induced cardiac growth, which appeared to represent a manifestation of generalized body growth rather than a distinct pathologic process.
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PMID:Cardiac morphology in rats with growth hormone-producing tumours. 293 34

The effect of renal artery clipping was tested in three groups of male Sprague-Dawley rats: (1) 30 control animals, (2) 30 hypophysectomized animals, and (3) 30 hypophysectomized animals treated with growth hormone and thyroxine. Fifteen rats in each group were clipped and 15 acted as controls. In the first group clipping raised arterial pressure and plasma renin activity. Thirty-five days after clipping, pair-perfused hindquarter preparations at maximal dilation and maximal pressor response were both increased, reflecting, respectively, decreased lumen diameters and increased media thickness in the resistance vessels. Clipping also increased left ventricular weight. Hypophysectomy eliminated the weight gain, and the maximal pressor response and maximal dilation were lower than in the control and treated groups. Hypophysectomy also considerably reduced the rise in blood pressure on clipping and, even more so, the associated structural cardiovascular changes. Replacement therapy with growth hormone and thyroxine almost restored the weight gain and also the structural responses of the heart and vessels to clipping. We conclude that pituitary hormones play an important, probably permissive, part in the development of normal vessel structure and in the adaptation of cardiovascular structure to chronic hypertension.
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PMID:The importance of hypophyseal hormones for structural cardiovascular adaptation in hypertension. 297 60

The effect of short-term (6 weeks) and long-term (7 years) guanfacine treatment on some metabolic and endocrine parameters was studied in patients with moderate hypertension. Short-term treatment decreased blood pressure and heart rate, and also produced a significant fall in urinary excretion of noradrenalin and prolactin. Long-term treatment, in addition, produced a progressive decrease in prolactin, total cholesterol and triglyceride levels, but did not change growth hormone levels and oral glucose tolerance test. The decreased mortality and morbidity which was observed under guanfacine treatment may depend not only on important antihypertensive activity of guanfacine, but also on its beneficial effect on known cardiovascular risk factors.
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PMID:Prolactin, renin, growth hormone, lipoproteins and glucose under guanfacine treatment. 311 90


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