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Query: UMLS:C0020538 (hypertension)
 170,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Late-onset congenital adrenal hyperplasia is a cause of a spectrum of clinical manifestations of postnatal androgen excess. In these cases, ACTH stimulation test with measurement of 17-Hydroxyprogesterone (17OHP) is usually done to assess 21-hydroxylase (21-OH) deficiency. Determination of the 11-deoxycortisol (S) and the S to cortisol ratio is rarely done, so that 11 beta-hydroxylase (11-OH) deficiency seems unusual. We systematically investigated this biosynthetic defect among women complaining of hyperandrogenism (n = 519) and, comparing the patient's hormonal responses to ACTH with those of 31 normal women, found 29 11-OH deficiency (5.6%): this is the largest group ever reported. S was elevated only 9 times, so that using this single determination, diagnosis of 20 enzymatic defects would not have been made. Only three of the patients (10%) had hypertension, even though the pathway of aldosterone was involved in 33% of cases (criteria: elevation of the ratio desoxycorticosterone to corticosterone). We also described one new patient with both 11-OH and 3-beta-hydroxysteroid dehydrogenase deficiencies. The patho-physiology is particularly interesting in these cases. It is concluded that the single research for 21-OH deficiency is inadequate among women complaining of hyperandrogenism: the screening for 11-OH deficiency should be made, even if blood pressure is normal.
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PMID:[Adrenal enzymatic block with late-onset caused by 11-hydroxylase deficiency. Apropos of 29 cases]. 134 Jun 85

Hyperandrogenism and lipid metabolism were shown to be related intimately. Any discussion of the nature of their relationship must include other clinical and metabolic variables such as hyperinsulinemia and UBO. Despite the many correlations among each of these factors, the appropriate sequence in the pathogenesis of these conditions has not been defined. Do conditions that result in insulin resistance (e.g., genetic defects, insulin receptor antibodies, and obesity) also lead to the development of hyperandrogenemia by direct or indirect ovarian stimulation by insulin? Does hyperandrogenism of ovarian or adrenal origin cause abnormal upper body fat distribution, in turn leading to lipid abnormalities and insulin resistance? Regardless of the issue of mechanism of causality, women with hyperandrogenism are thought to be at greater risk for cardiovascular morbidity and mortality than their normoandrogenic counterparts. These women often are obese, hypertensive, and sedentary; ingest diets high in saturated fats; and have glucose intolerance and/or insulin resistance. All these abnormalities are well known independent risk factors for the development of lipid abnormalities and cardiovascular disease. Whether hyperandrogenism is a secondary consequence of any of these or whether it is an independent contributor to lipid aberrations requires future study. Treatment strategies for hyperandrogenic women, however, should not only be directed toward alleviation of the cosmetic problem of hirsutism but also toward the prevention and treatment of cardiovascular morbidity using modalities aimed at eradicating hyperinsulinemia, hypertension, and dyslipidemia. These modalities should include modifications in diet, exercise, and weight in addition to pharmacologic and/or surgical manipulation. Weight reduction will reduce many cardiovascular risk factors. Obesity is easier to target because of the many risk factors that result in it.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Lipid metabolism and hyperandrogenism. 177 28

The development of radiolabeled cholesterols in 1969 as precursors of adrenocortical steroid production allowed the first noninvasive imaging of the adrenal cortices. FDA-NDA approval in 1984 should allow routine use of these agents in most hospitals. NP-59 is most commonly used in the diagnosis and management of Cushing syndrome; the second most common use is in the diagnosis of primary aldosteronism. It is also helpful in the differential diagnosis of adrenal and ovarian hyperandrogenism and hirsutism, and is the only noninvasive method of detecting unilateral adrenocortical hypofunction. The newest and most popular use is in the differential diagnosis of asymptomatic masses in the region of the adrenal gland discovered incidentally with CT scan ("incidentalomas"). In this situation, the NP-59 scan can define whether the tumor is in the adrenal gland and if it is functional or nonfunctional. We believe that, in the future, radiolabeled enzyme inhibitors might offer better diagnostic imaging of the adrenal cortex, although these agents will probably not be available for routine use for some time. Our development of a radioiodinated guanethidine analog, 131I-MIBG, has allowed differentiation of normal adrenal medullary function from bilateral adrenal medullary hyperplasia before the development of hypertension or tachycardia, diagnostic increases in plasma or urinary catecholamines, or abnormal CT scans. The search for a pheochromocytoma should begin with 131I-MIBG scintigraphy. While over 90% of primary pheochromocytomas occur in the abdomen, neither a survey of the abdomen nor the finding of a single tumor should conclude the search. Whereas the CT scan can only detect a mass, the MIBG scan not only detects the mass but proves whether the mass is a pheochromocytoma. We have detected small or recurrent pheos when all other localizing studies were normal. Present drug and X-ray therapy is relatively ineffective in treating metastatic cancer of the adrenal medulla. Preliminary results in five patients indicate that, for the first time, a complex organic molecule can carry 131I into adrenal neoplasms reproducibly and in therapeutically effective doses of irradiation. We may also be able to select which patients will respond to therapeutic doses of 131I-MIBG and which patients will not respond.
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PMID:Diagnosis of adrenal tumors with radionuclide imaging. 639 13

It has been shown that in vitro calcium channel blockers may regulate insulin secretion, and in vivo studies have demonstrated that they can reduce the degree of hyperinsulinemia and ameliorate the insulin-resistant state in subjects (particularly men) with obesity and hypertension. It is also commonly accepted that hyperinsulinemia may be an important factor responsible for the development of hyperandrogenism in obese women with polycystic ovarian syndrome (PCOS). We, therefore, investigated whether the administration of nitrendipine, a widely used calcium channel blocker, may improve both insulin levels and hyperandrogenism in a group of seven insulin-resistant hyperinsulinemic women with obesity and PCOS. They were treated for 7-8 days with oral nitrendipine (10 mg, twice daily) or placebo using a double blind, cross-over design. Before and after treatment, blood samples were obtained for androgen and sex hormone-binding globulin determinations, and an oral glucose tolerance test was performed, measuring glucose and insulin. Both nitrendipine and placebo failed to decrease basal and stimulated insulin levels. Moreover, no significant variations in testosterone, dehydroepiandrosterone sulfate, or sex hormone-binding globulin concentrations were observed after either treatment. Therefore, these data fail to support previous suggestions that calcium channel blockers may play a role in the treatment of hyperandrogenism and hyperinsulinemia in obese women with PCOS.
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PMID:Nitrendipine treatment in women with polycystic ovarian syndrome: evidence for a lack of effects of calcium channel blockers on insulin, androgens, and sex hormone-binding globulin. 759 49

Glucocorticoid resistance results from incomplete but apparently generalized inability of glucocorticoids to exert their effects on their target tissues. The condition is associated with compensatory elevation of circulating ACTH and cortisol, with the former causing excess secretion of both adrenal androgens and adrenal steroid biosynthesis intermediates with salt-retaining activity. The manifestations of glucocorticoid resistance vary from asymptomatic to different degrees of hypertension and/or hypokalemic alkalosis and/or hyperandrogenism, caused by elevation cortisol and other salt-retaining steroids, and of adrenal androgens, respectively. In women, hyperandrogenism can result in acne, hirsutism, male type baldness, menstrual irregularities, oligoanovulation, and infertility; in men, it may lead to infertility; and in children to precocious puberty. Different molecular defects, such as point mutations or microdeletions of the highly conserved glucocorticoid receptor gene, alter the functional characteristics or concentrations of the intracellular receptor and cause glucocorticoid resistance. The extreme variability in the clinical manifestations of glucocorticoid resistance and its mimicry of many common diseases can be explained by different degrees of glucocorticoid resistance, differing sensitivity of target tissues to mineralocorticoids and/or androgens or both, and perhaps different biochemical defects of the glucocorticoid receptor. Mineralocorticoid resistance results from the inability of aldosterone to exert its effect on target tissues. The syndrome is associated with salt loss, hypotension, and hyperkalemic acidosis. We have cloned and sequenced the cDNA of five unrelated patients with this syndrome and have not found any mutations of pathophysiological significance that would explain the resistance of these patients to aldosterone.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Syndromes of glucocorticoid and mineralocorticoid resistance. 779 8

The clinical manifestations associated with hyperandrogenism, such as hirsutism and acne, are disturbing to most patients. In addition to correcting androgen-related problems, concerns such as contraception or other metabolic problems (for example, lipid/lipoprotein abnormalities, diabetes, hypertension) associated with these disorders and the effects of unopposed estrogen on the endometrium also need to be considered. Oral contraceptives are a therapeutic modality that may address these multiple problems. The potential mechanisms of action by which oral contraceptives correct excess androgen states include gonadotropin suppression, reduction of circulating androgens, increased androgen binding, suppression of adrenal androgen secretion and inhibition of 5 alpha-reductase, and androgen receptor binding. In normal women, there is good evidence that these actions occur with the use of oral contraceptives. Among women with anovulatory hyperandrogenic states, such as polycystic ovary syndrome, the response to oral contraceptives in each of these areas is somewhat more variable. However, oral contraceptive preparations that are more estrogen dominant appear to produce many of the desired effects. From a clinical standpoint, 60-100% of women with hirsutism improve on oral contraceptives; acne shows improvement in a high percentage of women as well. The use of oral contraceptives also reduces the risk of endometrial hyperplasia that may be associated with anovulatory states. Finally, current low-dose preparations containing the newer progestins (for example, norgestimate and desogestrel) appear to be either neutral, or perhaps beneficial, with respect to their metabolic impact.
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PMID:The role of oral contraceptives in the treatment of hyperandrogenic disorders. 782 33

Familial glucocorticoid resistance (FGR) is a rare hereditary disorder characterized by hypercortisolism and the absence of stigmata of Cushing's syndrome. The inability of glucocorticoids to exert their effects on target tissues is compensated for by increases in circulating corticotropin (ACTH) and cortisol, the former causing excess secretion of both adrenal androgens and adrenal steroid-biosynthesis intermediates with salt-retaining activity. There is considerable variability in the clinical presentations of FGR ranging from asymptomatic, to isolated chronic fatigue and to hypertension with or without hypokalemic alkalosis or to hyperandrogenism, or both. In women, hyperandrogenism can result in acne, hirsutism, menstrual irregularities, oligoanovulation, and infertility; in men it may lead to infertility and in children to precocious puberty. The reported molecular defects in FGR, such as point mutations and a microdeletion of the glucocorticoid receptor (GR) gene, cause partial resistance by, respectively, compromising the function of the GR or decreasing its intracellular concentration in glucocorticoid target tissues. Complete glucocorticoid resistance is believed to be incompatible with life in humans. Hence, the glucocorticoid resistance cases reported have been partial and of variable degree. The extreme variability in the clinical manifestations of the disorder can, additionally, be explained by differing sensitivity of target tissues to mineralocorticoids or androgens or both, and perhaps by different biochemical defects of the glucocorticoid receptor, causing selective resistance of certain glucocorticoid responses in specific tissues. Isolated tissue-resistance from a somatic mutation of the GR in a corticotropinoma from a patient with Nelson's syndrome was also found, suggesting that this may be a mechanism of tumorigenesis. There is additional evidence that defects of GR function can appear surreptitiously in a variety of clinical conditions, suggesting that glucocorticoid resistance in humans may be involved in the pathogenesis and/or clinical picture of a plethora of disease states, of which FGR is the archetype.
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PMID:Glucocorticosteroid resistance in humans. Elucidation of the molecular mechanisms and implications for pathophysiology. 782 90

Familial glucocorticoid resistance results from the partial inability of glucocorticoids to exert their effects on their target tissues throughout the organism. The condition is associated with compensatory elevations of circulating ACTH and cortisol, with the former causing excess abnormal secretion of steroids with mineralocorticoid and androgen activity. The manifestations of glucocorticoid resistance vary from asymptomatic to chronic fatigue, to varying degrees of hypertension and/or hypokalaemic alkalosis and hyperandrogenism. The latter can be manifest in women as acne, hirsutism, menstrual irregularity, oligoanovulation and infertility, in men as infertility, and in children as precocious puberty. Different molecular defects of the highly conserved glucocorticoid receptor gene, altering its concentration and functional characteristics, appear to cause the syndrome of familial glucocorticoid resistance. Depending on the molecular defect, this syndrome is transmitted by an autosomal dominant or recessive trait. There are recent suggestions that non-generalized forms of glucocorticoid resistance may exist, resulting in autoimmune-inflammatory phenomena or psychiatric manifestations.
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PMID:Hormone-nuclear receptor interactions in health and disease. Glucocorticoid resistance. 798 Aug 39

Review of pertinent research demonstrates a link between sex steroids and vascular disease. Evidence for this association includes: beneficial effect of estrogens on the blood lipids (elevation of high-density lipoproteins and lowering of low-density lipoproteins), adverse effect of high-dose synthetic estrogens on coagulation, vasodilating action of progesterone, and adverse effect of androgens and androgen-derived progestagens on lipoproteins. Natural steroids appear to differ in their impact from synthetic compounds; endogenous hormones from exogenous and parenterally administered preparations. Furthermore, steroids have different effects at different concentrations, doses, and ratios. Their actions also vary according to age, sex, pregnant or nonpregnant state, body weight, smoking, and other risk factors. In this article, the following areas will be considered in relation to the impact of sex steroids on cardiovascular phenomena and hypertension: menstrual cycle and its disturbances; amenorrhea and hyperandrogenism; pregnancy with its hyperdynamic state and a tendency to gestational hypertension; oral-contraception-induced, dose-related thromboembolic phenomena; menopause and estrogen deficiency states with increased incidence of atherogenesis; estrogen replacement therapy with its decrease in cardiovascular morbidity; other hormonal therapies which induce hypoestrogenism with its consequences. The evidence is emerging that hormonal modifications may be useful in the prevention of cardiovascular morbidity.
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PMID:The role of reproductive hormones in vascular disease and hypertension. 811 16

During the last twenty years we witnessed a remarkable increase in knowledge of the mechanism as regards insulin action, the central hormone of metabolic regulations. Interest in cellular and molecular mechanisms of action was conditioned by a high prevalence of insulin resistance and the fact that insulin resistance holds a key position in the pathogenesis of many diseases, in particular atherosclerosis, obesity, hypertension, diabetes mellitus type II, ovarian hyperandrogenism and others. The syndrome of hyperinsulinaemia/insulin resistance is the basic component of the so-called X syndrome defined in 1988 by Reaven. It is encountered in subjects with a normal glucose tolerance but a predisposition for diabetes type II. If this disposition, probably genetic by nature, is potentiated by the central type of obesity and a sedentary lifestyle it can influence the development of hypertension and dyslipidemia. The sum of these factors promotes acceleration of atherosclerosis and frequently its premature manifestations: myocardial infarction and other cardiovascular diseases which hold the first place as regards causes of death on a world wide scale. It is important to identify but also to treat this complex not only metabolic risk factors for macrovascular diseases. It is a paradox that some drugs used as antihypertensives can cause deterioration of insulin resistance, subsequently influence in an adverse manner dyslipidemia and thus increase the metabolic risk of cardiovascular diseases. In the submitted paper the authors tried to summarize hitherto expressed views on the syndrome of hyperinsulinaemia and insulin resistance, using as a basic the results of their own work.
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PMID:[Hyperinsulinemia--the common denominator in type II diabetes mellitus,obesity, hypertension, hypertriglyceridemia and atherosclerosis]. 813 Nov 78


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