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Query: UMLS:C0001430 (adenoma)
 21,222 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Exciting developments in knowledge of primary aldosteronism include description of new subtypes and elucidation of the genetic basis of one variety. Furthermore, relatively simple biochemical screening (aldosterone/renin ratio) has disclosed that primary aldosteronism is more common than previously thought, by diagnosing patients at an earlier, normokalaemic stage. The mutant gene discovered in the glucocorticoid-suppressible variety (FHI) codes for an aldosterone biosynythetic enzyme normally controlled by angiotensin II, and now controlled by corticotropin. The zona fasciculata is hyperplastic and makes aldosterone and "hybrid steroids" 18-oxocortisol and 18-hydroxycortisol in excess, in response to ACTH but not to angiotensin II. Adrenal tumours have not yet been described in this condition. Aldosterone-producing adenomas (Conn's syndrome) are also commonly composed of zona fasciculata-like cells, make "hybrid steroids" in excess and are very sensitive to ACTH but not to angiotensin II. We have described a new variety of aldosterone-producing adenoma which is responsive to angiotensin II (AII-responsive APA), consists of at least 20% zona glomerulosa-like cells, and does not make "hybrid steroids" in excess. We have also described a new familial variety of primary aldosteronism that includes tumours and is not glucocorticoid-suppressible (FHII). We propose that primary aldosteronism is a spectrum of genetic diseases expressed as either hyperplasia or neoplasia, and that morphological and genetic diversity explains biochemical and clinical behaviour.
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PMID:Primary aldosteronism: hypertension with a genetic basis. 135 75

Fifteen patients with primary aldosteronism were classified as angiotensin II-unresponsive aldosterone-producing adenoma (AII-U APA, n = 9), or angiotensin II-responsive aldosterone-producing adenoma (AII-R APA, n = 6), based on the responsiveness of aldosterone to upright posture and to angiotensin II infusion. Lack of aldosterone response to angiotensin II infusion immediately postoperatively in the AII-R APA subtype was consistent with previous responsiveness residing solely within the adenoma. Cortisol levels in five of the six patients with AII-R APA failed to suppress normally with dexamethasone consistent with some autonomous production of cortisol by the adenoma. In contrast, cortisol levels suppressed normally during dexamethasone administration in all patients with AII-U APA. This biochemical distinction can be added to the previously described overproduction of 18-oxo cortisol in AII-U APA but not in AII-R APA. Histological examination of adenoma sections revealed predominantly (greater than or equal to 50%) zona fasciculata type cells in AII-U APA. In contrast, AII-R APA contained less than 20% zona fasciculata type. Thus, biochemical differences between AII-U APA and AII-R APA subtypes of primary aldosteronism may be due to underlying differences in cellular composition of the aldosterone-producing adenomas.
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PMID:Histological and biochemical distinctiveness of atypical aldosterone-producing adenomas responsive to upright posture and angiotensin. 206 Jan 45

1. The adrenal cortical 'hybrid' steroids 18-oxocortisol (18-OF) and 18-hydroxycortisol (18-OHF) are elevated in patients with typical angiotensin-unresponsive aldosterone-producing adenoma (AII-unresponsive APA) and fall to normal following surgical removal of the adrenal containing the tumour. Since 18-OF was six times the upper limit of normal pre-operatively, the tumour was the site of overproduction of hybrid steroids. 2. The failure of angiotensin-responsive APA to overproduce the hybrid steroids may be linked to their more 'normal' production of cortisol, which falls significantly on removal of the tumours. 3. Hybrid steroid levels were also normal in patients with idiopathic hyperplasia of the adrenals (IHA) and in low renin essential hypertension. 4. In AII-responsive APA, glucocorticoid-suppressible hyperaldosteronism (GSH) and IHA, the hybrid steroids showed brisk responses to stimulation by ACTH and suppression by dexamethasone of endogenous ACTH. 5. Long-term suppression by dexamethasone of hybrid steroids in GSH is consistent with ACTH dependence, rather than angiotensin dependence. 6. Studies of the regulation of hybrid steroid secretion in various categories of hypertension will further define the biosynthetic distinctiveness which is already useful diagnostically.
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PMID:Adrenal transitional zone steroids, 18-oxo and 18-hydroxycortisol, useful in the diagnosis of primary aldosteronism, are ACTH-dependent. 285 57

1. Normokalaemic primary aldosteronism (PA) masquerades as 'essential hypertension', and 50% of patients with aldosterone-producing adenoma (APA) are normokalaemic at presentation to this unit. 2. Angiotensin-responsive (AII-R) APA is as common as angiotensin-unresponsive (AII-U) APA, and requires adrenal venous sampling for differentiation from bilateral adrenal hyperplasia (BAH). 3. From 1981 to 1992, 55 patients with APA underwent unilateral adrenalectomy and were followed up for at least 12 months postoperatively. Hypertension was cured in 55% and improved in the remainder. 4. Cure rate was lower (P < 0.001) in males (11/32, 34%) vs females (19/23, 83%), lower (P < 0.005) in patients over 45 years of age (13/33, 39%) vs those 45 years or younger (17/22, 77%), lower (P < 0.05) in AII-R APA (11/28, 39%) vs AII-U APA (19/27, 70%) and tended to be lower (not significant) in normokalaemic APA (7/17, 41%) vs hypokalaemic APA (23/38, 61%). 5. A higher proportion (P <0.001) of AII-R APA patients were males (23/28, 82%) vs AII-U APA (9/27, 33%), and a higher proportion were from the older age group AII-U APA 13/27, 48%; P < 0.05). Females with AII-U APA who were hypokalaemic had a very high cure rate (16/17, 94%). 6. Since unilateral adrenalectomy cures or improves blood pressure in normokalaemic and AII-R as well as in hypokalaemic and AII-U patients, all hypertensives should be screened for PA, and AII-R APA differentiated from BAH in proven PA.
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PMID:Response to unilateral adrenalectomy for aldosterone-producing adenoma: effect of potassium levels and angiotensin responsiveness. 792 99

1. Nineteen out of 47 patients (40%) with confirmed unilateral aldosterone-producing adenoma (APA) were responsive to low-dose angiotensin II infusion (AII-R), as defined by an increase in plasma aldosterone concentration of > 50% over basal at 2 ng/kg per min for 60 min. 2. Seven to ten days after unilateral adrenalectomy, aldosterone was no longer responsive to angiotensin infusion in AII-R APA (100%, n = 17). Therefore, angiotensin responsiveness resides within the adenoma in AII-R APA. 3. The upright posture test for the differentiation of adenoma from hyperplasia was unreliable for the AII-R APA (26%), but generally reliable in the angiotensin-unresponsive subtype, (AII-U APA, 96%). 4. The reported predominance of females in APA was seen in AII-U APA (68%), but was reversed in AII-R APA (37%).
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PMID:Angiotensin-responsive aldosterone-producing adenomas: postoperative disappearance of aldosterone response to angiotensin. 832 14

1. In familial hyperaldosteronism type I (FH-I), expression of an adrenocorticotropic hormone (ACTH)-dependent hybrid 11 beta-hydroxylase/aldosterone synthase gene causes excessive 'hybrid steroid' (18-hydroxy- and 18-oxo-cortisol) production. In order to study the mechanism of elevated 'hybrid steroid' levels in angiotensin-unresponsive (AII-U) aldosterone-producing adenoma (APA), we compared responses of 24 h urinary 18-oxo-cortisol, aldosterone and cortisol to dexamethasone (0.5 mg q6h for 4 days) in 11 FH-I patients, 11 patients with AII-U APA, 11 patients with AII-responsive (AII-R) APA and 10 patients with bilateral adrenal hyperplasia (BAH). 2. Consistent, marked suppression (by at least 60%) of 18-oxo-cortisol levels by dexamethasone was seen in all groups except AII-U APA. Aldosterone levels were consistently suppressed to undetectable levels only in FH-I. Cortisol levels were suppressed to undetectable levels in all patients except two with AII-U APA. 3. Production of both 18-oxo-cortisol and aldosterone (and occasionally cortisol) in AII-U APA appears relatively ACTH-independent, consistent with a common mechanism involved in the formation of these two steroids from their respective precursors, which differs from that in FH-I. 4. In AII-R APA and BAH, 18-oxo-cortisol production appears markedly ACTH-dependent, but aldosterone production is not.
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PMID:Production of 18-oxo-cortisol in subtypes of primary aldosteronism. 880 May 94

The basic clinical pathophysiology of primary aldosteronism (PAL) was described by Conn in terms of autonomous production of aldosterone, secondary suppression of renin and development of hypertension with hypokalaemic alkalosis. Conn recognised a normokalaemic form of the syndrome and suggested that it might masquerade as essential hypertension and be not uncommon. This was hotly disputed at the time, and normokalaemic PAL considered rare until recently, and, as a consequence, overlooked. The advent of a simple screening test, the aldosterone-renin ratio, led to recognition that normokalaemic forms are not uncommon. In fact, PAL may be the commonest specifically treatable and potentially curable form of hypertension so far identified. In all patients with PAL confirmed by lack of suppressibility ("autonomy") of aldosterone production, Familial Hyperaldosteronism Type I (FH-I, glucocorticoid-remediable hyperaldosteronism, reviewed elsewhere in this issue) should first be excluded by dexamethasone suppression or genetic testing. Capable of causing fatal stroke in young people affected by this dominantly inherited disorder, it can be reversed by doses of glucocorticoids such as dexamethasone which partially suppress endogenous ACTH without producing "steroid" side-effects. The remaining varieties of PAL may eventually also be shown to have a genetic basis, but are currently treated either by excision of a solitary aldosterone-secreting tumour or by antagonism of aldosterone's action in the renal tubule. It is possible that both adrenal cortices are genetically predisposed to overproduction of aldosterone in all varieties of PAL, whether because of anomalous regulation of aldosterone secretion or because of a tendency towards hyperplasia and neoplasia. Aldosterone-producing adenomas (APA's) can be divided into two main subtypes based on morphology and biochemical behaviour. The first subtype to be morphologically and biochemically characterised is composed predominantly of fasciculata-like cells and is unresponsive to angiotensin II (ALL-U-APA). The more recently characterised subtype is composed predominantly of glomerulosa-like cells, is responsive to angiotensin II (AII-R-APA) and could previously have been misdiagnosed as bilateral hyperplasia. The renin gene is often overexpressed in the second variety of adenoma, and in surrounding non-tumorous cortex, and the two subgroups show different allelic frequencies for RFLP's of the constitutive renin gene and the constitutive ANP gene locus. Unilateral, solitary, benign adrenal cortical adenomas producing aldosterone (APA's) represent a potentially surgically curable form of hypertension. Adrenal venous sampling (AVS) should always be performed because APA's are biochemically recognisable by adrenal venous steroid measurement before they are identifiable by computerised tomography or scintigraphy, and adrenal masses seen on CT may not be responsible for PAL. The secretory activity of adrenal masses must therefore be established by AVS before surgical removal. Discovery of an adrenal mass on CT requires formulation of a plan, whether or not it is found to be secreting hormones in excess. Independently of the treatment of the patient's hypertension, an apparently nonfunctioning adrenal mass ("incidentaloma") should be removed if 2.5 cm or more in diameter, because of the risk of cancer. Smaller masses require long-term follow-up. Primary aldosteronism not lateralising on AVS should be treated with low dose spironolactone, or with amiloride. For any such patients intolerant of medical treatment, laparoscopic removal of the adrenal showing higher production of aldosterone on AVS is an option worthy of consideration.The resultant reduction in mass of tissue autonomously secreting aldosterone should improve hypertension, as aldosterone productions falls below a critical level, and may even be curative in the short, medium or long term, depending on the rate of growth and activity of au
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PMID:Primary aldosteronism. 922 Dec 68

Aldosterone secretion in most patients with aldosterone-producing adenomas (APAs) is typically unresponsive to angiotensin II stimulation (AII-unresponsive, AII-U). In some patients, however, plasma aldosterone increases in response to AII stimulation (AII-responsive, AII-R). This differential aldosterone responsiveness could be related to the levels of type 1 AII receptors (AT1R) in the APA. To test this hypothesis, plasma aldosterone levels in response to upright posture and/or sequential high- and low-salt diets were measured by radioimmunoassay in nine patients with APAs. AT1R mRNA levels in the adenomas were quantified by competitive reverse transcription-polymerase chain reaction and correlated to the cellular composition of the adenoma. Two patients were categorised as AII-R by an increase of plasma aldosterone greater than 50% over the baseline. The remaining seven patients who had blunted plasma aldosterone responses were classified as AII-U. Histologically, the AII-R APAs consisted predominantly of zona glomerulosa (ZG)-like cells (> 90%), while the AII-U APAs contained zona fasciculata (ZF)-like cells ranging from 28 to 72%. There was an inverse relationship between the levels of AT1R mRNA in the APA and the percentage of ZF-like cells in the adenoma (n = 9, r = 0.73, P < 0.05). In situ hybridisation findings demonstrated that AT1R mRNA was more uniform and intensive in ZG-like cells than in ZF-like cells. These results suggest that heterogenous aldosterone responsiveness to angiotensin in APAs is histologically dependent and related to the differential expression of AT1R mRNA in the adenoma.
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PMID:Differential expression of type 1 angiotensin II receptor mRNA and aldosterone responsiveness to angiotensin in aldosterone-producing adenoma. 1043 22

In patients with hypertension and chronic renal parenchymal disease, BP should be controlled to 130/85 mmHg or lower (125/75 mmHg) in patients with proteinuria in excess of 1 g/day. Reducing dietary sodium (< 7 g/day) and protein (< 0.6-0.7 g/kg) helps control high BP and renal function in patients with renal insufficiency. As first antihypertensive drug, ACE inhibitors or long-acting Ca antagonists are recommended. In patients with renovascular hypertension, angioplasty is the first choice increasingly to be accompanied by stenting, and surgical revascularization is the next choice. As antihypertensive drugs, beta blockers, ACE inhibitors, and AII-receptor blockers are recommended. Hypertension accompanied by endocrine disease with adenoma or tumor is almost cured or improved by surgical removal. Spironolactone and Ca antagonists are used in patients with idiopathic aldosteronism (bilateral hyperplasia). Alpha and beta blockers are used in patients with pheochromocytoma during preoperative period.
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PMID:[Secondary hypertension]. 1139 95