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Query: UMLS:C0011849 (diabetes)
 277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Subclinical Cushing's syndrome (SCS) caused by adrenal incidentalomas is frequently associated with overweight and insulin resistance. Metabolic syndrome X may therefore be a clue to the presence of CS. However, the incidence of CS in this situation remains unknown. We have conducted a prospective study to evaluate the prevalence of occult CS in overweight, type-2 diabetic patients devoided of specific clinical symptoms of CS. Two hundred overweight, type-2 diabetic patients, consecutively referred for poor metabolic control (HbA(1C) > 8%), were studied as inpatients. A first screening step was performed with the 1-mg overnight dexamethasone suppression test (DST) using a revised criterion for cortisol suppression (60 nmol/liter) to maximize the sensitivity of the procedure. A second confirmatory step of biochemical investigations (midnight plasma cortisol concentration, plasma cortisol circadian rhythm, morning plasma ACTH concentration, 24-h urinary free cortisol, and 4-mg i.v. DST) was performed in patients with impaired 1-mg DST. A third step of imaging studies was performed according to the results of second-step investigations. Fifty-two patients had impaired 1-mg DST. Among these, 47 were further evaluated. Thirty were considered as false positives of the 1-mg DST, whereas 17 displayed at least one additional biological abnormality of the hypothalamic-pituitary-adrenal axis. Definitive occult CS was identified in four patients (2% of the whole series) with Cushing's disease (n = 3) and surgically proven adrenal adenoma (n = 1). Definitive diagnosis remains to be established in seven additional patients (3.5%) with mild occult CS associated with unsuppressed plasma ACTH concentrations and a unilateral adrenal tumor of 10-29 mm in size showing prevalent uptake at radiocholesterol scintigraphy. In conclusion, a relatively high prevalence of occult CS was found in our study. Further studies are needed to evaluate the impact of the cure of occult CS on obesity and diabetes mellitus in these patients. Such studies might provide a rationale for systematic screening of occult CS in this population.
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PMID:Occult Cushing's syndrome in type-2 diabetes. 1467 Nov 73

A 59-year-old Japanese woman, admitted for the treatment of diabetes mellitus and hypertension, was incidentally discovered to have a solid mass of 1.4 cm in diameter by CT scan with the attenuation value of 38 Hounsfield units, relatively higher for ordinary adrenal adenomas. Magnetic resonance imaging revealed no reduction of signal intensity on opposite-phase image on T1-weighted sequence. Adrenal scintigraphy imaging with 131I-adosterol did not show any uptake of the isotope in the area corresponding to both adrenals. Although she had no characteristic feature of overt Cushing's syndrome, her serum cortisol level was not suppressed after an overnight dexamethasone administration. She was diagnosed as having preclinical Cushing's syndrome. Left adrenalectomy was performed, revealing the well-circumscribed black tumor, mainly consisted of compact cell, in which cytoplasm was filled with numerous granules pigmented with dark to golden brown colors on hematoxylin-eosin staining. These findings suggested that her incidentaloma was a black adrenal adenoma. Production of steroid hormones was confirmed by immunohistochemical analysis of steroidogenic enzymes and by measurement of the tissue contents of hormones, whose levels were comparable with those in adenomas of overt Cushing's syndrome. This is the first case report of preclinical Cushing's syndrome resulting from black adrenal adenoma.
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PMID:Preclinical Cushing's syndrome resulting from black adrenal adenoma. A case report. 1521 Oct 88

Authors evaluated the prevalence of symptoms of the metabolic syndrome and insulin resistance in 25 patients with adrenal incidentalomas (10 men, 15 women) of the mean age 57.9+/-15 years. 15 patients had adrenal adenoma determined by CT or MR scan and 10 had unilateral or bilateral hyperplasia. The prevalence of obesity was 72%, arterial hypertension 60%, diabetes mellitus or impaired glucose tolerance 28%, hyperlipidemia 56% and hyperuricemia 20%, respectively, which is more frequent occurrence than that in normal human population. Patients with adrenal adenomas had mildly but significantly higher body mass index (BMI, p<0.05) and insulin resistance calculated as HOMA IR (p<0.05) and FIRI (p<0.05) and significantly higher values of serum ferritin (p<0.01). Plasma cortisol values were slightly but not significantly higher in the group with adrenal adenomas. Authors conclude that adrenal adenomas are probably more related to the metabolic syndrome than adrenal hyperplasia.
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PMID:Adrenal incidentalomas and the metabolic syndrome--are there any differences between adenoma and hyperplasia? 1683 60

A benign virilizing adrenal adenoma is rare among adrenal neoplasms in middle-aged women. A 39-yr-old Japanese woman who presented with hirsutism, obesity, diabetes mellitus and hypertension was admitted. Plasma concentrations of testosterone and DHEAS were high. While the basal level of plasma ACTH was suppressed, serum cortisol level was high and its circadian rhythm was absent. Serum cortisol level was not suppressed with the low- and high-dose overnight dexamethasone suppression test. Abdominal computed tomography showed a left adrenal tumor, and an adrenocortical scintigraphy revealed uptake of the tracer on the left side. Polycystic ovaries were also found and bone mineral density revealed osteoporosis. Histopathological features of resected adrenal tumor were consistent with those of adrenocortical adenoma. Immunoreactivity of all the steroidogenic enzymes was apparent in the tumor cells and particularly dehydroepiandrosterone sulfotransferase (DHEA-ST) immunoreactivity was markedly expressed. Cortical atrophy and reduced expression of DHEA-ST were detected in the cortex of the adjacent non-neoplastic adrenal gland. Plasma testosterone, DHEAS and cortisol levels returned to normal after surgery, concomitantly with the disappearance of polycystic ovaries. This is a very rare case of virilizing adrenocortical adenoma complicated with Cushing's syndrome (CS).
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PMID:Unilateral adrenalectomy improves insulin resistance and polycystic ovaries in a middle-aged woman with virilizing adrenocortical adenoma complicated with Cushing's syndrome. 1847 59

Primary aldosteronism (PA) is the most common cause of mineralocorticoid hypertension. Different studies, using the plasma aldosterone concentration to plasma renin activity ratio (PAC/PRA) for the screening of patients with hypertension, have shown a marked increase in the detection rate of PA. Idiopathic bilateral adrenal hyperplasia (IHA) and aldosterone-producing adrenal adenoma (APA), are the leading causes of primary aldosteronism. Glucocorticoid-remediable aldosteronism (GRA), also called familial hyperaldosteronism type I, familial hyperaldosteronism type II and carcinomas are rare causes of PA. Patients with hypertension and hypokalemia, those with a family history of hypertension and stroke at an early age, or patients with medication-resistant hypertension should be screened for PA using the PAC/PRA ratio. If a high ratio is found, a sodium loading test or a captopril test is warranted to confirm the diagnosis. Adrenal gland imaging is important in subtype differentiation (APA vs IHA). Adrenal venous sampling should be used when other tests prove inconclusive. Genetic testing has facilitated detection of GRA. Surgery is considered the treatment of choice for patients with APA, while bilateral hyperplasia subtypes are treated medically. Normalization of aldosterone levels or aldosterone receptor blockade are necessary to prevent the morbidity and mortality associated with hypertension, hypokalemia, and cardiovascular damage.
Exp Clin Endocrinol Diabetes 2007 Mar
PMID:Detecting and treating primary aldosteronism: primary aldosteronism. 1742 5

Adrenal incidentalomas (AIs) have been associated with an increased incidence of several cardiovascular risk factors, similar to overt Cushing syndrome. Data about the involvement of the adipokines in the development of insulin resistance and atherosclerosis in AI are completely lacking. The aim of the present study was to evaluate plasma interleukin 6 (IL-6), adiponectin, resistin, tumor necrosis factor alpha (TNF-alpha), and monocyte chemoattractant protein 1 (MCP-1) levels in patients with AI. Plasma IL-6, adiponectin, resistin, TNF-alpha, and MCP-1 levels were measured in 20 healthy subjects (6 males; 14 females; age, 58.5 +/- 2.2 years; body mass index, 28.1 +/- 0.9 kg/m(2)) and in 20 patients (5 males; 15 females; age, 57.9 +/- 2.0 years; body mass index, 28.0 +/- 0.8 kg/m(2)) with AI and typical computed tomographic features of cortical adenoma, who were not affected by diabetes mellitus, hypertension, or other relevant diseases. All patients underwent anthropometric measurements and determination of basal corticotropin, cortisol, and urinary free cortisol excretion. Overnight dexamethasone test and 250-microg corticotropin test were performed in all cases. A subclinical Cushing syndrome was found in 3 patients, whereas the others had apparently nonfunctioning masses. Plasma IL-6, adiponectin, resistin, TNF-alpha, and MCP-1 levels were higher in patients than in controls (64.4 +/- 2.8 vs 5.5 +/- 0.6 pg/mL, 13.7 +/- 1.3 vs 3.6 +/- 0.5 microg/mL, 12.5 +/- 1.9 vs 5.1 +/- 0.2 ng/mL, 27.0 +/- 1.5 vs 22.2 +/- 1.5 pg/mL, 172.5 +/- 20.0 vs 104.4 +/- 19.5 pg/mL, respectively; P < .05) and apparently not affected by the presence of visceral obesity. Plasma IL-6 levels were negatively correlated with urinary free cortisol (r = -0.461, P < .05), and TNF-alpha levels were positively correlated with cortisol after the administration of 1 mg dexamethasone (r = 0.636, P < .01). In conclusion, patients with AI may show increased levels of adipokines (apparently not related to the presence of diabetes, hypertension, or obesity), which may be affected by the presence of the adrenal adenoma. For some adipokines, a direct production from the adrenal gland may be hypothesized even if other studies are needed to better investigate the role of adipokines in states of altered cortisol secretion.
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PMID:Adipokine levels and cardiovascular risk in patients with adrenal incidentaloma. 1744 45

Primary aldosteronism is the most common cause of secondary hypertension, accounting for about 10% of all forms of high blood pressure. Life-time pharmacological therapy is the treatment of choice for primary aldosteronism due to idiopathic adrenal hyperplasia (IHA), while adrenalectomy is effective in curing most patients with an aldosterone producing adenoma (APA). Far from being a benign form of hypertension, primary aldosteronism is characterized by the development of cardiovascular renal and metabolic complications, including left ventricular hypertrophy, myocardial infarction, atrial fibrillation and stroke, microalbuminuria, renal cysts as well as metabolic syndrome, glucose impairment and diabetes mellitus. We review recent clinical experience with the above mentioned complications and long-term outcomes of blood pressure normalization and cardiac, renal and gluco-metabolic complications in patients with primary aldosteronism, after medical treatment with mineralocorticoid receptor antagonists and surgical treatment. We conclude that removal of adrenal adenoma results in normalization of the renin-angiotensin-aldosterone system (RAAS) and of kalaemia and improvement of blood pressure levels in all patients. Complete resolution of hypertension is achieved in nearly half of treated patients. Moreover, unilateral adrenalectomy is the best treatment to have the regression of cardiovascular, renal and metabolic complications in patients with APA. On the other hand, targeted medical treatment with aldosterone antagonists improves blood pressure control and appears able to prevent the progression of cardiac and metabolic complications in patients with IHA.
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PMID:Management of primary aldosteronism: its complications and their outcomes after treatment. 1935 5

Cushing's syndrome is characterized by excessive elevation of glucocorticoid concentrations. In rare cases, the treatment of Cushing's syndrome may result in unmasking or aggravation of diseases responsive to glucocorticoid medication. We report two cases of sarcoidosis following Cushing's syndrome. A 43 year-old male developed cutaneous sarcoidosis and mediastinal lymphadenopathy after resection of an ACTH-secreting pituitary microadenoma. A 32 year-old female showed cutaneous sarcoidosis, arthralgia, mediastinal lymphadenopathy and elevation of angiotensin-converting enzyme and interleukin 2-receptor concentrations after traumatic adrenal bleeding, which ceased formerly undiagnosed hypercortisolism caused by an adrenal adenoma. Sarcoidosis seems to be a rare sequel following the treatment of hypercortisolism. Skin affections were present and suggestive for the diagnosis in all reported cases. As some cases are probably missed when skin affections are lacking, a more frequent evaluation of patients after Cushing's syndrome for the possible diagnosis of sarcoidosis might be necessary.
Exp Clin Endocrinol Diabetes 2010 Mar
PMID:Sarcoidosis following Cushing's syndrome: A report of two cases and review of the literature. 2016 6

A 57 yr old man presented to endocrinology clinic with a six year history of poorly controlled hypertension which was treated with Metoprolol 200 mg/day and Enalapril 20 mg/day. He was asymptomatic but incidentally hypokalaemia was detected while having cholecystectomy, two years prior to his clinic appointment. He had never been on diuretics or laxatives. He was started on potassium supplements (120 mmol/d) and advised to increase dietary potassium by the surgical team. A detailed personal history revealed ingestion of 300-500 g licorice per day. Physical examination was unremarkable apart from increased blood pressure of 180/105 mmHg. Following the initial visit, his serum electrolyes (K+3.7 mmol/l) were normal with potassium supplementation and as were morning cortisol, ACTH, 11-deoxycortisol and plasma metanephrines. 17 OH-P, DHEAS and androstenedione were normal but testosterone was low. Morning ambulant aldosterone was slightly increased at 801 pmol/L and renin activity was undetectable. Urinary 24 h aldosterone excretion was significantly increased at 162 ng/24 h with normal cortisol and catecholamine excretion. Four weeks following advice to stop licorice, serum potassium decreased to 3.4 mmol/L despite continuous supplementation. Morning plasma aldosterone increased to 1 449 pmol/ml, renin activity remained undetectable but 24 h urine aldosterone excretion increased to 434 ng/24 h with a reduction in urinary cortisol excretion. Interestingly 17 OH-P and androstenedione levels, although within the reference range, were slightly higher compared to the levels whilst on licorice. Testosterone level had significantly increased to be within normal range. Abdominal imaging with US and MRI showed a 2.7 cmx2.2 cmx1.7 cm left adrenal mass. He underwent laparoscopic left adrenalectomy and histology confirmed aldosterone producing adrenal adenoma. Post-operatively his aldosterone and serum potassium levels normalized and he became normotensive without any antihypertensive medication.
Exp Clin Endocrinol Diabetes 2010 Apr
PMID:Licorice - or more? 2021 99

Impaired glucose tolerance and diabetes mellitus are a manifestation of several well recognised endocrine disorders. Hyperglycaemia subsides upon removal of the underlying cause in these conditions - usually a hormone secreting tumour. We describe two subjects who were cured of their poorly controlled diabetes mellitus following surgical removal of a phaeochromocytoma and a cortisol secreting adrenal adenoma and review the mechanisms underlying glucose intolerance in endocrine disorders. The reported incidence of diabetes is variable in these conditions and may range between 2-95%. The severity is also variable as some affected individuals have only minor glucose intolerance while others have frank symptomatic diabetes mellitus which forms a major manifestation of their illness. The mechanisms causing hyperglycaemia are (a) insulin resistance, (b) increased hepatic glucose production and output, (c) decreased insulin production and release and (d) increased intestinal glucose absorption. Multiple intermediate mechanisms which include electrolyte perturbations and hormone receptor and post receptor mediated effects are responsible for these abnormalities. An understanding of these mechanisms and diagnostic strategies is important as these may be used to advantage in managing these patients. We describe some of these in greater detail below.
Curr Diabetes Rev 2010 Sep
PMID:Glucose intolerance and diabetes mellitus in endocrine disorders - two case reports and a review. 2059 62


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