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Query: UMLS:C0037315 (
sleep apnea
)
8,000
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Patients with
Cushing's syndrome
(CS) frequently have sleep complaints. We evaluated sleep polysomnographically in 22 patients, including 17 with pituitary-ACTH-dependent Cushing's disease (CD) and five with CS from an adrenal tumor. Data were compared to healthy controls of comparable age. Seven patients (32%) demonstrated at least mild
sleep apnea
(> or = 9.4 events/hour), and four of 22 (18%) had > or = 17.5 events/hour. The apneic CD and CS patients had a trend for a greater complaint of excessive daytime sleepiness. Both apneic and nonapneic groups had considerable snoring and obesity. The electroencephalographic (EEG) sleep of nonapneic patients was compared to that of normal subjects. Nonapneic CD patients differed strikingly from healthy volunteers in sleep continuity and architecture, demonstrating lighter, fragmented sleep. Rapid eye movement (REM) sleep in CD patients bore many similarities to the sleep of patients with major depression, with REM latency being significantly shortened and REM density significantly increased. Continued examination of EEG sleep in CD patients may shed light on similarities in pathophysiology between CD and major depression, disorders which are characterized by both a dysfunction of the hypothalamic-pituitary-adrenal axis and alterations in mood.
...
PMID:Sleep architecture and sleep apnea in patients with Cushing's disease. 133 12
Ambulatory blood pressure monitoring can determine the average blood pressure level and the short- and long-term blood pressure variability (circadian rhythm). The circadian blood pressure rhythm appears to be mediated mainly by the circadian rhythm of the sympathetic tone which is linked to changes in physical and mental activity, e.g. the waking-sleeping cycle. A statistically significant circadian blood pressure rhythm was observed in approximately 80% of mild to moderate essential hypertensive patients as well as in normal subjects. However, in patients with
Cushing's syndrome
, under glucocorticoid treatment, or with hyperthyroidism, central and/or peripheral autonomic dysfunction (Shy-Drager syndrome, spinal cord injury, brainstem lesions, diabetic neuropathy, uremic neuropathy, etc), chronic renal failure, eclampsia, malignant hypertension,
sleep apnea syndrome
or systemic atherosclerosis, the normal circadian blood pressure rhythm appears to be eliminated or reversed, while in those with primary aldosteronism, renovascular hypertension, pheochromocytoma without paroxysmal hypertension, diabetes insipidus, acromegaly, hyperparathyroidism or hyperprolactinemia, the nocturnal blood pressure fall has been observed as in normal subjects. The alteration in the circadian blood pressure rhythm was observed with different pathophysiological conditions, although no specific pattern was observed for any condition. A disturbance in any part of the hierarchy of factors that regulate the circadian rhythm of sympathetic neural tone seems to disturb the circadian blood pressure rhythm. We conclude that ambulatory blood pressure monitoring is not critically important in the diagnosis of secondary hypertension although it does help in screening for secondary hypertension.
...
PMID:Does ambulatory blood pressure monitoring improve the diagnosis of secondary hypertension? 208 1
The daily variation in blood pressure (circadian blood pressure rhythm) is characterized by a nocturnal fall and a diurnal rise. The circadian blood pressure rhythm seems to be mediated mainly by the circadian rhythm of sympathetic tone, linked to changes in physical and mental activities, e.g. the waking-sleeping cycle. Statistically significant circadian blood pressure rhythms have been confirmed in approximately 80% of mild to moderate essential hypertensive patients as well as in normal subjects. However, the normal pattern of circadian blood pressure rhythm is reversed in elderly people and in those with
Cushing's syndrome
, those undergoing glucocorticoid treatment, and those with hyperthyroidism, central and/or peripheral autonomic dysfunction (Shy-Drager syndrome, tetraplegia, diabetic or uremic neuropathy, etc), chronic renal failure, renal or cardiac transplantation, congestive heart failure, eclampsia,
sleep apnea syndrome
, malignant hypertension, systemic atherosclerosis and accelerated hypertensive organ damage. However, in those with primary aldosteronism, renovascular hypertension, pheochromocytoma without paroxysmal hypertension, or those with cardiac pacing, a nocturnal blood pressure fall is ordinarily observed. It may be that a fall in cardiac output rather than in peripheral resistance may be mainly responsible for the nocturnal fall in blood pressure. It also seems that a nocturnal heart rate fall is not responsible for it, since the nocturnal blood pressure fall remained unchanged in patients undergoing cardiac pacing and was disturbed in patients with
Cushing's syndrome
or hyperthyroidism in whom the circadian heart rate rhythm remained unchanged.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Circadian blood pressure variations under different pathophysiological conditions. 209 80
A less-than-normal decline in nocturnal blood pressure (BP) has been associated with excessive hypertensive complications. This is concerning because secondary hypertension is often associated with this so-called nondipper BP profile. A nondipping pattern is more frequently found in the presence of pheochromocytoma,
Cushing's syndrome
, and
sleep apnea syndrome
, but the prevalence is unclear in patients with primary hyperaldosteronism. We therefore studied ambulatory BP profiles in 16 hypertensive patients with primary hyperaldosteronism and an equal number of essential hypertensive subjects. The awake-sleep BP difference of the hyperaldosteronism patients was similar to that of essential hypertensives (15/14 +/- 3/2 versus 14/9 +/- 3/2 mm Hg, P=NS). The prevalence of dippers and nondippers (according to two distinct criteria) in the two groups was similar. Repeat ambulatory BP monitoring in 12 subjects with primary hyperaldosteronism after specific intervention (3 after surgical removal of an adrenal adenoma and 9 after commencement and titration of spironolactone therapy) showed highly significant reductions in office BP (22/10 +/- 6/4 mm Hg, P<.05) and awake and sleep BP. However, the extent of nocturnal BP decline was unchanged between the two studies (17/16 +/- 3/3 versus 16/12 +/- 2/2 mm Hg, P=NS). There was no correlation between the awake-sleep difference and serum or urinary aldosterone levels or the aldosterone-to-renin ratio. In this study, we did not detect any differences in the awake-sleep differences between a group of hypertensives with primary hyperaldosteronism and a control group of essential hypertensives.
...
PMID:Circadian blood pressure variation in hypertensive patients with primary hyperaldosteronism. 949 70
The mechanisms and pathophysiology of sleep disturbances in patients with endocrine diseases are reviewed. Abnormalities in sleep regulations were demonstrated in patients with thyrotoxicosis and hypothyroidism in a use of electroencephalogram during sleep. Mental disorders are one of the causes of sleep disturbance, for example insomnia due to depression in
Cushing's syndrome
. Metabolic abnormalities such as hyponatremia and hypoglycemia due to adrenal insufficiency could also contribute to sleep disturbance. Obstructive, central and mixed types of
sleep apnea syndrome
are known to occur in hypothyroidism, acromegaly and diabetic neuropathy with autonomic dysfunction. Thus, multiple factors are involved in sleep disturbance in patients with endocrine disorders.
...
PMID:[Sleep disorders in several pathologic states--endocrine diseases]. 950 51
The pertinent literature on the prevalence, clinical manifestations and pathogenic mechanisms of
sleep apnoea
(SA) in endocrine diseases, namely acromegaly,
Cushing syndrome
, hypothyroidism and diabetes mellitus was reviewed. An increased prevalence is well documented in patients with active and treated acromegaly. While most authors report peripheral obstruction, due to hypertrophy of tongue and pharyngeal tissues, to be the cause of SA in acromegaly, some findings argue for a role of hormone-induced changes of central respiratory control. SA is also more common in hypothyroidism, especially when myxedema is present. The associated edema and myopathy appear to be of pathogenic importance. Thyroxin substitution is frequently effective for the treatment of SA but nCPAP can be necessary initially and in some patients even after remission of clinical signs of hypothyroidism. In Cushing disease and syndrome, parapharyngeal fat accumulation can cause SA, but no epidemiological information is available. In non insulin dependent diabetes (NIDDM), obesity is the common risk factor for both, nocturnal hypoxia and insulin resistance. In IDDM, the development of autonomic neuropathy may predispose to SA. Where treatment of the underlying endocrine disease is unable cure the associated SA, nCPAP is usually the treatment of first choice. More prospective studies are clearly needed to establish prevalences and resolve the controversies regarding pathogenesis.
...
PMID:Sleep apnoea in endocrine diseases. 961 23
The diagnosis of
Cushing's syndrome
rests on the demonstration of clinical features and biochemical abnormalities that reflect hypercortisolism. If a patient presents with typical clinical features such as weight gain with truncal obesity and supraclavicular fat deposition, wide purple striae, and proximal muscle weakness, the diagnosis is clear-cut and is nearly always substantiated by a 24-hour urine free cortisol excretion value more than four times the normal level. However, many patients present with signs and symptoms that are common in the general population, such as hypertension, generalized weight gain, reproductive abnormalities, and depression. Many of these patients have normal cortisol excretion and do not have
Cushing's syndrome
. Others have mild hypercortisolism caused by psychiatric disorders, obligate exercise, morbid obesity,
sleep apnea
, or uncontrolled diabetes mellitus. These patients may be confused with those with the true
Cushing's syndrome
, and thus are considered to have a "pseudo-Cushing" state. Additional observation over time, and testing with midnight cortisol measurements, the 2-day-2-mg dexamethasone suppression test, or the dexamethasone suppression-CRH stimulation test may be useful to identify true
Cushing's syndrome
in these patients.
...
PMID:Diagnostic tests for Cushing's syndrome. 1238 46
The treacherous and deceptive nature of pheochromocytoma makes it crucial to detect and treat it promptly; otherwise it will almost certainly be fatal from cardiovascular complications or metastases. Hypertension occurring in patients with pheochromocytomas is sustained in about 50% and paroxysmal in the remainder; however, many patients remain normotensive. Hypertension attacks may be precipitated by physical activity, postural changes, anxiety, certain foods or wine, some drugs, operative procedures, etc. Cardinal manifestations are paroxysmal hypertension, headache, palpitations +/- tachycardia, inappropriate sweating; anxiety, tremulousness, pallor (rarely flushing), chest and abdominal pains; nausea and vomiting often occur. Hypercatecholaminemia manifestations are more common and pronounced when paroxysmal hypertension occurs, but persons with familial pheochromocytoma may be asymptomatic. Protean manifestations of pheochromocytoma may simulate many conditions, some of which may have elevated plasma and urine catecholamines and their metabolites. Baro-reflex failure, postural tachycardia syndrome,
sleep apnea
, carcinoid, renal failure, and pseudopheochromocytoma may be diagnostic challenges. The history, physical examination, biochemical testing (after eliminating interfering drugs, when possible) for plasma and urinary metanephrines can usually establish or exclude presence of pheochromocytomas. Occasionally a clonidine suppression test is needed to differentiate neurogenic from pheochromocytic hypertension. Manifestations suggesting hypercatecholaminemia without hypertension are highly atypical of pheochromocytoma. Pheochromocytoma may present as panic attacks, pre-eclampsia, cardiomyopathy, infection with fever and leucocytosis, diabetes, migraine, shock,
Cushing's syndrome
, multiple organ failure with lactic acidosis, neurological manifestations, transitory electrocardiogram abnormalities, constipation, intestinal obstruction, visual impairment, convulsions, etc. The key to diagnosis is always to think of pheochromocytoma in the differential diagnosis of hypertension.
...
PMID:The protean manifestations of pheochromocytoma. 1924 99
The daily rhythm of cortisol secretion is relatively stable and primarily under the influence of the circadian clock. Nevertheless, several other factors affect hypothalamo-pituitary-adrenal (HPA) axis activity. Sleep has modest but clearly detectable modulatory effects on HPA axis activity. Sleep onset exerts an inhibitory effect on cortisol secretion while awakenings and sleep offset are accompanied by cortisol stimulation. During waking, an association between cortisol secretory bursts and indices of central arousal has also been detected. Abrupt shifts of the sleep period induce a profound disruption in the daily cortisol rhythm, while sleep deprivation and/or reduced sleep quality seem to result in a modest but functionally important activation of the axis. HPA hyperactivity is clearly associated with metabolic, cognitive and psychiatric disorders and could be involved in the well-documented associations between sleep disturbances and the risk of obesity, diabetes and cognitive dysfunction. Several clinical syndromes, such as insomnia, depression,
Cushing's syndrome
,
sleep disordered breathing
(SDB) display HPA hyperactivity, disturbed sleep, psychiatric and metabolic impairments. Further research to delineate the functional links between sleep and HPA axis activity is needed to fully understand the pathophysiology of these syndromes and to develop adequate strategies of prevention and treatment.
...
PMID:Impact of sleep and its disturbances on hypothalamo-pituitary-adrenal axis activity. 2062 23
Cushing's syndrome
is a condition caused by high levels of glucocorticoids, or most commonly as a result of prolonged exposure to exogenous steroids. Clinical features include diabetes, hypertension, obesity, skin atrophy, immune suppression and delayed wound healing. We report a patient with iatrogenic
Cushing's syndrome
, in whom long-term topical steroid therapy was used to treat varicose eczema, which contributed to the development of type 2 diabetes, morbid obesity,
sleep apnoea
and chronic wound sepsis. In this case, repeated hospital admissions and systemic antibiotics were associated with considerable comorbidity. Aggressive local treatment, consisting of potassium permanganate soaks and irrigating gels, was highly effective in reducing the amount of exudate, pain and preventing from further deterioration of the patient's legs.
...
PMID:Cushing's syndrome and chronic venous ulceration--a clinical challenge. 2107 30
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