UMLS:C0004153 - FACTA Search

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Query: UMLS:C0004153 (atherosclerosis)
77,401 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

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.
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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)
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PMID:Circadian blood pressure variations under different pathophysiological conditions. 209 80

A 42-year-old man with generalized atherosclerosis underwent surgery of the left carotid artery with eventual placement of a Dacron graft bypassing the left carotid sinus. Subsequently, symptoms suggestive of pheochromocytoma developed, and 24-hour urine catecholamine levels were elevated. Clonidine testing resulted in suppression of plasma norepinephrine levels but was complicated by severe hypotension and a transient ischemic attack. Baroreceptor dysfunction may have been involved. Caution is advised and recommendations are offered for future usage of the clonidine suppression test.
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PMID:Symptomatic hypotension following the clonidine suppression test for pheochromocytoma. 663 44

The heart and its vessels were studied in 7 patients with clinically unrecognized adrenal pheochromocytoma dying suddenly at the age of 37--56 years under stress situations with acute cardiovascular insufficiency the morphological manifestations of which in 4 cases (with coronary atherosclerosis) consisted in a fresh coronarogenic myocardial infarction and beyond its zone "myocardial lesions", and in 3 numerous "myocardial lesions" localized in the area of the microcirculatory channel with marked pathological changes of the vessels in the latter. Lesions of the microcirculatory channel are systemic, partially irreversible, prevalent in arterioles and capillaries, and play the leading role in "myocardial lesions". Fresh cardio-vascular complications developed due to pheochromocytogenic hypertension crisis and extreme hypercatecholaminemia in the end of the disease because of the stress reaction.
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PMID:[Pathomorphological changes in the heart and its vessels in adrenal pheochromocytoma]. 730 76

We report the first case of concomitant coronary artery bypass grafting (CABG) and adrenalectomy for pheochromocytoma. Which lesion to correct first and staging of the corrective procedures are highly controversial issues. Issues concerning pre- and intraoperative control of hemodynamic instability from catecholamine release are discussed. Preoperative alpha and beta blockade permitted excellent hemodynamic control in the operating room. Operative and postoperative courses were uneventful and the patient had complete resolution of his angina and hypertension. We conclude that concomitant CABG and adrenalectomy is the preferred approach when pheochromocytoma and symptomatic coronary artery atherosclerosis coexist.
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PMID:Concomitant coronary artery bypass grafting and adrenalectomy for pheochromocytoma. 777 82

Most patients with hypertension in the United States have essential (primary) hypertension (95%), the cause of which is unknown. The remaining 5% of adults with hypertension have the secondary form of hypertension, the cause and pathophysiologic process of which are known. Internists and other primary care physicians refer to this as treatable or curable hypertension, because the hypertension can be managed or even controlled with medications. Similarly, the condition is called surgical hypertension by surgeons in the belief that once the cause is determined and identified, surgical intervention will result in cure of hypertension. Secondary causes of hypertension include renal parenchymal disease, renovascular diseases, coarctation of the aorta, Cushing's syndrome, primary hyperaldosteronism, pheochromocytoma, hyperthyroidism, and hyperparathyroidism. Occasionally included in this category are alcohol- and oral contraceptive-induced hypertension and hypothyroidism, but these conditions are not discussed herein. The evaluation of secondary hypertension is of interest and can bring together different facets of anatomy, physiology, pharmacology, and radiology in the medical and surgical treatment of these disorders. Despite enthusiasm that can be generated in the evaluation of these conditions, evaluation can be expensive and should not be conducted for all patients with hypertension. Features that aid in the diagnosis of secondary hypertension include the following: 1. Onset of hypertension before the age of 20 or after the age of 50 years. The presence of hypertension at a young age may suggest coarctation of the aorta, fibromuscular dysplasia, or an endocrine disorder. Hypertension found for the first time after the age of 50 years may suggest the presence of renovascular hypertension caused by atherosclerosis. 2. Markedly elevated blood pressure or hypertension with severe end-organ damage, as in grade III or IV retinopathy. These findings suggest the presence of renovascular hypertension or pheochromocytoma. 3. Specific body habitus and ancillary physical findings. For example, truncal obesity and purple striae occur with hypercortisolism, and exophthalmos is associated with hyperthyroidism. 4. Resistant or refractory hypertension (poor response to medical therapy usually necessitating use of more than three antihypertensive medications from three different classes). 5. Specific biochemical test that suggest the existence of certain disorders, such as hypercalcemia in hyperparathyroidism, hyperglycemia in Cushing's syndrome and pheochromocytoma, and unprovoked hypokalemia with renin-producing tumors, primary hyperaldosteronism, or renin-mediated renovascular hypertension. 6. Other characteristics that may suggest secondary hypertension such as abdominal diastolic bruits (renovascular hypertension), decreased femoral pulses (coarctation of the aorta), or bitemporal hemianopias (Cushing's disease). A combination of a good history and physical examination, astute observation, and accurate interpretation of available data usually are helpful in the diagnosis of a specific causation.
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PMID:Secondary hypertension: evaluation and treatment. 894 19

It is widely, but mistakenly, believed that ischemic heart disease (IsHD) and its complications are the sole and direct result of reduced coronary blood flow by obstructive coronary artery disease (CAD). However, cardiac angina, acute myocardial infarction (AMI), and sudden cardiac death (SCD) occur in 15%-20% of patients with anatomically unobstructed and grossly normal coronaries. Moreover, severe obstructive coronary disease often occurs without associated pathologic myocardiopathy or prior symptoms, ie, unexpected sudden death, silent myocardial infarction, or the insidious appearance of congestive heart failure (CHF). The fact that catecholamines explosively augment oxidative metabolism much more than cardiac work is generally underappreciated. Thus, adrenergic actions alone are likely to be more prone to cause cardiac ischemia than reduced coronary blood flow per se. The autonomic etiology of IsHD raises contradictions to the traditional concept of anatomically obstructive CAD as the lone cause of cardiac ischemia and AMI. Actually, all the signs and symptoms of IsHD reflect autonomic nervous system imbalance, particularly adrenergic hyperactivity, which may by itself cause ischemia as in rest angina. Adrenergic activity causing ischemia signals cardiac pain to pain centers via sympathetic efferent pathways and tend to induce arrhythmogenic and necrotizing ischemic actions on the cardiovascular system. This may result in ischemia induced metabolic myocardiopathy not unlike that caused by anatomic or spasmogenic coronary obstruction. The clinical study and review presented herein suggest that adrenergic hyperactivity alone without CAD can be a primary cause of IsHD. Thus, adrenergic heart disease (AdHD), or actually adrenergic cardiovascular heart disease (ACVHD), appears to be a distinct entity, most commonly but not necessarily occurring in parallel with CAD. CAD certainly contributes to vulnerability as well as the progression of IsHD. This vicious cycle, which explains the frequent parallel occurrence of arteriosclerosis and IHD, an association that appears to be linked by the same cause, comprises a common vulnerability to deleterious adrenergic actions on the myocardium, lipid metabolism, and vascular system alike, rather than viewing CAD and IsHD as having a putative cause and effect relationship as commonly thought. Adrenergic actions can also cause the abnormal lipid metabolism that is associated with CAD and IsHD by catecholamine-induced metabolic actions on lipid mobilization by activation of phospholipases. This may also be part of toxic catecholamine hypermetabolic actions by enhancing deleterious cholesterol and lipid actions in damaging coronary vessels by plaque formation as well as inducing obstructive coronary spasm and platelet aggregation. This may also cause direct toxic necrosis on the myocardium as well as atherosclerosis in blood vessels. In fact, drugs that inhibit adrenergic actions like propranolol, reserpine, and guanethidine all inhibit arteriosclerosis induced by hypercholesterolemia in experimental animals and prevent carotid vascular disease (associated with stroke) in humans. The concomitant development of myocardiopathy and coronary vascular lesions or coronary and carotid artery intimal medial thickening by catecholamine toxicity is reflected by the frequent primary presentation of patients with catecholamine-secreting pheochromocytoma with cardiovascular disease, ie, hypertension arrhythmias, AMI, SCD, CHF, and vascular disease, which represents a clear example of the primary deleterious impact of catecholamines on the entire cardiovascular system causing adrenergic cardiovascular disease. Thus, like myocardiopathy, CAD and atherosclerosis in general may be the consequences of or a complication of catecholamine actions rather than its putative cause. This report shows how prophylactic bretylium not only prevents arrhythmias but prevents myocardial necrosis, shock, CHF, maintains or restores normal contractility, and lowers mortality in AMI patients by inducing adrenergic blockade.
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PMID:Prevention of ventricular fibrillation, acute myocardial infarction (myocardial necrosis), heart failure, and mortality by bretylium: is ischemic heart disease primarily adrenergic cardiovascular disease? 1535 32

Herpes simplex virus type 2 (HSV-2), which has been recognized as a potential cardiovascular pathogen and implicated in carotid atherosclerosis and coronary artery disease, is independently associated with the future risk of cardiovascular death. Investigations have demonstrated that hypertension may be related to inflammation, and inflammation is one of the symptoms of HSV-2 infection. This cross-sectional study investigated the correlation between HSV-2 infection and essential hypertension. One thousand two hundred and forty four inpatients (488 patients with essential hypertension and 756 normotensives) were investigated serologically for the specific immunoglobulin G (IgG) to HSV-2 by enzyme-linked immunosorbent assay. Patients diagnosed with pheochromocytoma, primary aldosteronism, aorto-arteritis or renal artery stenosis were excluded. The prevalence of HSV-2 IgG seropositivity was significantly higher in the hypertensive group than in the normotensive group (38.3% vs. 29.8%, p =0.002). After adjustment for confounding factors, an association of HSV-2 IgG seropositivity with essential hypertension was found on binary logistic regression analysis. The adjusted odds ratio of essential hypertension was 1.4 (95% confidence intervals, 1.1 to 1.8; p =0.005) for HSV-2 infection; the adjusted covariates included age, male sex, smoking, body mass index, dyslipidemia, diabetes and coronary artery disease. The results of this study indicated that HSV-2 infection might be an independent risk factor for essential hypertension.
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PMID:Herpes simplex virus type 2 infection is a risk factor for hypertension. 1549 72

There are limited data regarding the role of vascular endothelial growth factor (VEGF) in arterial hypertension. The aim of the present study was to determine some markers of vascular function, including VEGF, active renin and prostaglandin E2 (PGE2) in patients with endocrine hypertension. The study comprised: 30 patients with primary aldosteronism; 32 patients with active Cushing's syndrome; 19 patients with pheochromocytoma; 22 patients with essential hypertension and 24 healthy volunteers. VEGF was significantly elevated in all groups of patients as compared to the controls. VEGF levels in patients with Cushing's syndrome were significantly higher than those in patients with essential hypertension and primary aldosteronism. We did not find significant differences in VEGF levels between patients with Conn adenomas and idiopathic aldosteronism as well as between patients with Cushing's disease and Cushing's syndrome. PGE2 levels were not significantly different among the groups. Active renin was significantly the lowest in patients with primary aldosteronism and significantly the highest in those with pheochromocytoma compared to controls. The level of active renin in patients with primary aldosteronism was significantly lower than in patients with Cushing's syndrome and pheochromocytoma. In conclusion, VEGF levels were significantly elevated in patients with endocrine hypertension due to glucocorticoid, mineralocorticoid and/or catecholamine excess. The highest VEGF levels were detected in patients with Cushing's syndrome. The latter is associated with accelerated development of atherosclerosis and increased cardiovascular risk. VEGF might contribute to the cardiovascular risk in this disease. This effect was not likely to be PGE2 mediated.
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PMID:Vascular endothelial growth factor (VEGF), prostaglandin E2(PGE2) and active renin in hypertension of adrenal origin. 1563 27

The prevalence of secondary hypertension is higher in the elderly population. Renal hypertension is the most prevalent. The prevalence of renovascular hypertension (RVH) increases with age. Since RVH in the elderly is frequently associated with systemic atherosclerosis, other atherosclerotic disorders including ischemic heart disease need to be evaluated. The prevalence of primary aldosteronism and Cushing's syndrome decreases with age, while that of pheochromocytoma persists in the elderly population. Due to lack of classical symptoms, special attention should be paid to find pheochromocytoma in the elderly.
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PMID:[Clinical characteristic of secondary hypertension in the elderly]. 1594 96

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