Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0042373 (vascular disease)
17,070 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Atypical coarctation of the descending thoracic and abdominal aorta is a very uncommon vascular disease. Congenital, acquired, inflammatory, and infectious etiologies have been proposed. Patients typically presents with uncontrolled secondary hypertension in the upper half of the body or hypotension in the lower extremities in the first three decades of their lives. We report the case of a 20-year-old man with severe hypertension. Diffuse coarctation of thoracoabdominal aorta associated with bilateral renal artery stenosis was demonstrated clearly by multidetector CT angiography. This is the first case of atypical aortic coarctation diagnosed by MDCTA.
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PMID:Thoracoabdominal aorta coarctation with bilateral renal artery involvement: diagnosis with multidetector CT angiography (MDCTA). 1703 30

The clinical importance of renovascular disease, atherosclerotic or of other origin, arises from the fact, that renal artery stenosis (RAS), if hemodynamically significant (> 70% diameter reduction), induces arterial hypertension, renal insufficiency or both. The prevalence of RAS rises with increasing age and with the presence of atherosclerosis of the aorta, carotid, coronary and peripheral arteries. Typical clinical symptoms, as uncontrolled hypertension or renal dysfunction in the absence of pathological urinary findings, are helpful to select patients for further screening methods: We see a prominent role of color duplex sonography as a screening procedure. Intra-arterial angiography remains gold standard for the diagnosis of RAS. The major problem in daily clinical practice is the differentiation between patients in which hypertension and kidney function can be improved or normalized by removal of RAS and those with ''fixed'' hypertension and irreversible kidney dysfunction and therefore to decide if it is worth while to perform invasive treatment as angioplasty or surgery. In this setting, the proof of hemodynamic significance is essential and is indicated especially when the stenosis has a diameter reduction of < 50-70% only. Methods proving a critical stenosis are intra-arterial measurement of the pressure gradient, measurement of differential renal vein renin and duplex sonography. In addition, predictors of treatment outcome should be considered. Studies analyzing if patients improve with blood pressure and kidney function after removal of RAS have shown that high grade stenosis and/or very high blood pressure indicate a good outcome. Further prognostic factors are the absence of parenchymal disease and/or positive functional test. In the presence of a critical stenosis in a patient with a clear clinical problem with hypertension and/or renal dysfunction a positive effect of invasive treatment seems warranted despite the risks that must be considered as well in angioplasty as in surgery. The selection for the type of invasive treatment requires a clarification of the treatment goals in the individual patient, the evaluation of the morphology and localization of the stenosis as the presence of other vascular disease (aortic aneurysm, peripheral artery disease etc.) and the assessment of the risk according to the type of intervention.
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PMID:Renovascular disease: a review of diagnostic and therapeutic procedures. 1712 83

Fibromuscular dysplasia is a noninflammatory vascular disease that commonly affects the distal two thirds of the renal artery and branch vessels, but occasionally involves other arteries. Progression of stenosis occurs in 16%-38% of renal arteries. Although the etiology is unknown, genetic studies suggest a relationship to the angiotensin-converting enzyme I allele. Thin, young Caucasian women without a family history of hypertension are most commonly affected. An abdominal or flank systolic-diastolic bruit is an important clue for the diagnosis. Most noninvasive screening tests are not sensitive or reproducible to be used to rule out renal artery stenosis, but digital subtraction renal angiography usually confirms the diagnosis. Percutaneous renal artery angioplasty is the treatment of choice, but may not result in normalization of blood pressure if diagnosis is delayed. Since restenosis occurs, continued follow-up is necessary.
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PMID:Fibromuscular dysplasia: an uncommon cause of secondary hypertension. 1717 Jun 16

The hyponatremic hypertensive syndrome is a rare but serious complication of reno-vascular disease. The syndrome is characterized by hypertension and profound natriuresis, leading to body sodium and water depletion. Hypertension is typically refractory to treatment. We report an 82-year-old patient with this syndrome and describe the results of an audit of the clinical records of patients admitted to a teaching hospital over a two-year period with confirmed renal artery stenosis and hyponatremia. The syndrome should be suspected in patients in whom severe hypertension is associated with hyponatremia without other apparent cause, especially in the presence of reno-vascular disease.
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PMID:The hyponatremic hypertensive syndrome in renal artery stenosis: an infrequent cause of hyponatremia. 1724 70

Atherosclerotic renal artery stenosis (ARAS) is associated with hypertension, ischemic nephropathy, and high cardiovascular risk. We review the data on revascularization of the renal artery by percutaneous transluminal renal angioplasty (PTRA) and pharmacological therapy. In patients with severe ARAS and poorly controlled hypertension, PTRA can improve blood pressure control. In patients with rapid renal function loss and severe ARAS, PTRA can improve short-term renal function, but there is no evidence for long-term renoprotection. Recent evidence indicates that ARAS, and incidental renal artery stenosis, considerably increases cardiovascular risk, independent of blood pressure, renal function, and prevalent risk factors. This suggests that revascularization might potentially improve overall prognosis, but no data are available currently. The high cardiovascular risk warrants aggressive pharmacological treatment to prevent progression of the generalized vascular disorder. Ongoing trials will show whether revascularization has added, long-term effects on blood pressure, renal function, and cardiovascular prognosis.
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PMID:Atherosclerotic renovascular disease and renal impairment: can we predict the effect of intervention? 1744 26

Hypertension in patients with renovascular disease poses a major clinical challenge. Renal arterial disease accelerates hypertension by activation of multiple pressor systems. Although younger individuals with fibromuscular lesions often respond well to angioplasty with minor associated risks, care must be taken in cases of complex vascular anomalies, such as renal artery aneurysms. More than 85% of patients referred for revascularization have atherosclerotic renal artery stenosis; most are older patients with preexisting hypertension, diabetes, and vascular disease. The benefits of stent revascularization in this group are controversial. Antihypertensive therapy works best with drugs that block the renin-angiotensin system; however, most patients require multiple agents. Detailed analysis of the literature and small prospective trials failed to identify major benefits with renal artery angioplasty as compared with intensive drug therapy. The CORAL study and others seek to randomly assign subjects with high-grade renovascular lesions to optimal medical management with and without stenting.
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PMID:Renovascular hypertension in 2007: where are we now? 1799 70

Hyponatremic hypertensive syndrome is a manifestation of severe hypertension related to renal ischemia. The most common underlying cause of hyponatremic hypertensive syndrome in adults is severe atherosclerotic reno-vascular disorder while in children the most common cause of hyponatremic hypertensive syndrome is unilateral congenital renal artery stenosis due to some form of arterial dysplasia. An excessively stimulated renin-angiotensin-aldosterone system is mainly responsible for heavy polyuria, renal electrolyte loss and proteinuria. The neurological manifestations of hyponatremia and/or hypertensive encephalopathy are the main presenting symptoms, and they are not always in linear correlation with the degree of hyponatremia and/or hypertension. The cornerstone of management is the treatment of underlying hypertensive disease, but the correction of hyponatremic dehydration and safe decrease of blood pressure are essential in the emergency phase of hyponatremic hypertensive syndrome. The optimal antihypertensive therapy depends on the underlying condition. Revascularization, either surgical or by percutaneous transluminal angioplasty, is recommended for children with renal artery stenosis. Pharmacological treatment based on ACEI and/or ARB is the most efficient antihypertensive therapy for those with ischemic reno-parenchymal disorder. Nephrectomy is required if an affected kidney contributes less than 10% of the global renal function, if percutaneous transluminal angioplasty fails and the operative risk is too high, or in the case of extensive tumorous lesions.
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PMID:Hyponatremic hypertensive syndrome. 1892 57

Reno-vascular disease, along with diabetes mellitus, is the leading cause of dialysis in the elderly population, accounting for 50-66% of cases in patients above 65 years of age. Reno-vascular disease is a broad term, which includes renal artery stenosis, ischemic nephropathy, such as atherosclerotic obstruction, thrombo-embolic phenomenon, nephrosclerosis secondary to hypertension and acute occlusion of renal arteries (either bilateral or unilateral in singlekidney patients). Renal artery stenosis, defined as a 50% or greater occlusion of a renal artery (unilateral or bilateral), is an important cause of secondary hypertension. It often presents as drug refractory hypertension or renal insufficiency. Atherosclerotic renal artery stenosis accounts for 90% of such cases, the remaining 10% being caused by fibro-muscular dysplasia. The incidence of atherosclerotic renal artery stenosis is increasing among the aging population, who are at an increased risk due to cardiovascular complications. This is a review of the emerging trends in the diagnosis and management of renal artery stenosis.
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PMID:Renal artery stenosis: an update on diagnosis and management. 1905 47

Renal artery stenosis (RAS) is often present in patients with severe hypertension and atherosclerotic vascular disease. In this setting it is important to screen patients for renovascular disease, e.g. with Duplex-ultrasound, CT- or MR-angiography. The challenge of treating these patients is to find the evidence proving that the RAS is responsible for hypertension and/or renal dysfunction. Measurement of the intra-arterial pressure gradient is necessary in order to determine hemodynamic relevance. On the other side, in these patients hypertension is often of primary and/or renoparenchymatous origin and is aggravated by a renovascular disease. This explains why hypertension cannot be cured even if a high grade stenosis has been removed. In addition, thromb- and cholesterol-embolic material is often mobilized during an invasive procedure and leads to renaparenchymatous ischemia which sustains hypertension after intervention. An individual evaluation of profit versus risk is important for the decision for or against an invasive procedure, especially since there is no sufficient evidence for a decrease of mortality after interventions of RAS. The optimal conservative treatment, including the treatment of atherosclerotic risk factors is recommended.
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PMID:[Hypertension in patients with renal artery stenosis]. 1909 16

Renal artery stenosis may be due to atheromatous disease or renal fibromuscular dysplasia (FMD). Management of both diseases requires treatment of hypertension usually observed in such patients; however, clinical presentation, mechanism and treatment of these 2 diseases are usually different. Renal FMD is now considered as a systemic disease, the cause of which may be genetic (although the exact cause is still elusive). Renal arteries are the most frequent localizations of FMD, but extra renal arteries may also be involved (usually carotid arteries). Risk factors of hypertension-induced renal FMD include estrogen treatment and smoking. Renal FMD are mostly found in young women and in children who present with recent severe and/or refractory symptomatic hypertension. Diagnosis is usually easy (Doppler, CT-scan), and treatment of renal FMD is angioplasty in most cases. Atheromatous renal artery stenosis is usually found in patients with other atheromatous disease (peripheral artery disease, carotid, coronary artery disease...). Clinical presentation include severe or refractory hypertension, recurrent flash pulmonary edema in a patient with hypertension, progressive renal dysfunction spontaneously or after medical treatment with converting-enzyme inhibition or angiotensin II blockade, hypertension in a patient (usually smoker or ex-smoker) with diffuse atheromatous vascular disease. Management of atheromatous renal artery disease is medical treatment in all patients (aggressive treatment of cardiovascular risk factors, control of arterial pressure); revascularization is required in some patients only since it rarely cures hypertension: the goal of revascularization is mostly renal function protection, which may be observed in selected patients. Revascularization must be decided by physicians or teams involved in the care of such patients. Patients with atheromatous renal artery disease are at very high renal and cardiovascular risk : aggressive management of cardiovascular risk factors is crucial.
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PMID:[Renal artery stenosis : atheromatous disease and fibromuscular dysplasia]. 1921 51


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