Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0242339 (dyslipidemia)
 13,927 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We performed a prospective study in 106 patients with acute stroke. The main purpose was to evaluate the associated diseases and to determine their prevalence and incidence in two different types of cerebrovascular disease: the intracerebral hemorrhage (HI) and ischaemic events (AI). The studied population included 54 men and 52 women with a mean age of 66.8 +/- 10.3 years. A clinical examination was performed in all patients by different specialists and all were submitted to diverse complementary tests, including a computed tomography scan of the brain (TAC) and an echocardiogram (ECO). We found 24 (23%) HI and 82 (77%) AI. In the past history, previous stroke were more prevalent in AI (p less than 0.01). Heart disease was present in 87 (82%) patients but, among them, only atrial fibrillation which was found in 19 (18%) patients, was significantly more frequent in AI (p less than 0.02). Hypertension (HTA) existed in 79 (75%) patients, respiratory complications and periferic vascular disease in 9 (8%), diabetes in 44 (42%) and dyslipidemia in 31 (29%) patients. No significant difference was found between the two groups of stroke regarding these diseases; however, there was a tendency for HTA and diabetes to be more prevalent in HI and for periferic vascular disease in AI. In the blood tests, high haematocrit was found in 35 (33%) patients, anemia in 21 (20%), hypercholesterolemia in 17 (16%), hypertrigliceridemia in 18 (17%) and uremia or creatinemia or ionic alteration in 32 (30%) patients, without any difference in their prevalence and incidence in the two groups of stroke. In conclusion, in this prospective study of patients with an acute stroke, there was 23% of HI and 77% of AI, a high prevalence of previous stroke, heart disease and HTA, but only the previous stroke and, within heart disease, the atrial fibrillation were significantly more frequent in the AI group. Also, periferic vascular disease had a tendency to be more frequent in AI, as well as diabetes and HTA had in HI.
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PMID:[The patient with acute cerebrovascular disorders: assessment of associated diseases]. 208 57

Hyperlipidemia has been implicated in the pathogenesis of experimental progressive glomerulosclerosis, but its role in human renal injury is controversial. This report describes a 12-yr-old boy presenting with massive proteinuria, hepatomegaly, anemia, severe mixed hyperlipidemia, and progressive renal failure. The initial renal biopsy disclosed large numbers of foam cells that were shown to be monocytes. Evidence is presented suggesting that apoprotein-E2 homozygosity in our patient, together with an 88% reduction in plasma lipoprotein lipase activity associated with severe nephrotic syndrome, is responsible for the atypical clinical features, lipoprotein phenotype III with chylomicronemia, and renal lipidosis. A regimen of dietary lipid restriction, gemfibrozil, and niacin resulted in significant but partial improvement of the dyslipidemia and resolution of the hepatomegaly and ascites. This report stresses the importance of characterizing unique lipid disorders in patients with nephrotic syndrome in order to prescribe effective lipid-lowering strategies. Moreover, the striking resemblance of the clinical and nephrohistologic features of this patient to those occurring in experimental models of coexisting glomerular injury and hyperlipidemia led to the speculation that, in this setting, the hyperlipidemia may contribute to the development of progressive glomerulosclerosis.
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PMID:Atypical hyperlipidemia and nephropathy associated with apolipoprotein E homozygosity. 858 83

Cardiomyopathy in chronic uremia results from pressure and volume overload. The former causes concentric left ventricular [LV] hypertrophy, results from hypertension and aortic stenosis, and is also associated with diabetes mellitus and anemia. Volume overload causes LV dilatation, results from arteriovenous shunting, salt and water overload, and anemia, and is also associated with ischemic heart disease, hypertension, and hypoalbuminemia. Decreased major arterial compliance and an early return of arterial wave reflections are also associated with the extent of LV hypertrophy. Cardiomyopathy predisposes to diastolic and systolic dysfunction. The latter results from myocyte death, and predisposing factors include ischemic heart disease and the uremic environment. Ischemic heart disease may be atherosclerotic or nonatherosclerotic in origin. Multiple factors contribute to the vascular pathology of chronic uremia, including injury to the vessel wall, dyslipidemia, prothrombotic factors, increased oxidant stress, and hyperhomocysteinemia. Ischemic risk factors include hypertension, LV hypertrophy, hypoalbuminemia, and perhaps hyperparathyroidism. The clinical consequences of cardiomyopathy include heart failure, ischemic heart disease, dialysis hypotension, and arrhythmias. The adverse impact of ischemic heart disease is probably mediated through the development of cardiac failure.
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PMID:Cardiac disease in chronic uremia: pathogenesis. 923 25

Cardiovascular illness is an important contributor to the morbidity of kidney disease. The spectrum of cardiovascular disease (CVD) in patients with chronic renal insufficiency (CRI) includes left ventricular hypertrophy (LVH) and dilatation, ischemic heart disease, and peripheral vascular disease. Both "traditional" and "uremia-specific" factors contribute to the occurrence and progression of cardiac disease in renal patients. A growing body of recent evidence indicates that the processes contributing to CVD commence early in CRI, leading to concentric LVH, left ventricular dilatation, congestive heart failure, and ischemic heart disease. Many of the coexisting conditions that have been identified consistently as contributing to the burden of cardiovascular illness in renal populations can be modified through medical interventions. Specific therapies exist for hypertension, anemia, hyperparathyroidism, and dyslipidemia. Studies to date have demonstrated that treatment of many of these factors-such as anemia and hypertension during end-stage renal disease-appear to benefit the cardiovascular system. Earlier intervention may offer the best opportunity to reduce the burden of illness in all groups of CRI patients. Identification of patients at the onset of kidney disease and attention to the known traditional and "uremic" risk factors are emerging as promising strategies. Long-term interventional studies are needed to determine costs, benefits, and risks of such strategies.
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PMID:Cardiovascular disease in chronic renal insufficiency. 1111 55

The less rigorous attention to the management of the complications of chronic renal insufficiency (CRI) and its comorbid conditions has potentially tragic consequences. In fact, with early recognition and intervention, many of the complications of CRI and its comorbid conditions can be ameliorated or prevented. We review here the most prevalent, troublesome, and potentially preventable complications and comorbidities of CRI with a view toward developing high-quality, cost-effective strategies for delivering early interventional care. Complications of CRI include malnutrition, anemia, disorders of divalent ion metabolism and osteodystrophy, metabolic acidosis, and dyslipidemia. Important comorbid conditions of CRI are hypertension, diabetes mellitus, and cardiovascular disease. Clinical intuition suggests that early intervention will avert morbidity related to the hypoalbuminemia and other nutritional disorders of CRI, the metabolic acidosis, and the dyslipidemias, but prospective data are lacking at present. Correction of anemia, usually with recombinant human erythropoietin, may be key to the prevention of cardiac disease and other comorbidities of CRI. Incipient disorders of bone and mineral metabolism are managed prospectively using such measures as protein restriction to reduce phosphorus intake, phosphate binders, calcium supplementation, and vitamin D analogues. Hypertension, whatever its original etiology, is clearly an important risk factor for the progression of kidney failure and for the development of diffuse vascular disease; appropriate and aggressive treatment is essential. In patients with diabetic nephropathy, the principles of both primary and secondary prevention have been validated in several large trials of glycemic and blood pressure control. The seeds of these insidious, challenging, and costly comorbid conditions are sown very early in CRI, at a time when they are-in theory-most amenable to intervention. We therefore must be as proactive as possible in the timely implementation of relatively simple therapies that have the potential to prevent some of these adverse outcomes of CRI.
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PMID:Complications of chronic renal insufficiency: beyond cardiovascular disease. 1111 56

Patients with chronic uremia have a substantially elevated risk of death from cardiovascular disease than do the general population. Although uremic and nonuremic groups share some of the risk factors for cardiovascular mortality, such as older age, diabetes, and inflammation, other factors appear to affect cardiovascular mortality in the opposite direction. For example, being overweight and having hyperlipidemia are established risk factors in the general population, whereas lower body mass index and lower plasma cholesterol have been shown to be risk factors for cardiovascular mortality in end-stage renal disease (ESRD). This paradoxical phenomenon is explained by two facts: (1) that malnutrition is a strong predictor of cardiovascular mortality in ESRD and (2) that plasma lipid levels are lowered in malnutrition. However, it is not known whether atherosclerosis is promoted by malnutrition or by low cholesterol level. Because the cardiovascular mortality rate is theoretically the product of event rate and fatality rate after an event, risk factors for cardiovascular mortality could fall into two categories: those raising the event rate and those affecting the fatality rate. Some factors could work both ways. Patients with ESRD show a significant increase in both event rate and fatality rate. Dyslipidemia is an independent factor affecting atherosclerotic arterial wall changes and cardiovascular events in ESRD. Other factors affecting the cardiovascular event rate in ESRD include diabetes and an elevated homocysteine level. In contrast, factors associated with poor survival after an event include diabetes and anemia. Malnutrition could be a factor causing the fatality rate to rise, although there is no direct evidence supporting this possibility. Further studies are needed to show the differential effects of a risk factor on event rate and fatality rate. Patients with ESRD would have a better chance of living longer by better management of the two categories of risk factors.
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PMID:Paradox of risk factors for cardiovascular mortality in uremia: is a higher cholesterol level better for atherosclerosis in uremia? 1157 13

Cardiovascular disease is the leading cause of morbidity and mortality in end-stage renal disease. Causes include those usually found in the general population, those related to the uremic status, and those related to dialytic treatment. Hypertension, hypotension, anemia, hypoalbuminemia, malnutrition, dyslipidemia, reactive C protein, calcium-phosphate product, dialysis modalities, and hyperhomocysteinemia are discussed extensively. Special emphasis is put on hyperparathyroidism as a traditional toxin. The emergent role of sleep apnea has been confirmed in animal models as well as in humans studied using polysomnography. There are difficulties in diagnosing coronary disease, because angiography is not risk-free, is expensive, and should be reserved for patients having symptoms of heart failure and/or patients having diabetes mellitus, and/or patients entering a transplantation list. This allows patients with coronary disease to undergo coronary artery bypass (preferably) or percutaneous transluminal angioplasty. Patients for whom surgery is not appropriate should be treated using more traditional medical procedures.
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PMID:The heart in uremia: role of hypertension, hypotension, and sleep apnea. 1157 20

Optimization of the management of chronic renal failure (CRF) is aimed at decreasing morbidity and mortality risks of CRF patients, due to the progression of CRF toward end-stage renal disease (ESRD), and to CRF-related complications with functional or life-threatening consequences. The so-called spontaneous progression of CRF toward ESRD depends on factors related to the primary renal disease, and on non-specific factors mainly related to hypertension and renal functional adaptations to nephron loss. Secondary prevention of CRF needs: early identification of primary renal disease, in order to start specific therapies; the treatment of hypertension; dietary advice on protein intake; prevention of events and drug toxicity potentially harmful to renal function. Clinical events appear late in the course of CRF, following several disorders often present for a long time: hypertension, dyslipidemia, phosphocalcic disorders, anaemia, malnutrition). These disorders should be screened for, and treated, as a part of tertiary prevention measures. When dialysis becomes unavoidable, early information and medical preparation of the patient are mandatory, giving the best chances of success to the applied dialysis method. Unfortunately, most CRF patients are referred at a late stage of the disease, when the effects of therapeutic interventions are limited; this results in increased length of hospital stays, increased risk of early dialysis complications, and decreased capacity to be treated at home.
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PMID:[How do we optimize the management of chronic renal failure?]. 1180 90

There are many causes for carnitine depletion during maintenance hemodialysis. Supplementation with L-carnitine in animals has been associated with improvement in some abnormalities also present in chronic renal failure. However, it is still controversial whether restoring plasma or tissue carnitine will correct clinical or biologic symptoms observed in maintenance hemodialysis. A systematic review is here performed to determine the effects of L-carnitine in maintenance hemodialysis patients. Eighty-three prospective trials were identified from 1978 to 1999 in which L-carnitine was randomly allocated in 21 trials. Change in serum triglycerides, cholesterol fractions, hemoglobin levels, erythropoietin dose, and other symptoms (muscle function, exercise capacity, and quality of life) were examined. A total of 482 patients in 18 trials were considered for analysis. There was no effect of L-carnitine on triglycerides, total cholesterol, or any of its fractions. Before the erythropoietin (EPO) era, L-carnitine treatment was associated with improved hemoglobin (P < 0.01) and with a decreased EPO dose (P < 0.01) and improved resistance to EPO when patients routinely received EPO. Muscle function, exercise capacity, and quality of life could not be reliably assessed because of the noncombinable nature of end points and the limited number of trials. In conclusion, L-carnitine cannot be recommended for treating the dyslipidemia of maintenance hemodialysis patients. By contrast, this review suggests a promising effect of L-carnitine on anemia management. The route of L-carnitine administration should be evaluated because there is no evidence as to the most efficient method of administration in maintenance hemodialysis.
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PMID:Effects of L-carnitine supplementation in maintenance hemodialysis patients: a systematic review. 1185 75

The interlinking of CVD with CKD is undeniable. CVD accounts for more than 50% of all morbidity and mortality in patients with kidney disease who have undergone renal replacement therapy, and CVD is also prevalent in patients with mild and moderately severe kidney disease. To help address the elevated risks of these patients, primary care physicians need to maintain vigilance in (1) identifying patients who have CKD and (2) implementing strategies for reducing the prevalence of CVD in this population. It is essential that patients be screened for relatively mild kidney disease by measurement of serum creatinine and urine microalbumin and by calculation of the glomerular filtration rate in mL/min/1.73 m2 using equations based on serum creatinine. Rigorous assessment of conventional risk factors, including dyslipidemia, hypertension, and diabetes, is also necessary to prevent the poor outcomes currently observed in persons with CKD. Routine use of ACE inhibitors and aspirin is encouraged in all patients with CKD, and strict glycemic and blood pressure control is recommended for optimal outcomes. In addition, patients should be screened and treated for risk factors particularly associated with kidney disease and CVD morbidity and mortality, including anemia, hyperphosphatemia, and hyperparathyroidism. Finally, physicians should be careful to avoid therapeutic nihilism in patients with kidney disease; those at highest risk of CVD are likely to receive the greatest benefit from cardiovascular therapies.
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PMID:Cardiovascular disease and the kidney. Tracking a killer in chronic kidney disease. 1198 33


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