Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0020473 (hyperlipidemia)
 15,891 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We report the case of a 60-year-old man with recent onset of poorly controlled diabetes mellitus, frequent anginal chest pains, paroxysmal hypertension, hyperlipidemia, and mild renal insufficiency. The patient was found to have pheochromocytoma of the left adrenal gland, resection of which resulted in total resolution of diabetes, hypertension, chest pain, hyperlipidemia and renal failure.
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PMID:Insulin-requiring diabetes mellitus, hyperlipidemia, and anginal chest pains as prominent features of pheochromocytoma. 938 71

Plasma lipoproteins (LP) may be identified on the basis of density properties or apolipoprotein (apo) composition. ApoB-containing LP occur in VLDL, IDL and LDL. There are several types of apoB-containing LP characterized by specific composition of minor apolipoproteins (apoC, apoE etc.) and lipid constituents (triglycerides and cholesterol), metabolic properties and relative atherogenicity. The alterations of lipoprotein metabolism in renal disease resulting in elevated levels of apoB-containing LP may be reflected in hyperlipidemia. Whereas nephrotic syndrome and heavy proteinuria are associated with increased formation of cholesterol-rich apoB-containing LP in LDL and VLDL, the characteristic feature in renal failure is the accumulation of intact or partially metabolised triglyceride-rich LP in IDL and VLDL. The potentially atherogenic apoB-containing LP have been linked to the pathogenic processes that result in progressive glomerular and interstitial lesions and ultimate loss of renal function. The mechanisms of injury are not fully understood. Receptor- and non-receptor mediated uptake of LP by mesangial cells may induce or accelerate proliferative and sclerotic processes in the glomerular mesangium that are analogous to atherosclerosis in the arterial wall. Changes in glomerular permeability can result in increased filtration of LP that may be internalized by tubular cells and elicit corresponding lesions in the interstitial tissues. The negative impact of proteinuria on the prognosis of renal disease could be mediated in part through an increased filtration of lipoproteins. Induction of hyperlipidemia accelerates glomerular and interstitial damage in experimental renal failure. This can be attenuated by treatment with hypolipemic agents. In patients, increased concentrations of apoB-containing LP are associated with more rapid progression of renal insufficiency in both primary renal disease and diabetic nephropathy. It is, however, presently not known to what extent treatment of the renal dyslipidemia can modify the progression of chronic renal failure. Experimental and clinical evidence suggest that apoB-containing LP may play a pathogenetic role in the progression of renal disease.
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PMID:Progression of renal failure: role of apolipoprotein B-containing lipoproteins. 940 33

The most widely studied hyperlipidemies in patients affected by renal insufficiency or subsequent to kidney transplant present phenotype IIa, IIb or IV. The lipidic alteration most frequently observed in chronic renal insufficiency and/or dialytic treatment is represented by hypertrigliceridemia as a result of: 1) altered VLDL metabolism; 2) reduced activity of lecithin cholesterol acyltransferase (LCAT); 3) decrease in Apo-A1 and HDL3. Furthermore, marked anomalies in lipoprotein Lp (a) have been reported in hemodialysis. In patients undergoing peritoneal dialysis, hyperlipidemia arises from both an anomalous retrograde absorption of glucose and protein dispersion. Following kidney transplant the most frequent hyperlipidemia is hypercholesterolemia, consequent to immunosuppressive treatment (mainly steroids and cyclosporin). The documented significant increase of cardiovascular risk in the presence of hyperlipidemia points to the need for a clearer etiopathogenic definition of this anomaly, as well as the necessity to find an efficacious pharmacological treatment.
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PMID:[Causes and risks of hyperlipidemia during dialysis and after renal transplantation]. 984 47

Aggressive immunosuppressive therapy should be considered for patients with proliferative lupus nephritis as the risk for progression to end stage renal disease is high. Intermittent intravenous cyclophosphamide therapy improves renal survival; longer duration of therapy is associated with fewer relapse of nephritis and decreased risk of diminished renal function. While azathioprine therapy does not differ statistically from steroids alone in prolonging renal survival, this therapy may be considered in patients with few risk factors for progression to renal insufficiency. Methylprednisolone as a single therapy does not prolong renal survival compared with regimens including cyclophosphamide. Plasmapheresis remains under study but has not shown additional benefit in treatment of severe lupus nephritis. The potential roles for cyclosporin A and mycophenylate mofetil in the therapy of proliferative lupus nephritis remain to be defined. Supportive care including rigorous control of hypertension, consideration of angiotensin receptor inhibition or blockade to reduce proteinuria and prolong renal function, control of hyperlipidemia, prevention of osteoporosis, and prevention of pregnancy remain important clinical goals. Current research efforts focus on genetic and socioeconomic factors involved in racial differences in expression of lupus nephritis, hormonal manipulation to preserve gonadal function during cyclophosphamide therapy, and the potential impact on lupus activity of estrogen-containing oral contraceptives or postmenopausal hormone replacement therapy.
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PMID:Immunosuppressive therapy of lupus nephritis. 988 1

Nephropathy in patients with type I and II diabetes mellitus is a rapidly increasing problem worldwide. Studies using both glomerular and tubular cells have delineated some of the consequences induced by acute hyperglycemia. In vitro studies have clearly demonstrated that exposure of cultured renal cells, such as glomerular mesangial cells and proximal tubular epithelial cells, to elevated glucose concentrations, may alter cell proliferation and/or extracellular matrix turnover. The latter is effected both directly and indirectly by the alteration of cytokine generation. Furthermore, these in vitro studies have allowed detailed examination of the mechanisms by which exposure of these cells to high ambient glucose concentrations may alter cell function. Extension of these studies to the experimental in vivo situation has confirmed most of the in vitro findings. Important insights gained from models of type I diabetes (i.e. streptocotocin-induced diabetes) as well as type II diabetes (i.e. Goto-Kakizaki (GK) rats and obese Zucker rats) include: (1) The demonstration that increased glomerular cell proliferation and renal matrix accumulation, driven by TGF-beta and/or PDGF, occur in streptocotocin-induced diabetes, yet that nephropathy in these rats does not progress to renal failure. (2) The demonstration that prolonged mild type II diabetes does induce morphological changes characteristic of pre-clinical diabetic nephropathy in GK-rats but does not result in albuminuria or progressive renal disease. (3) The demonstration that the association of type II diabetes with hyperlipidemia in obese Zucker rats results in early podocyte damage and subsequent progression to glomerulosclerosis, tubulointerstitial damage, and renal insufficiency. Identification of the mediators involved in the above processes and in particular of the conditions that will determine progression of subclinical morphological changes to overt nephropathy and renal failure will likely result in future novel therapeutic approaches to diabetic nephropathy.
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PMID:Progression of diabetic nephropathy. Insights from cell culture studies and animal models. 1035 11

Renal disease is accompanied by characteristic alterations of lipoprotein metabolism, which appear as a consequence of nephrotic syndrome or renal insufficiency and are primarily reflected in an altered apolipoprotein profile rather than elevated plasma lipid levels. Their full characterization requires identification of discrete lipoprotein particles. While nephrotic syndrome results in increased concentrations of both cholesterol- and triglyceride-rich apoB-containing lipoproteins, renal insufficiency is characterized by an accumulation of intact or partially metabolised triglyceride-rich apoB-containing lipoproteins. The dyslipidemia has been discussed as a contributory factor for the progression of renal insufficiency through development of glomerulosclerosis and tubulointerstitial lesions together with accelerated atherosclerosis. Several experimental studies have shown that hyperlipidemia accelerates renal damage. Lipid-lowering treatment can reduce renal lesions and preserve renal function. The documentation in human nondiabetic progressive renal insufficiency is more limited. We have found that increased concentrations of triglyceride-rich, but not cholesterol-rich, apoB-containing lipoproteins are, associated with a more rapid loss of renal function. The underlying pathophysiological mechanisms for the relation between triglyceride-rich apoB-containing lipoproteins and progression of renal insufficiency are not fully understood. Treatment with hypolipemic drugs may attenuate the renal dyslipidemia, but thus far there have been no reports about controlled clinical trials testing the possible effect of such treatment on the progression of renal insufficiency. In summary, there is evidence to suggest that some specific lipoprotein abnormalities are a risk factor for the progression of renal dysfunction, but the final test of such assumptions still rests on the results of urgently needed controlled intervention studies.
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PMID:Lipoprotein abnormalities as a risk factor for progressive nondiabetic renal disease. 1041 28

Hyperlipemia is frequent in liver transplanted patients and has been related with the existence of cholestasis, renal insufficiency, obesity, diabetes, and especially with immunosuppressant treatment. Although there are no studies that show a relationship between post-liver transplant hyperlipemia and the development of cardiovascular disease, there are data that indicate that liver transplanted patients should control their cholesterol levels to reduce the incidence of this disease. When post-transplant hyperlipemia is present, hygienic-dietary measures should be established and treatment should be carried out with the minimum dose of cyclosporine needed to maintain the graft stable. Corticoids should be discontinued as soon as possible. Treatment with some statins (Lovastatin and Pravastatin) has shown to be safe and efficacy in the liver transplanted patients with hypercholesterolemia.
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PMID:[Hyperlipidemia in liver transplanted patients]. 1050 13

Rigorously developed clinical practice guidelines have the potential to improve patient outcomes. It is toward that end that the National Kidney Foundation (NKF) launched in March 1995 the Dialysis Outcome Quality Initiative (DOQI), an ambitious effort to develop evidence-based clinical practice guidelines for the care of patients with end-stage renal disease (ESRD). Independent, interdisciplinary work groups conducted a structured review of the content and methodologic rigor of all the published literature pertinent to four selected topics: hemodialysis adequacy, peritoneal dialysis adequacy, vascular access, and anemia. Following expert, organizational, and public review, the guidelines were issued in September and October 1997. An implementation plan that called for widespread dissemination of the guidelines and facilitation of adoption of them has resulted in their broad acceptance and Integration into quality improvement efforts. Additional guidelines on nutrition have recently been completed, while others on bone disease, hypertension, and hyperlipidemia are in various stages of planning or development. A major determinant of poor outcome of maintenance dialysis patients is the debilitated state of many individuals with ESRD at the time that they commence dialysis therapy. The recognition of this problem has stimulated an interest in extending the guidelines to management of patients with less severe renal insufficiency, well before they need renal replacement therapy; and to the early detection of renal insufficiency by a proteinuria and albuminuria risk assessment, detection, and elimination (PARADE) program. What started as an initiative to improve the quality of care of dialysis patients has evolved into a considerably expanded effort to making lives better for all individuals with any level of renal insufficiency.
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PMID:The dialysis outcomes quality initiative: history, impact, and prospects. 1076 3

Coronary artery disease (CAD) is a major cause of morbidity and mortality in SLE, including the Hopkins Lupus Cohort. Currently, 9% of the cohort have had clinical evidence (angina or myocardial infarction) of CAD. In our initial prospective study we found that duration of prednisone, hypertension, hyperlipidemia and obesity were risk factors for later CAD. We can now extend that list to include age, male sex, elevated homocysteine, renal insufficiency and antiphospholipid antibodies. Many of the risk factors are amenable to intervention, but the timing of intervention, and the effectiveness of intervention, must be determined.
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PMID:Detection of coronary artery disease and the role of traditional risk factors in the Hopkins Lupus Cohort. 1080 83

Renal artery stenosis may be a cause of hypertension and a potential contributor to progressive renal insufficiency. However, the prevalence of renal artery disease in a general population is poorly defined. The purposes of this study were to evaluate the prevalence of angiographically-determined renal artery narrowing in a patient population undergoing routine cardiac catheterization, and to identify the risk factors for renal artery stenosis. After left ventriculography, abdominal aortography was performed to screen for the presence of renal artery stenosis. A total of 427 patients (274 males, 153 females) were studied and the mean age was 59 years. Renal artery narrowing was identified in 10.5% of patients. Significant (> or = 50% diameter narrowing) renal artery stenosis was found in 24 patients (5.6%) and insignificant stenosis was found in 21 patients (4.9%). Significant unilateral stenosis was present in 4.2% of patients and bilateral stenosis was present in 1.4%. The stem of the renal artery was a more common site of stenosis in 62.2% of patients than in the ostium (37.8%), but the severity of stenosis was not significantly different according to the site of stenosis. By univariate and multivariate logistic regression analysis, the association of clinical variables with renal artery stenosis was assessed. Multivariable predictors included age, hypertension and peripheral vascular disease (p < 0.05). The variables such as sex, smoking history, hyperlipidemia, renal insufficiency, as well as the presence of obesity, severity of coronary heart disease and D.M., were not associated. In conclusion, the prevalence of angiographically-determined renal artery narrowing in a patient population undergoing cardiac catheterization is 10.5%. Old age, hypertension and evidence of peripheral vascular disease represent the predictors of renal artery stenosis.
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PMID:The prevalence and associated risk factors of renal artery stenosis in patients undergoing cardiac catheterization. 1081 23


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