UMLS:C0020473 - FACTA Search

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Query: UMLS:C0020473 (hyperlipidemia)
15,891 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The glycogen storage disorders (GSD)-I, -III, -VI and -VIII are associated with hypertriglyceridaemia or mixed hyperlipidaemia which poses the question whether these patients have an increased risk for atherosclerosis. The atherogenicity of triglycerides has remained controversial, while increased plasma cholesterol levels are generally accepted as a significant risk factor for coronary heart disease. However, clinical data show that one has to differentiate between metabolic conditions where triglycerides are atherogenic and those which are not significantly related to early onset of atherosclerosis but may cause other disorders such as pancreatitis. Among the disorders of carbohydrate metabolism patients with diabetes mellitus frequently have enhanced plasma triglycerides associated with a higher risk for coronary heart disease, while patients with certain types of glycogen storage disease have high triglyceride levels but do not seem to have an enhanced risk for atherosclerosis. Here we have compared the biochemical abnormalities and the atherogenic risk of three different disorders of glucose metabolism including GSD-I (glucose-6-phosphatase deficiency), favism (glucose-6-phosphate dehydrogenase deficiency), and diabetes mellitus which are related to either hyper- or hypolipidaemia. The available data indicate that glucose-6-phosphate (Glc-6-P) is a central molecule in cellular glucose metabolism which critically influences pentose phosphate cycle activity and, via NADPH2-generation, regulates glutathione peroxidase activity for radical detoxification and also cholesterol and triglyceride synthesis. Radical detoxification is a major protective factor for cell membrane integrity and together with an appropriate renewal of membrane lipids may protect against the development of atherosclerosis.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Glucose-6-phosphate: a key compound in glycogenosis I and favism leading to hyper- or hypolipidaemia. 831 30

1. The best way to prevent early growth failure in children with renal disease is by the use of specified nutrition and appropriate buffer, activated vitamin D, and calcium-containing phosphate binders as needed. With prenatal diagnosis of anatomically abnormal kidneys available, this type of early intervention may be much more feasible in the 1990s. 2. Supplemental sodium and water in children with polyuria and intravascular volume depletion may prevent growth failure. Cow milk is detrimental in this group of individuals because of high solute and protein load, often causing intravascular volume depletion, hyperphosphatemia, and acidosis. 3. Children with acquired glomerular disease may need sodium restriction and, if treated with steroids, a diet low in saturated fat. 4. Children with nephrotic syndrome and severe edema should be evaluated for malabsorption and subsequent malnutrition. Protein intake should be supplemented only at the RDA and to replace ongoing losses. Long-term sodium restriction is appropriate. Hyperlipidemia should be monitored: if nephrosis is chronic, a low saturated fat diet should be instituted. Angiotensin-converting enzyme inhibitors can decrease urinary protein loss and may ameliorate hyperlipidemia. Children resistant to therapy can have very high morbidity. 5. Children with <50 % of normal creatinine clearance should have PTH measured and activated vitamin D therapy should be started if PTH is elevated more than two to three times normal. Thereafter careful monitoring of calcium, phosphorus, and PTH is crucial to prevent renal osteodystrophy, low turnover bone disease, and hypercalcemia with hypercalciuria and nephrocalcinosis. 6. Children with tubular defects with severe polyuria also may benefit from low-solute, high-volume feedings. 7. All physicians caring for children with renal disease should have pediatric nephrology consultation available. Prevention of growth failure is much more cost effective than pharmacologic therapy. Before initiating growth hormone treatment for growth retardation, assiduous treatment of co-existing renal osteodystrophy and provision of optimal nutritional intake should be accomplished.
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PMID:Nutritional management of the child with mild to moderate chronic renal failure. 876 44

Recently, the hypothesis that all renal diseases are inherently progressive and self-perpetuating has focused attention on adaptive changes in renal structure and function that occur whenever renal function is reduced. These glomerular adaptations to renal disease include increases in filtration rate, capillary pressure and size, and are referred to as glomerular hyperfiltration, glomerular hypertension and glomerular hypertrophy, respectively. Extrarenal changes, such as dietary phosphate excess, systemic hypertension, hyperlipidaemia, acidosis and hyperparathyroidism occur in animals with renal disease and may be contributors to progression of renal disease. Emphasis in the management of companion animals with renal disease has shifted to identifying, understanding and controlling those processes that play a role in the progression from early to end-stage renal failure. Advances made by veterinary nephrologists in the past 15 years permit resolution of old controversies, formulation of new hypotheses and discussion of unresolved issues about the nature of progressive renal disease in dogs and cats.
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PMID:Pathophysiology and management of progressive renal disease. 930 97

Consensus guidelines are provided for the conservative management of adult patients with chronic and progressive renal failure, together with a brief review of the evidence relating to various treatable complications. Blood pressure control, diet, hyperlipidaemia, calcium and phosphate metabolism, anaemia and acidosis are considered.
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PMID:Management guidelines for progressive chronic renal failure. New Zealand Nephrologists Consensus Group. 941 27

IgA (immunoglobulin A) nephropathy is the most common form of primary glomerulonephritis worldwide. It generally has a good prognosis, with 15-year rates of kidney survival from the apparent onset of disease usually well in excess of 70%. Progression, when it occurs, is usually a slow, indolent process, and spontaneous remission of disease activity occurs in 7% of patients. It is possible to predict, from the initial presenting features and laboratory findings, renal biopsy and clinical course during follow-up, which patients are likely to have progressive renal disease. Identification of the factors likely to be associated with progression is of importance in helping to establish which patients will benefit from specific therapeutic intervention. For all patients, attention should be directed toward general health issues in an endeavour to reverse factors that are likely to have an adverse impact on renal function. This should include early detection and tight control of hypertension (present in 50% of all patients with IgA nephropathy during the course of their disease), along with utilisation of antihypertensive agents that have specific renoprotective effects, namely ACE inhibitors or calcium antagonists. Such therapy should also be considered in normotensive patients with heavy proteinuria, as a reduction of proteinuria is often achieved by this means. Other aims should include maintenance of desirable bodyweight, correction of hyperlipidaemia, cessation of smoking, participation in an active exercise programme, avoidance of exposure to nephrotoxins and maintenance of a high fluid intake. A low protein/low phosphate diet together with phosphate binder therapy should be commenced early in the course of renal impairment. Corticosteroid and/or cytotoxic drug therapy should be considered in the small percentage of patients with heavy proteinuria or a rapid decline in renal function. Such therapeutic endeavours are likely to delay the onset of renal failure in patients with progressive IgA nephropathy.
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PMID:Recognition and management of IgA nephropathy. 946 91

Nine patients (aged 18+/-1 years) on maintenance hemodialysis with metabolic acidosis and hyperlipidemia were studied before and after 2 weeks of oral sodium bicarbonate (NaHCO(3)) treatment to correct the acidosis. To control for the effect of additional sodium, they were also studied after 2 weeks of an equivalent amount of oral sodium chloride (NaCl). Oral NaHCO(3 )treatment led to significant increases in venous pH, serum bicarbonate, and serum 1, 25-dihydroxyvitamin D(3) concentrations, but no significant change in total and ionized calcium, phosphate, sodium, potassium, creatinine, blood urea nitrogen, and intact parathyroid hormone concentrations. Oral NaCl did not change any of the biochemical parameters. Before treatment of acidosis, these uremic patients had high serum triglycerides, low serum high-density lipoprotein (HDL) cholesterol, but normal total cholesterol compared with controls. Following 2 weeks of NaHCO(3) treatment, there was a significant decrease in the serum concentrations of triglycerides (P<0.01). HDL and total cholesterol did not change. There were no changes in triglycerides, HDL or total cholesterol from baseline values following 2 weeks of NaCl. Thus treatment of metabolic acidosis ameliorated hypertriglyceridemia but had no effect on HDL and total cholesterol in patients with uremia on hemodialysis. The underlying mechanism may involve 1,25-dihydroxyvitamin D3.
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PMID:Effect of metabolic acidosis on hyperlipidemia in uremia. 1060 43

We examined the effects of four 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase inhibitors (pravastatin, simvastatin, fluvastatin, and cerivastatin) on the production and expression of inflammatory cytokines and on enzyme expression involving prostaglandin and superoxide production in cultured human umbilical vein endothelial cells (HUVEC). All HMG-CoA reductase inhibitors significantly reduced interleukin-1beta and -6 mRNA expression and their protein levels in the culture medium, and also inhibited cyclooxygenase-2 mRNA expression and their protein levels. And these drugs induced peroxisome proliferator-activated receptor alpha (PPARalpha) and PPARgamma mRNA expression and their protein levels in HUVEC and hepatocyte. Moreover, the mRNA levels of p22phox, a 22-kD subunit and the protein levels of p47phox, a 47-kD subunit of nicotine adenine dinucleotide phosphate (NADPH) oxidase, was decreased by treatment with either simvastatin, fluvastatin or cerivastatin, and this effect was reversed by mevalonate, geranylgeraniol, farnesol, and cholesterol. The changes induced by HMG-CoA reductase inhibitors might be due to regulation of cellular cholesterol content level, cellular cholesterol metabolic pathway, and cellular PPARalpha activity, which was related with inflammation. This unique anti-inflammatory effect in addition to its hypolipidemic action, may be beneficial in preventing the vascular complications that are induced by hyperlipidemia.
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PMID:Lipophilic HMG-CoA reductase inhibitor has an anti-inflammatory effect: reduction of MRNA levels for interleukin-1beta, interleukin-6, cyclooxygenase-2, and p22phox by regulation of peroxisome proliferator-activated receptor alpha (PPARalpha) in primary endothelial cells. 1094 46

Activation of vascular inflammation in response to hyperlipidemia is believed to play an important role during the early stages of atherogenesis. We demonstrate here that exposure of cultured, rat aortic smooth muscle cells to low density lipoprotein (LDL) stimulated tumor necrosis factor-alpha (TNF-alpha) mRNA and protein expression. Oxidative modification of LDL resulted in a reduction of this stimulatory effect. To analyze whether a similar response also occurs in vivo, we used a recently developed model in which the effects of a rapid accumulation of human LDL in rat arteries can be studied. As previously reported, epitopes specific for human apolipoprotein B began to accumulate in the aorta within 2 to 6 hours after injection of 6 mg of human LDL. This was followed by expression of oxidized LDL-specific epitopes after 12 hours. There was no vascular expression of TNF-alpha at baseline or in phosphate-buffered saline-injected control rats. However, 24 hours after injection of native LDL, there was a marked induction of TNF-alpha mRNA and immunoreactivity in the aorta and other large arteries, whereas injection of oxidized LDL was without effect in this respect. Preincubation of LDL with the antioxidant probucol before injection markedly decreased the expression of TNF-alpha immunoreactivity. The present findings support the notion that LDL may activate arterial expression of TNF-alpha and suggest 1 possible mechanism for the inflammatory response in the early stages of atherosclerosis. The role of LDL oxidation in this process remains to be fully elucidated.
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PMID:Accumulation of LDL in rat arteries is associated with activation of tumor necrosis factor-alpha expression. 1103 Dec 5

The index patient is a 23-year-old female with end-stage renal disease (ESRD) secondary to chemotherapeutic agents. Continuous cycling peritoneal dialysis (CCPD) has been the renal replacement therapy for the past 5 years since a failed cadaveric renal transplant. Past medical history was significant for diabetes mellitus, hypertension, anemia, bilateral subclavian vein thrombosis with superior vena cava syndrome, secondary hyperparathyroidism, leukemia (at age 8), and hyperlipidemia. On presentation, soft tissue nodules were noted in the anterolateral surfaces of the legs. After 3 months of continued low-calcium-dialysate CCPD, calcitriol, and oral phosphate binders, a 2 x 3 cm nodule was noted on the posterior aspect of the thorax at the scapula. The only complaint at this time was shoulder pain at the acromioclavicular joint. Radiological examination revealed a 3 x 4 cm soft tissue opacity in the superior segment of the left lower lobe laterally. Despite a prior subtotal parathyroidectomy, phosphate binders, and calcitriol, the parathyroid hormone levels continued to increase, with development of tumoral calcinosis, worsening renal osteodystrophy, and calciphylaxis. Computed tomography examination revealed extensive soft tissue calcification consistent with tumoral calcinosis. An ulcerative lesion (1 cm) developed on the lateral aspect of the upper thigh owing to warfarin necrosis versus calciphylaxis. At this time, the phosphate binder was changed from calcium acetate to sevelamer hydrochloride. Aggressive wound treatment and aggressive calcium and phosphate control added to the treatment regimen has resulted in healing of the single ulcer and a decrease in the size of the tumoral lesions. In conclusion, early recognition and aggressive treatment of calciphylaxis can result in reduced morbidity and mortality from calciphylaxis in ESRD patients.
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PMID:Spectrum of complications related to secondary hyperparathyroidism in a peritoneal dialysis patient. 1104 12

The clinical manifestations of type 1 glycogen storage disease (GSD-1) in patients deficient in the glucose-6-phosphatase (G6Pase) system (e.g. growth retardation, hepatomegaly, hyperlipidemia, and renal dysfunction) are shared by Hnf1alpha(-/-) mice deficient of a transcriptional activator, hepatocyte nuclear factor 1alpha (HNF1alpha). However, the molecular mechanism is unknown. The G6Pase system, essential for the maintenance of glucose homeostasis, is comprised of glucose 6-phosphate transporter (G6PT) and G6Pase. G6PT translocates G6P from the cytoplasm to the lumen of the endoplasmic reticulum where it is metabolized by G6Pase to glucose and phosphate. Deficiencies in G6Pase and G6PT cause GSD-1a and GSD-1b, respectively. Hnf1alpha(-/-) mice also develop noninsulin-dependent diabetes mellitus caused by defective insulin secretion. In this study, we sought to determine whether there is a molecular link between HNF1alpha deficiency and function of the G6Pase system. Transactivation studies revealed that HNF1alpha is required for transcription of the G6PT gene. Hepatic G6PT mRNA levels and microsomal G6P transport activity are also markedly reduced in Hnf1alpha(-/-) mice as compared with Hnf1alpha(+/+) and Hnf1alpha(+/-) littermates. On the other hand, hepatic G6Pase mRNA expression and activity are up-regulated in Hnf1alpha(-/-) mice, consistent with observations that G6Pase expression is increased in diabetic animals. Taken together, the results strongly suggest that metabolic abnormalities in HNF1alpha-null mice are caused in part by G6PT deficiency and by perturbations of the G6Pase system.
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PMID:A molecular link between the common phenotypes of type 1 glycogen storage disease and HNF1alpha-null mice. 1112 25

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