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 examined the effects of a fibric acid, clinofibrate, on lipoprotein metabolism in 12 hyperlipidemic patients with uremia treated on continuous ambulatory peritoneal dialysis during a 24 week treatment. Daily dose of clinofibrate was 200 mg for the initial four weeks, 400 mg for the second four weeks, and 600 mg for the subsequent 16 weeks. Serum and very-low density lipoprotein (VLDL) triglyceride were decreased by 36% and 48%, respectively. Neither total cholesterol nor apolipoprotein B changed significantly, whereas cholesterol was decreased in VLDL and increased in low (LDL) and high density lipoprotein (HDL) fractions. Post-heparin plasma lipoprotein lipase (LPL) before treatment was not lower than the normal value, and we found no change in LPL activity following clinofibrate. Hepatic triglyceride lipase also did not change. Apolipoprotein (apo) C-II/C-III ratio was low as compared to the normal value before treatment, and the ratio was increased by 38% after the treatment. Decrease in VLDL triglyceride was associated with increase in apo C-II/C-III ratio in all the cases. Abnormal enrichment with triglyceride of LDL and HDL fractions was improved by clinofibrate. Although one patient had a transient and asymptomatic elevation of serum creatine phosphokinase, no patient had muscle pain. There was no accumulation of the drug in the 24 week trial. These results suggest that clinofibrate is an effective and safe approach to the management of dyslipidemia in CAPD patients.
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PMID:Hypertriglyceridemia and lowered apolipoprotein C-II/C-III ratio in uremia: effect of a fibric acid, clinofibrate. 830 36

In type 2 diabetes, it is not uncommon to find an elevated serum triglyceride and/or reduced high-density lipoprotein (HDL) cholesterol levels; elevated total cholesterol levels often occur as well. To evaluate the short-term efficacy and tolerability of combination therapy with lovastatin and acipimox in Chinese patients with type 2 diabetes who have mixed dyslipidemia, an open-label 6-month trial was conducted. All patients had type 2 diabetes (n = 33) with total cholesterol > or = 6.2 mmol/L and fasting triglyceride > or = 2.8 mmol/L, which had been confirmed twice and persisted for at least 12 weeks after introduction of diet control. After a 4-week run-in period, they were given lovastatin 40 mg daily at night for 12 weeks. Acipimox 250 mg three times a day was then added for a further 12 weeks. After 12 weeks of treatment with lovastatin alone, improvement was observed in total cholesterol (21% reduction), triglyceride (32% reduction), low-density lipoprotein (LDL) cholesterol (5.5% reduction), HDL cholesterol (11.6% elevation), apolipoprotein A-I (4.6% elevation), and apolipoprotein B (20.5% reduction). The addition of acipimox to lovastatin for an additional 12 weeks further reduced serum total cholesterol, triglyceride, LDL cholesterol, and apolipoprotein B, but this additional decrease was not statistically significant. However, HDL cholesterol and apolipoprotein A-I levels were significantly increased by the addition of acipimox (a 14.2% and 9.0% elevation, respectively). Serum creatine phosphokinase increased slightly after 12 weeks of lovastatin but decreased to a concentration similar to baseline after 12 weeks of combination treatment. No patients reported muscle pain or weakness or other side effects. Combination treatment with lovastatin and acipimox appears to be a safe and effective therapy in patients with type 2 diabetes and mixed dyslipidemia, and has particular benefit in elevating serum HDL cholesterol and apolipoprotein A-I levels.
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PMID:Short-term efficacy and tolerability of combination therapy with lovastatin and acipimox in Chinese patients with type 2 diabetes mellitus and mixed dyslipidemia. 980 71

Insulin-like growth factor-1 (IGF-1) and its receptors share considerable homology with insulin and insulin receptors, and their respective signaling pathways interact at the post receptor level. While the growth hormone (GH)-IGF-1 axis principally regulates tissue growth and differentiation, insulin exerts it primary effects on fuel metabolism. However, these two endocrine systems interact at multiple levels and in diabetes mellitus the GH-IGF-1 axis is grossly disturbed, with increased secretion of GH, reduced plasma levels of IGF-1, and complex tissue-specific changes in IGF binding proteins (IGFBPs). These observations have given rise to the view that GH-IGF-1 axis dysfunction, particularly low plasma levels of circulating IGF-1, probably play a significant role in several aspects of the pathophysiology of diabetes mellitus, including insulin resistance and poor glycemic control, and may also influence the development of microvascular complications. The availability of recombinant human IGF-1 (rhIGF-1; mecasermin), used either alone or in combination with insulin, has led to experimental studies and clinical trials in humans testing these hypotheses. These studies have examined the impact of subcutaneous rhIGF-1 injections on sensitivity and metabolic parameters. In patients with type 1 and 2 diabetes mellitus, insulin sensitivity is significantly improved, insulin requirements are reduced, and glycemic control of dyslipidemia is generally improved in short-term studies. rhIGF-1 is a particularly attractive possibility in patients with type 2 diabetes mellitus, where insulin resistance is the fundamental problem. Some patients with genetic syndromes of severe insulin resistance also benefit from treatment with rhIGF-1, which can bypass blocks in the insulin signaling pathway. The common adverse effects reported for rhIGF-1 are dose-related and include edema, jaw pain, arthralgia, myalgia, hypotension, injection site pain, and less commonly, Bell's palsy and raised intracranial pressure. Although disturbance of the GH-IGF-1 axis participates in the development of diabetic complications, the functional consequences of the complex changes in IGFBP expression at the tissue level are uncertain, and it is not known whether systemic IGF-1 therapy or other manipulations of the GH-IGF-1 axis would be helpful or harmful. Experimentally, IGF-1 has a protective effect on neuropathy, and could find an application in the healing of neuropathic ulcers. The potential benefits of IGF-1 therapy in diabetes mellitus have yet to be realised.
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PMID:Therapeutic potential of insulin-like growth factor-1 in patients with diabetes mellitus. 1583 92

Intravenous immunoglobulin (IVIg) is administered for various indications and generally considered a safe therapy. Most of the adverse effects (AEs) associated with IVIg administration are mild and transient. The immediate AEs include headache, flushing, malaise, chest tightness, fever, chills, myalgia, fatigue, dyspnea, back pain, nausea, vomiting, diarrhea, blood pressure changes, tachycardia, and anaphylactic reactions, especially in IgA-deficient patients. Late AEs are rare and include acute renal failure, thromboembolic events, aseptic meningitis, neutropenia, and autoimmune hemolytic anemia, skin reactions, and rare events of arthritis. Pseudohyponatremia following IVIg is important to be recognized. Renal failure, usually oliguric and transient, occurs mostly on using sucrose-containing products owing to osmotic injury. Among high-risk patients who have a previous renal disease, dehydration, diabetes mellitus, advanced age, hypertension, hyperviscosity, or are treated by other nephrotoxic medications, administration of a non-sucrose-containing IVIg product after accomplishing hydration, in a low concentration and a slow infusion rate while supervising urine output and kidney function, is recommended. Thromboembolic complications occur because of hyperviscosity especially in patients having risk factors including advanced age, previous thromboembolic diseases, being bedridden, diabetes mellitus, hypertension, dyslipidemia, or those receiving high-dose IVIg in a rapid infusion rate. Immediate AEs can be treated by the slowing or temporary discontinuation of the infusion and symptomatic therapy with analgesics, nonsteroidal anti-inflammatory drugs, antihistamines, and glucocorticoids in more severe reactions. Slow infusion rate of low concentration of IVIg products and hydration, especially in high-risk patients, may prevent renal failure, thromboembolic events, and aseptic meningitis.
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PMID:Intravenous immunoglobulin: adverse effects and safe administration. 1639 92

The 3-hydroxy-3-methylglutaryl coenzyme A reductase inhibitors (statins) play a prominent role in the treatment of dyslipidemia. Overall, statins are well tolerated, with a low occurrence of adverse effects. More serious reactions to statins have been reported, although they are rare (e.g., rhabdomyolysis 0.3-13.5 cases/million statin prescriptions). Combination therapy to treat dyslipidemia has become common in many patients; however, it can also increase the risk of serious adverse effects. We report the case of a patient who experienced muscle pain and elevated creatine kinase levels 16 days after the addition of ezetimibe to his atorvastatin therapy for hypercholesterolemia. Twelve days after stopping the ezetimibe, his muscle pain resolved and his serum creatine kinase level returned to baseline. This case report raises questions regarding the safety of high-dose atorvastatin and ezetimibe combination therapy and suggests that caution and careful monitoring may be warranted.
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PMID:Myopathy associated with atorvastatin-ezetimibe combination therapy. 1725 23

Hypolipemic agents, both statins and fibrates, may cause a spectrum of side-effects, including the transient increase in creatine phosphokinase (CPK) activity. Muscle injury may present as common myalgia, non-specific myositis with normal CPK levels, myopathy and in the most serious cases, as rhabdomyolysis. Muscle damage is much more probably in patients with concomittant kidney and liver diseases, hypothyroidism, and serious infections or after some injuries or a heavy physical effort. On the other hand, one of the most common causes of secondary hypercholesterolemia and myopathy is hypothyroidism. This condition, which may enhance the risk of muscle damage in the course of hypolipemic treatment, may sometimes present with an atypical clinical presentation, making its diagnosis challenging. In this article, we present the case of a 50-year-old male physical worker presented with marked dyslipidemia, in whom myopathy was diagnosed during therapy with hypolipemic agents. Cessation of the treatment resulted in the only moderate reduction of CPK activity. Only just the introduction of thyroid hormone supplementation led to regression of symptoms and normalization of abnormalities found in laboratory examinations including remarkable improvement in lipid profile. After several months of observation we consider that hypolipemic treatment probably revealed previously occult autoimmune thyroid disease in this patient.
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PMID:[Is every case of muscle damage during hypolipemic therapy the side effect of this therapy? A case report]. 1832 Jul 90

Currently, no consensus has been reached regarding the management of hyperlipidemia in patients who develop statin-associated myalgia (SAM). Many statin-intolerant patients use alternative lipid-lowering therapies, including red yeast rice. The present trial evaluated the tolerability of red yeast rice versus pravastatin in patients unable to tolerate other statins because of myalgia. The study was conducted in a community-based setting in Philadelphia, Pennsylvania. A total of 43 adults with dyslipidemia and a history of statin discontinuation because of myalgia were randomly assigned to red yeast rice 2,400 mg twice daily or pravastatin 20 mg twice daily for 12 weeks. All subjects were concomitantly enrolled in a 12-week therapeutic lifestyle change program. The primary outcomes included the incidence of treatment discontinuation because of myalgia and a daily pain severity score. The secondary outcomes were muscle strength and plasma lipids. The incidence of withdrawal from medication owing to myalgia was 5% (1 of 21) in the red yeast rice group and 9% (2 of 22) in the pravastatin group (p = 0.99). The mean pain severity did not differ significantly between the 2 groups. No difference was found in muscle strength between the 2 groups at week 4 (p = 0.61), week 8 (p = 0.81), or week 12 (p = 0.82). The low-density lipoprotein cholesterol level decreased 30% in the red yeast rice group and 27% in the pravastatin group. In conclusion, red yeast rice was tolerated as well as pravastatin and achieved a comparable reduction of low-density lipoprotein cholesterol in a population previously intolerant to statins.
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PMID:Tolerability of red yeast rice (2,400 mg twice daily) versus pravastatin (20 mg twice daily) in patients with previous statin intolerance. 2045 4

Rosuvastatin, a statin indicated for patients with primary hypercholesterolemia, mixed dyslipidemia and familial hypercholesterolemia, is well tolerated by most patients. Its most common adverse effects are gastrointestinal derangement, muscle aches and hepatitis. One rare complication of statin treatment is severe thrombocytopenia. The case of a 65-year-old patient who developed severe thrombocytopenia while on rosuvastatin is presented, in addition to a review of the literature.
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PMID:Rosuvastatin-induced thrombocytopenia. 2053 Oct 42

Statin-associated muscle symptoms are a relatively common condition that may affect 10% to 15% of statin users. Statin myopathy includes a wide spectrum of clinical conditions, ranging from mild myalgia to rhabdomyolysis. The etiology of myopathy is multifactorial. Recent studies suggest that statins may cause myopathy by depleting isoprenoids and interfering with intracellular calcium signaling. Certain patient and drug characteristics increase risk for statin myopathy, including higher statin doses, statin cytochrome metabolism, and polypharmacy. Genetic risk factors have been identified, including a single nucleotide polymorphism of SLCO1B1. Coenzyme Q10 and vitamin D have been used to prevent and treat statin myopathy; however, clinical trial evidence demonstrating their efficacy is limited. Statin-intolerant patients may be successfully treated with either low-dose statins, alternate-day dosing, or using twice-weekly dosing with longer half-life statins. An algorithm is presented to assist the clinician in managing myopathy in patients with dyslipidemia.
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PMID:Evidence-based management of statin myopathy. 2062 37

Fenofibrate, a fibric acid derivative, is used to treat diabetic dyslipidemia, hypertriglyceridemia, and combined hyperlipidemia, administered alone or in combination with statins. Rhabdomyolysis is defined as a pathological condition involving skeletal muscle cell damage leading to the release of toxic intracellular material into circulation. Its major causes include muscle compression or overexertion; trauma; ischemia; toxins; cocaine, alcohol, and drug use; metabolic disorders; infections. However, rhabdomyolysis associated with fenofibrate is extremely rare. Herein we report a 45-year-old female patient who was referred to our department because of generalized muscle pain, fatigue, weakness, and oliguria over the preceding 3 weeks. On the basis of the pathogenesis and clinical and laboratory examinations, a diagnosis of acute renal failure secondary to fenofibrate-induced rhabdomyolysis was made. Weekly followups for patients who are administered fenofibrate are the most important way to prevent possible complications.
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PMID:Rhabdomyolysis-induced acute renal failure following fenofibrate therapy: a case report and literature review. 2081 85


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