Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0016382 (flushing)
 6,387 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Drug therapy should be instituted only after appropriate diet treatment has been started and adequate baseline lipid and lipoprotein values are established. Nicotinic acid is useful in treating most lipoprotein disorders and the cutaneous flushing that develops during the early part of treatment is usually alleviated by aspirin. Cholestyramine and colestipol are nonabsorbable resins whose use is limited to type II hyperlipoproteinemia. Clofibrate is primarily effective in lowering triglyceride levels, but its clinical use has considerably declined following the World Health Organization study results that reported increased morbidity and mortality rates among patients receiving this drug. Based on the finding of increased mortality among a subset of patients participating in the Coronary Drug Project, dextrothyroxine is only recommended for treating patients who do not have clinically evident atherosclerotic heart disease. Probucol lowers total and low-density lipoprotein cholesterol levels, but has the undesirable effect of simultaneously reducing high-density lipoprotein levels.
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PMID:Pharmacologic therapy for the hyperlipidemic patient. 684 78

Nicotinic acid flushing after placebo and 975-mg oral doses of aspirin was assessed in 29 normal subjects over a range of nicotinic acid doses. Intensity of flushing was assessed by the change in malar thermal circulation index (delta MTCI). Aspirin pretreatment resulted in smaller delta MTCIs at the higher doses of nicotinic acid. At the lower doses the change in the index after pretreatments with both aspirin and placebo remained low, suggesting that very little flushing was provoked by these doses. These results are compatible with the proposed mediation by prostaglandins of the nicotinic acid-induced flush. According to the delta MCTI method, flushing is quantitatively characterized as a nonquantal, dose-response reaction of variable intensity.
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PMID:Aspirin blocks nicotinic acid-induced flushing. 706 Mar 28

The intensity of erythema does not show a linear correlation with convective and conductive heat transport. In erythema induced by various means such as dermographism, the application of nicotinic acid benzylester, UV-B-irradiation, or dithranol, the mediators follow the direction of blood and lymph defluxion. As a result heat reflection occurs not only from the erythemic region, but also from the surrounding unaffected skin area. Venous blood vessel texture is increased within areas of blood defluxion. Erythemous flushing after alcohol uptake is characterized by an increase in skin temperature. This increase in temperature occurs prior to the appearance of erythema compared to exogenous skin irritation which first shows erythema and later on an increased temperature. An even further increment can be measured in the flushed area. An increase in acral temperature (hands, feet, nose) is an indication of the systemic effect of the resorbed alcohol.
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PMID:[Development of erythema in thermographic images]. 731 14

Lipid abnormalities are seen frequently in renal transplant patients. Cardiovascular disease is an important cause of morbidity and mortality in these patients. We assessed the efficacy and safety of the lipid-lowering drugs, nicotinic acid (short acting) and lovastatin, the 3-hydroxy-3-methylglutaryl coenzyme A reductase inhibitor. Twelve renal transplant patients who had persistent hyperlipidemia despite 6 weeks of dietary treatment participated in this prospective, randomized, open-labeled crossover trial. At 16 weeks, when compared with control values, nicotinic acid (> or = 1.5 g twice a day) significantly reduced the total cholesterol (from 312 +/- 18 [+/- SEM] mg/dL to 229 +/- 19 mg/dL; P = 0.03) and the low-density lipoprotein cholesterol (from 218 +/- 15 mg/dL to 142 +/- 13 mg/dL; P = 0.03) and significantly increased the high-density lipoprotein cholesterol (from 44 +/- 3 mg/dL to 58 +/- 5 mg/dL; P = 0.03). The triglyceride level was reduced from 255 +/- 40 mg/dL to 150 +/- 23 mg/dL (P = 0.09). At 16 weeks, lovastatin therapy (40 mg/d) significantly reduced the total cholesterol (from 285 +/- 13 mg/dL to 233 +/- 10 mg/dL; P = 0.005) and the low-density lipoprotein cholesterol (from 201 +/- 11 mg/dL to 147 +/- 7 mg/dL; P = 0.001). There were no significant changes in the triglyceride and high-density lipoprotein cholesterol levels. Although flushing developed in 67% of patients treated with nicotinic acid, this was not a reason for any of the study dropouts. During this short-term study period no adverse biochemical effects were noted with either of the drugs.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effects of nicotinic acid and lovastatin in renal transplant patients: a prospective, randomized, open-labeled crossover trial. 770 60

Nicotinic acid and derivatives are effective in numerous forms of hyperlipoproteinemia. Its primary mode of action is to inhibit lipolysis in adipose tissue and to prevent the utilization of free fatty acids for TG-rich lipoprotein synthesis in the liver. Consequently, it decreases the plasma lipoproteins which are considered to be atherogenic--VLDL, LDL and Lp(a), while it increases the antiatherogenic lipoprotein--HDL. A gradual administration of nicotinic acid or derivatives is useful to reduce the side effects such as flushing and itching. In the secondary prevention trials, nicotinic acid therapy with other hypolipidemic drugs asserted protective effects on the development/progression of cardiovascular disease.
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PMID:[Nicotinic acid and derivatives for therapy of hyperlipoproteinemia]. 785 25

Dyslipidaemia may be treated with a number of safe and effective pharmacological agents that target specific lipid disorders through a variety of mechanisms. The bile-acid sequestrants--cholestyramine and colestipol--primarily decrease LDL cholesterol by binding bile acids, thereby decreasing intrahepatic cholesterol, and by increasing the activity of LDL receptors. Nicotinic acid lowers LDL cholesterol and triglyceride by decreasing VLDL synthesis and by decreasing free fatty acid mobilization from peripheral adipocytes. The HMG-CoA reductase inhibitors--fluvastatin, lovastatin, pravastatin and simvastatin--lower LDL cholesterol by partially inhibiting HMG-CoA reductase (the rate-limiting enzyme of cholesterol biosynthesis) and by increasing the activity of LDL receptors. The fibric-acid derivatives--bezafibrate, ciprofibrate, clofibrate, fenofibrate and gemfibrozil--primarily decrease triglyceride by increasing lipoprotein lipase activity and by decreasing the release of free fatty acids from peripheral adipose tissue. Probucol decreases LDL cholesterol by increasing non-receptor-mediated LDL clearance; as an anti-oxidant, probucol also decreases LDL oxidation; oxidized LDL which is thought to lead to atherogenesis. Although these agents have been proven safe in clinical trials, like any drug, they carry the risk for adverse effects. The bile-acid sequestrants may cause constipation, reflux oesophagitis, and dyspepsia, and may bind coadministered medications such as digitalis glycosides, beta blockers, warfarin, and exogenous thyroid hormone. Nicotinic acid use is commonly associated with flushing and pruritus and may also cause non-specific gastrointestinal complaints, hepatotoxicity (hepatic necrosis, hepatitis, or elevated liver enzymes), gout, myolysis, decreased glucose tolerance and increased fasting glucose levels, and ophthalmological complications including decreased visual acuity, toxic amblyopia, and cystic maculopathy. The HMG-CoA reductase inhibitors may produce liver enzyme elevations, creatine kinase elevations and rhabdomyolysis. The combination of a reductase inhibitor and a fibrate increases the risk for rhabdomyolysis. Possible adverse effects of the fibric-acid derivatives include abdominal discomfort, nausea, flatulence, increased lithogenicity of bile, liver enzyme elevations and creatine kinase elevations. Probucol may increase the QTc interval and may cause non-specific gastrointestinal complaints.
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PMID:Currently available hypolipidaemic drugs and future therapeutic developments. 859 27

The aim of this pilot study was to evaluate a potential skin test for schizophrenia based on the effect of aqueous methyl nicotinate (AMN) on the production of prostaglandin D2 (PGD2) from skin macrophages and the resultant cutaneous capillary vasodilatation. Four concentrations of AMN were applied topically to the forearm skin in patients and controls, and any resulting vasodilatation was rated as redness after 5 min. The test was carried out on 38 patients with schizophrenia diagnosed according to DSM-III-R criteria, and 22 normal control subjects. At all concentrations of AMN, the schizophrenics were highly significantly different from the controls. One concentration gave the greatest degree of differentiation: at this concentration at 5 min, 83% of schizophrenics but only 23% of controls had a zero or minimal response to AMN. The skin flushing seen after oral administration of nicotinic acid is due to the same reaction, and this has been normal in those with affective illness and neurosis; cyclo-oxygenase inhibitors, e.g., aspirin, give a false-positive result (failure of vasodilatation). This result is consistent with the concept of reduced membrane arachidonic acid levels in schizophrenia. This test may contribute to the reliable diagnosis of schizophrenia.
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PMID:Niacin skin flush in schizophrenia: a preliminary report. 951 68

Usual risk factors for coronary artery disease account for only 25-50% of increased atherosclerotic risk in diabetes mellitus. Other obvious risk factors are hyperglycemia and dyslipidemia. However, hyperglycemia is a very late stage in the sequence of events from insulin resistance to frank diabetes, whereas lipoprotein abnormalities are manifested during the largely asymptomatic diabetic prodrome and contribute substantially to the increased risk of macrovascular disease. The insulin-resistant diabetes course affects virtually all lipids and lipoproteins. Chylomicron and very-low-density lipoprotein (VLDL) remnants accumulate, and triglycerides enrich high-density lipoprotein (HDL) and low-density lipoprotein (LDL), leading to high levels of potentially atherogenic particles and low levels of HDL cholesterol. Hyperglycemia eventually impairs removal of triglyceride-rich lipoproteins, the accumulation of which accentuates hypertriglyceridemia. As triglycerides increase-still within the so-called normal range-abnormalities in HDL and LDL became more apparent. Thus, when triglycerides are >200 mg/dL, LDL particles are small and dense (when they are <90 mg/dL, the particles are of the large, buoyant variety). The atherogenicity of small, dense LDL particles is attributed to their increased susceptibility to oxidation, but in many patients they may be a marker for insulin resistance or the presence of atherogenic VLDL. Hypertriglyceridemia is associated with atherosclerosis because (1) it is a marker for insulin resistance and atherogenic metabolic abnormalities; and (2) the small size of triglyceride-enriched lipoproteins enables them to infiltrate the blood vessel wall where they are oxidized, bind to receptors on macrophages, and ingested, leading to the development of the atherosclerotic lesion. Various studies (primary prevention with gemfibrozil: Helsinki Heart Study; secondary prevention with simvastatin and pravastatin: Scandinavian Simvastatin Survival Study [4S] and Cholesterol and Recurrent Events [CARE], respectively) have demonstrated that lipid-lowering therapy in type 2 diabetes is effective in decreasing the number of cardiac events. Risk reduction was 22% to 50% (statins) and approximately 65% (fibrate) relative to placebo. It was also noted (in 4S and CARE) that the risk of major coronary events in untreated diabetic patients was 1.5-1.7-fold greater than in untreated nondiabetic patients. Although gemfibrozil (fibric acid derivative) is more effective in decreasing triglycerides and increasing HDL cholesterol in diabetic patients than the statins, it does not change and may even increase LDL-cholesterol levels (fenofibrate may be an exception, decreasing LDL cholesterol by 20-25% in some studies). However, gemfibrozil does increase LDL particle size. Nevertheless, the statins are the current lipid-lowering drugs of choice because the change in LDL-cholesterol-to-HDL-cholesterol ratio is better than with gemfibrozil. Moreover, the diabetic patient may be more likely to benefit from statin therapy than the nondiabetic patient. It should be noted that, in theory, nicotinic acid can correct or improve all lipid or lipoprotein abnormalities in patients with type 2 diabetes. Unfortunately, it is relatively contraindicated because it causes insulin resistance and may precipitate or aggravate hyperglycemia (in addition to its other well-known side effects such as flushing, gastric irritation, development of hepatotoxicity, and hyperuricemia). It is unknown at present whether newer formulations such as once-daily Niaspan may be better tolerated in diabetes. In any case, most patients with type 2 diabetes have risk factors for coronary artery disease and qualify for aggressive LDL cholesterol-lowering therapy. At the same time, it is presently unknown whether improved glycemic control decreases coronary artery disease risk in such patients.
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PMID:Diabetic dyslipidemia. 991 65

Crystalline nicotinic acid (immediate-release niacin) is effective therapy for lipoprotein regulation and cardiovascular risk reduction. However, inconvenient regimens and unpleasant side effects decrease compliance. Sustained-release formulations designed to circumvent these difficulties increase hepatotoxicity. Niaspan, a new US Food and Drug Administration (FDA)-approved, once-daily, extended-release form, has been found effective and safe in short-term trials. The long-term efficacy and safety of Niaspan lipid monotherapy was studied in 517 patients (aged 21-75 years) for < or =96 weeks in dosages < or =3,000 mg/day. Primary efficacy endpoints were low-density lipoprotein (LDL) cholesterol and apolipoprotein B (apo B) changes from baseline; secondary efficacy endpoints were changes in total cholesterol, triglycerides, high-density lipoprotein (HDL) cholesterol, lipoprotein(a), and total cholesterol/HDL-cholesterol ratio; safety data included adverse events and laboratory values over the 2-year study period. LDL-cholesterol levels decreased significantly: 18% at week 48 and 20% at week 96; apo B reduction was similar (16% decrease at week 48 and 19% at week 96). Large elevations in HDL cholesterol (26%, week 48; 28%, week 96) allowed only modest decreases in total cholesterol (12% and 13%, respectively), whereas total cholesterol/HDL-cholesterol ratio decreased by almost one third. Triglyceride and lipoprotein(a) levels were decreased by 27% and 30%, respectively (week 48), and by 28% and 40%, respectively (week 96). All changes from baseline were significant (p <0.001). Niaspan was generally well tolerated, although flushing was common (75%); however, there was a progressive decrease in flushing with time from 3.3 episodes in the first month to < or = 1 episode by week 48. Aspirin was used by one third of patients before Niaspan dosing to minimize flushing episodes. Although serious adverse events occurred in about 10% of patients, none were considered probably or definitely related to Niaspan. Adverse events in general varied widely, but their true relation to the study drug is difficult to ascertain without a placebo (control) group. No deaths occurred. There were statistically significant changes in hepatic transaminases, alkaline phosphatase, direct bilirubin, phosphorus, glucose, amylase, and uric acid. However, these changes were mostly small and are not likely to be biologically or clinically significant (the decrease in phosphorus is a new finding in niacin therapy). No myopathy was observed. Thus, this long-term study confirms the earlier short-term findings that Niaspan is safe and effective as monotherapy in plasma lipoprotein regulation.
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PMID:Efficacy and safety of an extended-release niacin (Niaspan): a long-term study. 991 66

Although blushing is an almost pathognomonic feature of social phobia, little is known about the neurobiology of blushing in this disorder. Nicotinic acid (100 mg), a vasodilator that may induce flushing, was administered to six male patients with generalized social phobia and to six healthy male controls. Compared with controls, patients demonstrated increased flushing, anxiety, autonomic activity, and temperature after nicotinic acid administration. Further controlled research is necessary to confirm and extend these pilot findings.
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PMID:Hyperresponsivity to nicotinic acid challenge in generalized social phobia: a pilot study. 992 22


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