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Query: UMLS:C0016382 (
flushing
)
6,387
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The relation of plasma levels of prostaglandins to the occurrence of
flushing
induced by niceritrol was investigated. Niceritrol increased plasma levels of PGE2 (p less than 0.01) and 6 keto-PGF1 alpha (p less than 0.05) in 10 male subjects and aspirin reduced the level of PGE2 (p less than 0.01). Five of 10 subjects had
flushing
, and aspirin reduced
flushing
in 4 subjects. On the basis of the above study, we treated 35 hyperlipidemic patients with niceritrol in combination with aspirin, investigating the effect of the treatment of serum lipids and postheparin lipolytic activity. None of the 12 cases given aspirin from the start of the treatment experienced
flushing
, whereas 9 of the 23 cases not given aspirin experienced
flushing
, which was suppressed by adding aspirin in prescription in all cases except one. Niceritrol decreased serum cholesterol, triglyceride and atherogenic index. It also increased
HDL2
cholesterol and decreased HDL3 cholesterol. The LPL activity in postheparin plasma increased in all cases after niceritrol treatment. In conclusion, aspirin increased compliance of niceritrol by reducing the occurrence of
flushing
probably due to the decreased levels of prostaglandins, yielding favorable results for the long-term treatment of hyperlipidemia with a sufficient doses of niceritrol.
...
PMID:Increased compliance of niceritrol treatment by addition of aspirin: relationship between changes in prostaglandins and skin flushing. 348 59
To minimize the cutaneous
flushing
symptoms associated with niacin use, a time-release capsule form of niacin has been formulated. Thus study compares the effects of time-release niacin with those of unmodified niacin on lipoprotein lipids, including
HDL2
and HDL3, apoproteins A-I and A-II, clinical chemistries, symptomatic side effects, and adherence to the medication regimen. Seventy-one primarily hypercholesterolemic subjects were randomized to either unmodified niacin or time-release niacin ad took medication for a six-month period. The two groups were closely matched on anthropomorphic and lipid variables. Adherence to the therapeutic regimen at a dose of 1.5 g/d in the first month of treatment was similar in the two groups. Thereafter, at a dose of 3.0 g/d, adherence was in excess of 90% among subjects taking unmodified niacin but only 64% among those taking time-release niacin, chiefly because of aggravated gastrointestinal symptoms; cutaneous
flushing
side effects, however, were slightly less common with time-release niacin. At these levels of adherence, LDL cholesterol (C) was reduced 21% by unmodified niacin and 13% by the time release form. Plasma total triglyceride was reduced more with unmodified niacin (27%) than with time-release niacin (8% maximum), and HDL-C and
HDL2
-C were increased significantly with unmodified niacin (26% and 36%) and were not significantly changed by time-release niacin. Increased to a similar degree on both regimens were HDL3-C (approximately 35%) and apoA-I (approximately 12%). ApoA-II was not affected by either drug regimen.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Contrasting effects of unmodified and time-release forms of niacin on lipoproteins in hyperlipidemic subjects: clues to mechanism of action of niacin. 392 90
This study compared the efficacy and safety of a once-a-night, time-release niacin formulation, Niaspan (Kos Pharmaceuticals, Miami Lakes, FL), with plain niacin and placebo for the treatment of primary hypercholesterolemia. The study was conducted in nine academic lipid research clinics in a randomized, double-blind design. Niaspan 1.5 g at bedtime was compared with plain niacin 1.5 g/d after 8 weeks and 3.0 g/d after 16 weeks in divided doses and with placebo. A total of 223 hypercholesterolemic adult men and women participated. Compared with placebo at 8 weeks, Niaspan versus plain niacin at 1.5 g/d showed comparable efficacy, comparably lowering total cholesterol (C) (8%/8%), triglycerides (16%/18%), low-density lipoprotein (LDL)-C (12%/12%), apolipoprotein (apo B) (12%/12%), apo E (9%/7%), and lipoprotein(a) [Lp(a)] (15%/11%), and raising high-density lipoprotein (HDL)-C (20%/17%),
HDL2
-C (37%/33%), HDL3-C (17%/16%), and apo A-I (8%/6%) (P < or = .05 in all instances). After 16 weeks, the Niaspan effect on LDL-C and triglyceride was unchanged while the plain niacin effect approximately doubled. At equal doses of 1.5 g/d of Niapan versus plain niacin, respectively, AST increased 5.0% versus 4.8% (difference not significant [NS]), fasting plasma glucose increased 4.8% versus 4.5% (NS), and uric acid concentrations increased less, 6% versus 16% (P=.0001).
Flushing
events were more frequent with plain niacin versus Niaspan (1,905 v 576, P < .001).
Flushing
severity was slightly greater with Niaspan, but still well tolerated. In conclusion, Niaspan 1.5 g hour of sleep (hs) has comparable efficacy, a lower incidence of
flushing
, a lesser uric acid rise, and an equivalent hepatic enzyme effect than 500 mg thrice-daily plain niacin in hyperlipidemic subjects. Niaspan may be an equivalent or better alternative to plain niacin at moderate doses in the management of hyperlipidemia.
...
PMID:Equivalent efficacy of a time-release form of niacin (Niaspan) given once-a-night versus plain niacin in the management of hyperlipidemia. 975 Dec 39
Immediate-release niacin manifests beneficial effects in cardiovascular disease with respect to dyslipidemic states. It lowers low-density lipoprotein (LDL) cholesterol, triglycerides, lipoprotein(a), and apoprotein B; at the same time, it increases high-density lipoprotein (HDL) cholesterol,
HDL2
, and apoprotein A-I. However, use of crystalline niacin has drawbacks: therapy requires multidose regimens, and side effects include
flushing
and pruritus. Slowing absorption with sustained-release formulations succeeds in decreasing
flushing
and increasing tolerance, but increases in hepatic enzyme levels have raised safety concerns. A new extended-release, once-daily formulation of niacin (Niaspan) shows promise in minimizing
flushing
while avoiding hepatotoxicity. A multicenter, randomized, double-blind clinical trial of Niaspan enrolled 122 patients with confirmed diagnosis of primary dyslipidemia (LDL cholesterol >4.14 mmol/L [160 mg/dL] and triglycerides <9 mmol/L [800 mg/dL]) into 3 treatment groups: (1) Niaspan 1,000 mg/day; (2) Niaspan 2,000 mg/day; and (3) placebo. The primary treatment endpoint was LDL-cholesterol level. This endpoint was not significantly affected by placebo (0.2% increase), but Niaspan decreased LDL cholesterol by 5.8% (1,000 mg/day) and 14.6% (2,000 mg/day) (p <0.001). Likewise, with placebo there were significant changes in total cholesterol, triglycerides, lipoprotein(a), and apoprotein B, whereas both Niaspan 1,000 and 2,000 mg/day significantly (p <0.001) decreased these parameters. In addition, both Niaspan groups showed significant (p <0.001) increases in HDL cholesterol (17% and 23%, respectively), including HDL subfractions. With respect to
flushing
, 20% of the placebo group reported at least 1 episode, whereas 88% and 83% of the Niaspon 1,000- and 2,000-mg/day groups, respectively, reported episodes. There was no hepatotoxicity as liver enzyme levels remained within clinically accepted limits in all treatment groups. However, Niaspan 2,000 mg/day showed a significant increase in aspartate aminotransferase compared with baseline and placebo. This trial demonstrated a cholesterol-modifying effect of Niaspan consistent with those reported for niacin, but demonstrated a better tolerance for
flushing
. Moreover, in contrast to sustained-release formulations, Niaspan showed relatively mild hepatic effects.
...
PMID:A new extended-release niacin (Niaspan): efficacy, tolerability, and safety in hypercholesterolemic patients. 991 60
