Safety and tolerability of extended-release niacin-laropiprant: Pooled analyses for 11,310 patients in 12 controlled clinical trials.

BACKGROUND: The Heart Protection Study 2-Treatment of HDL to Reduce the Incidence of Vascular Events (HPS2-THRIVE) showed that adding extended-release niacin-laropiprant (ERN-LRPT) to statin provided no incremental cardiovascular benefit vs placebo (PBO). ERN-LRPT was also associated with an excess of serious adverse experiences (AEs), some of which were unexpected (infections and bleeding). These findings led to the withdrawal of ERN-LRPT from all markets. OBJECTIVE: We examined the safety profile of ERN-LRPT vs the comparators ERN alone and statins in the ERN-LRPT development program to assess whether similar safety signals were observed to those seen in HPS-THRIVE and whether these might be attributed to ERN or LRPT. METHODS: Postrandomization safety data from 12 clinical studies, 12 to 52 weeks in duration and involving 11,310 patients, were analyzed across 3 treatments: (1) ERN-LRPT; (2) ERN-NSP (ERN, Merck & Co, Inc or Niaspan [NSP], Abbott Laboratories); and (3) statin-PBO (statin or PBO). RESULTS: The safety profiles of ERN-LRPT and ERN-NSP were similar, except for less flushing with ERN-LRPT. Nonflushing AEs reported more frequently with ERN-LRPT or ERN-NSP than with statin-PBO were mostly nonserious and typical of niacin (nausea, diarrhea, and increased blood glucose). There was no evidence for an increased risk of serious AEs related to diabetes, muscle, infection, or bleeding. CONCLUSIONS: Pooled data from 11,310 patients revealed that, except for reduced flushing, the safety profile of ERN-LRPT was similar to that of ERN-NSP; LRPT did not appear to adversely affect the side-effect profile of ERN. The inability to replicate the unexpected AE findings in HPS2-THRIVE could be because of the smaller sample size and substantially shorter duration of these studies.

Lipid-altering efficacy and safety profile of co-administered extended release niacin/laropiprant and simvastatin versus atorvastatin in patients with mixed hyperlipidemia.

BACKGROUND: Extended-release niacin/laropiprant (ERN/LRPT) reduces flushing and preserves the lipid-modifying effects of ERN. This study compared the efficacy and safety of ERN/LRPT plus simvastatin (ERN/LRPT+SIMVA) with atorvastatin (ATORVA) in patients with mixed hyperlipidemia. METHODS: After a 4-week placebo run-in, 2340 patients (LDL-C ≥ 130 and ≤ 190 mg/dL, TG ≥ 150 and ≤ 500 mg/dL and above NCEP ATP III risk-based LDL-C goal) were randomized to 1 of 6 treatment arms: ERN/LRPT 1g/20mg+SIMVA (10 or 20mg), or ATORVA (10, 20, 40, or 80 mg) once daily. RESULTS: At Week 12, ERN/LRPT+SIMVA was superior to ATORVA in decreasing LDL-C/HDL-C (primary endpoint) at each pre-specified dose comparison: ERN/LRPT+SIMVA 20mg vs. ATORVA 10mg (-13.2%; p<0.001); ERN/LRPT+SIMVA 40 mg vs. ATORVA 20mg (-10.8%; p<0.001); ATORVA 40 mg (-5.1%; p<0.001); and ATORVA 80 mg (-4.2%; p=0.007). At Week 12, ERN/LRPT+SIMVA was superior to ATORVA in increasing HDL-C and reducing TG for all pre-specified treatment comparisons, and reducing non-HDL-C and LDL-C for the ERN/LRPT+SIMVA 20mg versus ATORVA 10mg and ERN/LRPT+SIMVA 40 mg versus ATORVA 20-mg dose comparisons, but not the ERN/LRPT+SIMVA 40 mg versus ATORVA 40- and 80-mg dose comparisons. Adverse experiences (AEs) typically associated with niacin (flushing, pruritus, increased glucose, increased uric acid) were more common with ERN/LRPT+SIMVA, and hepatic-related laboratory AEs were more common with ATORVA. CONCLUSION: ERN/LRPT+SIMVA was generally superior to ATORVA in improving lipid parameters after 12 weeks and was generally well tolerated in patients with mixed hyperlipidemia.

Niacin lipid efficacy is independent of both the niacin receptor GPR109A and free fatty acid suppression.

Nicotinic acid (niacin) induces beneficial changes in serum lipoproteins and has been associated with beneficial cardiovascular effects. Niacin reduces low-density lipoprotein, increases high-density lipoprotein, and decreases triglycerides. It is well established that activation of the seven-transmembrane G(i)-coupled receptor GPR109A on Langerhans cells results in release of prostaglandin D2, which mediates the well-known flushing side effect of niacin. Niacin activation of GPR109A on adipocytes also mediates the transient reduction of plasma free fatty acid (FFA) levels characteristic of niacin, which has been long hypothesized to be the mechanism underlying the changes in the serum lipid profile. We tested this "FFA hypothesis" and the hypothesis that niacin lipid efficacy is mediated via GPR109A by dosing mice lacking GPR109A with niacin and testing two novel, full GPR109A agonists, MK-1903 and SCH900271, in three human clinical trials. In mice, the absence of GPR109A had no effect on niacin's lipid efficacy despite complete abrogation of the anti-lipolytic effect. Both MK-1903 and SCH900271 lowered FFAs acutely in humans; however, neither had the expected effects on serum lipids. Chronic FFA suppression was not sustainable via GPR109A agonism with niacin, MK-1903, or SCH900271. We conclude that the GPR109A receptor does not mediate niacin's lipid efficacy, challenging the long-standing FFA hypothesis.

Effectiveness and safety of laropiprant on niacin-induced flushing.

Extended-release niacin (ERN) improves multiple lipid parameters but is underused owing to niacin-induced flushing (NIF). Laropiprant (LRPT) reduces NIF; however, its effects on chronic flushing (>6 months) have not been studied. We examined whether after 20 weeks of treatment with ERN/LRPT, patients who continued ERN/LRPT would experience less NIF than patients who stopped LRPT and continued ERN alone. A total of 1,152 dyslipidemic patients were randomized 2:2:1 to group 1, ERN/LRPT 1 g/20 mg/day from 0 to 4 weeks and then ERN/LRPT 2 g/40 mg/day from 5 to 32 weeks; group 2, ERN/LRPT 1 g/20 mg/day from 0 to 4 weeks, ERN/LRPT 2 g/40 mg/day from 5 to 20 weeks, and then ERN 2 g/day without LRPT from 21 to 32 weeks; or group 3, placebo for the entire study. The end points included the number of days each week with a moderate or greater Global Flushing Severity Score (GFSS) ≥4 (primary end point) and the percentage of patients with a maximum GFSS of ≥4 (secondary end point) during the postwithdrawal period (weeks 21 to 32). ERN/LRPT produced significantly less NIF than ERN alone during the postwithdrawal period, as measured by the number of days each week with a GFSS of ≥4 (p <0.001) and the percentage of patients with a maximum GFSS of ≥4 (p <0.001; ERN/LRPT 19.6%; ERN 48.9%; placebo 9.2%). Compared with ERN alone, ERN/LRPT produced fewer drug-related adverse experiences during the postwithdrawal period. After 20 weeks of stable maintenance therapy, dyslipidemic patients treated continuously with ERN/LRPT experienced less NIF than did patients who had had LRPT withdrawn and had continued with ERN alone. In conclusion, the results of our study support the long-term efficacy of ERN/LRPT in reducing NIF symptoms.

Flushing profile of extended-release niacin/laropiprant at initiation of therapy in Asian lipid clinic patients.

OBJECTIVE: Niacin is underutilized due to flushing, which occurs in over 90% of niacin-treated patients. Laropiprant (LRPT) reduces flushing associated with niacin. This study compared flushing with a combination tablet of extended-release (ER) niacin (ERN)/LRPT to niacin ER (N-ER; without LRPT) during the first week of therapy among patients in Asia. METHODS: Following a 1-week placebo run-in, 332 patients with dyslipidemia from China, Korea and Singapore were randomized to ERN/LRPT 1 g/20 mg, N-ER 1 g (given as Niaspan(R)) or placebo in a 2:2:1 ratio for 1 week. Patient-reported flushing severity was assessed using the Global Flushing Severity Score (GFSS; none/mild = 0-3; moderate = 4-6; severe = 7-9; extreme = 10). RESULTS: Compared with N-ER, the ERN/LRPT group experienced significantly less flushing (p < 0.001), as measured by maximum GFSS categorized as none/mild, moderate, severe or extreme. Overall, 23.8% of patients in the ERN/LRPT group and 50.0% in the N-ER group (p < 0.001), versus 12.1% in the placebo group, had moderate or greater flushing (GFSS > or =4). Except for flushing, which occurred more frequently in the N-ER group, ERN/LRPT had a safety/tolerability profile similar to that of N-ER. CONCLUSION: ERN/LRPT produced significantly less flushing than N-ER during the initiation of therapy and was generally well tolerated in Asian patients with dyslipidemia.

Lipid-modifying efficacy of extended release niacin/laropiprant in Asian patients with primary hypercholesterolemia or mixed hyperlipidemia.

BACKGROUND: Niacin has proven lipid-modifying efficacy and cardiovascular benefit; however, it is underused because of skin flushing, a process mediated primarily by prostaglandin D(2) (PGD(2)). Laropiprant (LRPT), a PGD(2) receptor (DP1) antagonist that mitigates niacin-induced flushing, has been combined with extended-release niacin (ERN) into a fixed-dose tablet containing 1g of ERN and 20mg of LRPT (ERN/LRPT 1g). In a large-scale (n=∼1600), multinational, 6-month study in dyslipidemic patients, ERN/LRPT 2g produced superior lipid-modifying efficacy vs placebo, whether administered alone or with concomitant statins. OBJECTIVE: This Phase III, randomized, double-blind study evaluated the lipid-modifying efficacy of ERN/LRPT alone or added to ongoing statins in Asian patients with primary hypercholesterolemia or mixed hyperlipidemia. METHODS: After a 4-week placebo run-in, patients were randomized to ERN/LRPT 1g (n=322) or placebo (PBO; n=324). After 4 weeks, the dose was advanced to 2 tablets/d (ERN/LRPT 2g or PBO) for 8 additional weeks. End points included effects of ERN/LRPT 2g vs PBO on low-density lipoprotein cholesterol (LDL-C; primary), high-density lipoprotein cholesterol (HDL-C), triglyceride (TG), and other lipids/lipoproteins. RESULTS: Relative to PBO, ERN/LRPT 2g produced significant (P < .001) changes in LDL-C (-14.7%), HDL-C (15.9%), TG (-23.4%), LDL-C:HDL-C (-25.5%), non-HDL-C (-16.4%), apolipoprotein (Apo) B (-15.4%), and Apo A-I (5.3%) from baseline to week 12 in the total population. Similar results were observed in patients treated with ERN/LRPT alone or added to ongoing statin. CONCLUSION: ERN/LRPT 2g, administered alone or with a statin, produced significant improvements in multiple lipid/lipoprotein parameters in dyslipidemic Asian patients.

Long-term safety and, tolerability profiles and lipid-modifying efficacy of ezetimibe coadministered with ongoing simvastatin treatment: a multicenter, randomized, double-blind, placebo-controlled, 48-week extension study.

BACKGROUND: Ezetimibe (EZE) is a cholesterol-lowering drug that inhibits absorption of dietary and biliary cholesterol across the intestinal wall without affecting absorption of bile acids, fatty acids, fat-soluble vitamins, or triglycerides. It has a complementary mechanism of action to the statins, which inhibit cholesterol synthesis in the liver. Coadministration of EZE and statins provides inhibition of 2 sources of cholesterol, leading to greater reductions in low-density lipoprotein cholesterol (LDL-C) than with either agent alone. OBJECTIVES: This study evaluated the long-term safety and tolerability profiles and lipid-modifying efficacy of treatment with EZE 10 mg/d plus simvastatin (SIMVA) 10, 20, 40, or 80 mg/d for 48 weeks in patients with primary hypercholesterolemia. METHODS: This was an extension of a multicenter, double-blind, placebo (PBO)-controlled base study in which hypercholesterolemic patients were randomized to receive EZE 10 mg/d or PBO in addition to their current statin for 8 weeks. Patients who successfully completed the base study could enter the extension study if they were willing to switch from their current statin to an approximately equipotent dose of SIMVA for the 54-week study period. After a 6-week open-label SIMVA run-in phase, patients were rerandomized to receive EZE 10 mg/d or PBO in a 4:1 ratio, respectively, for 48 weeks. At each clinic visit, beginning at week 12, the dose of SIMVA was titrated upward until patients reached their National Cholesterol Education Program Adult Treatment Panel II LDL-C goal or the maximum SIMVA dose of 80 mg/d. Safety/tolerability and lipid efficacy parameters were assessed at 12-week intervals. RESULTS: Of 433 patients entering the extension study, 355 were randomized to receive EZE and 78 were randomized to receive PBO. Baseline demographic characteristics and lipid levels were similar between treatment groups. Overall, coadministration of EZE + SIMVA was well tolerated. There were no clinically meaningful differences between the EZE and PBO groups with regard to the incidence of treatment-related adverse events (AEs) (19% vs 17%, respectively), discontinuations due to AEs (7% vs 10%), serious AEs (12% vs 17%), consecutive elevations in liver function tests > or =3 times the upper limit of normal (ULN) (0.3% vs 0%), or elevations in creatine kinase > or =10 times the ULN (both, 0%). As in the base study, LDL-C levels were significantly lower with the addition of EZE to SIMVA compared with the addition of PBO (-24% vs 3%; P < 0.001). CONCLUSION: In these patients with primary hypercholesterolemia, EZE 10 mg/d added to ongoing SIMVA treatment for 48 weeks had a favorable safety and tolerability profile and was more efficacious than SIMVA monotherapy.