Ignite Creation Date:
2025-12-24 @ 3:55 PM
Ignite Modification Date:
2025-12-27 @ 4:14 PM
Study NCT ID:
NCT01025492
Status:
TERMINATED
Last Update Posted:
2016-09-01
First Post:
2009-12-01
Is NOT Gene Therapy:
True
Has Adverse Events:
True
Brief Title:
Study of Trilipix Effects on Lipids and Arteries
Sponsor:
University of Utah
Organization:
Study Overview
Official Title:
Mechanisms of Atheroprotection by Fenofibric Acid (ABT 335) Added to a Statin in Subjects With Insulin Resistance (Hypertriglyceridemia and Low HDL-C)
Status:
TERMINATED
Status Verified Date:
2016-07
Last Known Status:
None
Delayed Posting:
No
If Stopped, Why?:
Collaborator/corporate sponsor withdrew funding and permission to continue.
Has Expanded Access:
False
If Expanded Access, NCT#:
N/A
Has Expanded Access, NCT# Status:
N/A
Acronym:
None
Brief Summary:
Fibrates reduce atherosclerosis and cardiovascular disease events. A major mechanism of this benefit appears to be their ability to raise plasma high density lipoprotein cholesterol (HDL-C), especially in patients with high triglyceride levels. This study will investigate the effects of the addition of Trilipix (fenofibric acid) versus placebo to ongoing statin treatment on high density lipoprotein (HDL) composition and arterial function in subjects with insulin resistance.
Detailed Description:
The field of lipid treatment for atheroprevention, and of HDL-raising in particular, was shaken by the unexpected finding of a net adverse clinical effect of torcetrapib, a Cholesteryl ester transfer protein (CETP) inhibitor with HDL-raising effects far more dramatic than that of niacin or fenofibrate.
Trilipix (ABT 335, choline fenofibrate, or fenofibric acid) is approved by the FDA (12/2008) for treatment of dyslipidemia and may act as a new fibrate for treatment of dyslipidemia and atheroprevention. It is the first fibrate with sufficient evidence for safety in combination use with a statin to receive an FDA indication for that combination use. Thus, there is minimal safety risk to prospective research subjects, who in any case will have the very dyslipidemia for which this combination is approved and recommended. With the ongoing development of this agent through a time of great scientific controversy regarding torcetrapib and HDL, it is urgent to explore the HDL-related mechanisms by which Trilipix may be atheroprotective, with special attention to changes in HDL composition and function.
Novel methods have been developed for measuring HDL composition and function and have been added to state-of-the-art technologies to assemble the uniquely comprehensive panel of HDL parameters in this study. Such methods can now be employed in exploring potentially beneficial effects of promising HDL-active agents such as Trilipix. In addition, improvements in HDL with fibrates appear to be related to other favorable lipoprotein changes, such as reduced remnant levels and increased LDL particle size, and these likely help explain arterial benefits with these agents.
The recent advent and validation of many non-invasive methods for measuring arterial function allows characterization of arterial effects of lipid agents in a time- and cost-effective way, alternative to standard event-driven trials. This study offers a uniquely comprehensive panel of these arterial parameters in order to characterize the likely atheropreventive effects of Trilipix.
This study will investigate changes in both panels of endpoints (state-of-the-art measures of HDL and related lipoproteins, and of arterial function) with Trilipix, which will more clearly and broadly define the benefits of this agent than has been done for any other lipid therapy. In addition, analyses of the intercorrelations of the changes among these several parameters should strongly suggest mechanisms of atheropreventive benefits of Trilipix.
Finally, with regard to subject selection, most patients with insulin resistance are at high risk for atherosclerosis, even those without concurrent diabetes mellitus. Importantly, favorable effects of fibrates are most pronounced in patients with insulin resistance, whether manifested traditionally by central obesity, adiposity, glucose and insulin abnormalities. Beta-cell dysfunction, generally seen in conjunction with insulin resistance, might also predict benefit with fibrate therapy. Body composition (as adiposity or central obesity) is a strong correlate of these abnormalities and will be measured during the study. Already at present, and more so in the future, the standard of care for insulin resistant patients will be statin monotherapy. In addition, however, fibrates are being increasingly advocated as adjunctive therapy for patients with residual abnormalities of triglyceride and HDL-C after statin monotherapy. Thus, the best way to assess the likely benefits of Trilipix in the usual clinical practice setting is to do so against a background of stable statin therapy.
Trilipix (ABT 335, choline fenofibrate, or fenofibric acid) is approved by the FDA (12/2008) for treatment of dyslipidemia and may act as a new fibrate for treatment of dyslipidemia and atheroprevention. It is the first fibrate with sufficient evidence for safety in combination use with a statin to receive an FDA indication for that combination use. Thus, there is minimal safety risk to prospective research subjects, who in any case will have the very dyslipidemia for which this combination is approved and recommended. With the ongoing development of this agent through a time of great scientific controversy regarding torcetrapib and HDL, it is urgent to explore the HDL-related mechanisms by which Trilipix may be atheroprotective, with special attention to changes in HDL composition and function.
Novel methods have been developed for measuring HDL composition and function and have been added to state-of-the-art technologies to assemble the uniquely comprehensive panel of HDL parameters in this study. Such methods can now be employed in exploring potentially beneficial effects of promising HDL-active agents such as Trilipix. In addition, improvements in HDL with fibrates appear to be related to other favorable lipoprotein changes, such as reduced remnant levels and increased LDL particle size, and these likely help explain arterial benefits with these agents.
The recent advent and validation of many non-invasive methods for measuring arterial function allows characterization of arterial effects of lipid agents in a time- and cost-effective way, alternative to standard event-driven trials. This study offers a uniquely comprehensive panel of these arterial parameters in order to characterize the likely atheropreventive effects of Trilipix.
This study will investigate changes in both panels of endpoints (state-of-the-art measures of HDL and related lipoproteins, and of arterial function) with Trilipix, which will more clearly and broadly define the benefits of this agent than has been done for any other lipid therapy. In addition, analyses of the intercorrelations of the changes among these several parameters should strongly suggest mechanisms of atheropreventive benefits of Trilipix.
Finally, with regard to subject selection, most patients with insulin resistance are at high risk for atherosclerosis, even those without concurrent diabetes mellitus. Importantly, favorable effects of fibrates are most pronounced in patients with insulin resistance, whether manifested traditionally by central obesity, adiposity, glucose and insulin abnormalities. Beta-cell dysfunction, generally seen in conjunction with insulin resistance, might also predict benefit with fibrate therapy. Body composition (as adiposity or central obesity) is a strong correlate of these abnormalities and will be measured during the study. Already at present, and more so in the future, the standard of care for insulin resistant patients will be statin monotherapy. In addition, however, fibrates are being increasingly advocated as adjunctive therapy for patients with residual abnormalities of triglyceride and HDL-C after statin monotherapy. Thus, the best way to assess the likely benefits of Trilipix in the usual clinical practice setting is to do so against a background of stable statin therapy.
Study Oversight
Has Oversight DMC:
False
Is a FDA Regulated Drug?:
None
Is a FDA Regulated Device?:
None
Is an Unapproved Device?:
None
Is a PPSD?:
None
Is a US Export?:
None
Is an FDA AA801 Violation?: