Metabolic Syndrome Clinical Trial
Official title:
The Impact of Reducing Inflammation on Vascular Function in the Metabolic Syndrome
The purpose of the study is to test whether salsalate,an aspirin-like drug, can improve
blood vessel function by reducing inflammation caused by insulin resistance, making the
development of blockages less common.
We also want to see if salsalate will
1. Change the way blood vessels expand and/or
2. Improve the ability of cells to use blood sugar for energy.
To test the hypothesis that reductions in intracellular inflammation will restore
insulin-mediated and endothelium-dependent vasodilation in subjects with the metabolic
syndrome.
Recent demographic trends indicate a dramatic growth in the incidence of obesity and insulin
resistance in the United States, highlighting a population at increased risk for the
complications of atherosclerosis. The metabolic syndrome, identified as through a collection
of risk factors, is associated with increases in adiposity and insulin resistance. Insulin
resistance, typically characterized by impaired skeletal muscle glucose uptake, affects
tissues other than skeletal muscle, including liver, adipose, and blood vessels. In
experimental animal models and humans with insulin resistance, disturbances in insulin
signaling consistently lead to decreased bioavailability of endothelium-derived nitric oxide
and impaired endothelium-dependent vasodilation. The impact of abnormal insulin signaling on
vascular endothelium has not been well characterized in humans in vivo.
Basic studies suggest that insulin receptor medicated activation of the PI 3-kinase pathway
is important for normal endothelial nitric oxide synthase function. Abnormalities
demonstrated in the metabolic syndrome alter signaling at multiple sites within this
pathway, particularly phosphorylation of the serine residue of the insulin receptor
substrate. Excess free fatty acid liberation by adipose tissue impairs insulin signaling and
activates protein kinase C beta and Inhibitor kappa B kinase beta. Each of these
pathobiological disturbances, including excess FFA, heightened PKC-beta activation, and
increased inflammatory transcription factor activation serine phosphorylate IRS, cause
endothelial dysfunction in humans, and are potential therapeutic targets. Data defining the
pathophysiology of endothelial insulin resistance and the importance of these candidate
mechanisms in patients is lacking.
The applicants will determine whether inhibition of IKKbeta by salsalate improves
endothelium-dependent vasodilation as a consequence of restored endothelial insulin
signaling and serine 1177 phosphorylation of eNOS in patients with metabolic syndrome.
;
Allocation: Randomized, Intervention Model: Crossover Assignment, Masking: Double Blind (Subject, Caregiver, Investigator, Outcomes Assessor), Primary Purpose: Basic Science
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