Peripheral Artery Disease Clinical Trial
Official title:
Metformin, Muscle Energetics, and Vascular Function in Older Adults With Peripheral Artery Disease
The investigators are doing this research study to find out if taking Metformin improves
walking ability in patients with peripheral arterial disease (PAD). In PAD the arteries
(blood vessels) in the legs are narrowed because of the build up of plaque. The leg muscle
can hurt in patients with PAD and this is usually described as a cramp or tiredness. This
pain is called intermittent claudication. Metformin is an FDA approved medication for the
treatment of diabetes. The investigators believe that Metformin may help your leg muscles
work better.
The investigators will enroll up to 100 subjects in order to find 60 subjects with PAD at
Brigham and Women's Hospital (BWH).
Peripheral artery disease (PAD) is a manifestation of atherosclerosis that affects more than 7 million adults in the US. The prevalence of PAD increases with age and is estimated to be 15 20% among individuals 65 years of age and older. Patients with PAD have limited functional capacity; they walk more slowly and have less walking endurance than persons who do not have PAD, irrespective of whether they have classic symptoms of intermittent claudication or critical limb ischemia. This functional impairment adversely affects quality of life. Although flow limitation due to atherosclerotic stenosis is necessary for the development of symptoms in PAD, the lack of correlation between walking capacity and the degree of hemodynamic compromise raises the possibility that alternative mechanisms contribute to functional limitations in these patients. Putative mechanisms include inadequate skeletal muscle glucose uptake, altered skeletal muscle energetics, and impaired vasomotor tone and nutrient delivery mediated by endothelial dysfunction. Metformin, via AMPactivated protein kinase (AMPK)-dependent and independent mechanisms, can favorably affect skeletal muscle metabolic functions including glucose uptake, fatty acid oxidation, mitochondrial function, and consequently cellular energetics, and it also may have a direct salutary effect on vascular function via regulation of nitric oxide synthase. It is intriguing, therefore, to consider the possibility that metformin would improve skeletal muscle metabolic and vascular function in older patients with PAD and translate into functional benefits. Accordingly, the investigators seek to elucidate molecular mechanisms through which metformin affects skeletal muscle energetics and hypothesize that metformin will lead to advantageous metabolic, vascular, and physical functional changes in older patients with PAD. ;
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