Trials / Completed

CompletedNCT01059994

Role of Skeletal Muscle Nitric Oxide Production in Age-related Fatigue and Fatigability

Summary

This is a pilot study funded by the National Institutes of Health. In this project, we will investigate the potential effect of skeletal muscle nitric oxide (NO) production on muscle strength and physical function in older individuals. We propose to test a new method that may enable simultaneous determination of both vascular and skeletal muscle NO production for the first time in humans. Further, we will determine whether augmentation of NO-mediated responses, by administration of sildenafil citrate (Viagra), reduces fatigue and fatigability in older individuals.

Detailed description

Fatigue is highly prevalent and associated with future mortality in older individuals. Even in non-disabled older persons, fatigue may be the primary reason for activity limitation. However, understanding the etiology of fatigue in this population has been hampered by differing or imprecise definitions of fatigue. As a result, the term fatigue has been proposed to refer to the subjective experience of tiredness or lack of energy, whereas the term fatigability should refer to the susceptibility to fatigue induced by activity of any kind (mental, physical, etc). Skeletal muscle activity can contribute to the perception of overall fatigue as well as produce a type of localized fatigue within skeletal muscle. Skeletal muscle fatigue is defined as a decline in skeletal muscle performance resulting from muscle activity. We hypothesize that skeletal muscle NO-mediated responses are reduced with aging due to decreased skeletal muscle NO production. NO is well-known to elicit vasodilation through stimulation of cGMP signaling, and NO-mediated changes in muscle perfusion may influence both skeletal muscle and overall fatigue. To measure skeletal muscle NO production, we will infuse a stable isotope tracer of arginine, the precursor of NO, and measure its conversion across the leg and in skeletal muscle to citrulline (which is another product of the reaction that produces NO). If successful, this method will allow the study of relative changes in vascular and muscle NO production that occur with aging and other conditions (e.g., hypertension, Duchenne muscular dystrophy). We will also determine whether age-related differences in muscle perfusion and NO-cGMP signaling exist between younger and older groups. As impaired redox homeostasis and ryanodine receptor S-nitrosylation and phosphorylation have been implicated in skeletal muscle fatigue, we will assess skeletal muscle redox homeostasis and ryanodine receptor S-nitrosylation in these experiments. We hypothesize that aging will shift muscle redox homeostasis to a more oxidized state.

Conditions

• Fatigue
• Aging

Interventions

Timeline

Start date

2010-01-01

Primary completion

2013-07-01

Completion

2013-07-01

First posted

2010-02-01

Last updated

2019-02-11

Results posted

2015-12-23

Locations

1 site across 1 country: United States

Source: ClinicalTrials.gov record NCT01059994. Inclusion in this directory is not an endorsement.