CI

At a glance

ClinicalIndex Comparison Record
N/ACompleted· 21 enrolled
Drug / intervention
Aerobic Exercise Trainingother
Likely dose
Not stated in record
Structured eligibility isn't available for this trial yet — see the full criteria in the Eligibility tab below.

Standardized by ClinicalIndex from the ClinicalTrials.gov record · verify against the source.

Search/NCT03800342
NCT03800342N/ACompleted

Recovery, Fatigability, and Proteomic Response to Aerobic Exercise Training in Healthy Individuals

George Mason University·interventional·Posted Jan 11, 2019·Updated May 16, 2019

In Brief

A clinical study evaluating Aerobic Exercise Training for Adult and Fatigue. Completed, enrolled 21 participants across 1 site.

Detailed Summary

The purpose of this protocol is to investigate the role of expired non-metabolic carbon dioxide in the relationship between fatigability and recovery and the response to aerobic exercise training in healthy individuals. Both fatigability and recovery are profoundly influenced by mitochondrial energetics which can be inhibited by ionic by-product accumulation during exercise. Buffering mechanisms of these fatigue-inducing ions releases non-metabolic carbon dioxide (CO2) that can be measured as expired CO2 (VCO2) during cardiopulmonary exercise testing (CPET), however the role of non-metabolic VCO2 in the relationship between fatigability and recovery has yet to be investigated. Furthermore, this study aims to identify the how the patterns of proteins in healthy individuals respond to aerobic exercise training (e.g. stationary cycling) over approximately one month. The underlying mechanisms of recovery after physical activity, including mechanisms or biological pathways that could be highlighted by analysis of proteins in urine, could add to scientific knowledge regarding physical activity tolerance and potential exercise interventions. This knowledge could eventually assist with designing precise and personalized exercise interventions to improve physical activity performance. The investigators hypothesize that 1) non-metabolic CO2 will be at least moderately associated with the inverse relationship between fatigability and recovery; and 2) highly active adults, compared to sedentary individuals, will exhibit differential proteomic patterns in response to an initial acute bout and subsequent repeated bouts of aerobic exercise.

Study Details

Study Typeinterventional
Allocation--
Masking--
Primary Purpose--
ConditionsAdult, Fatigue
CountriesUnited States
Collaborators--

Timeline

N/ACompletedFinished
20192020202120222023202420252026
First PostedJan 11, 2019
Enrollment StartJan 22, 2019
Primary CompletionApr 24, 2019
TodayJul 2, 2026
Enrollment to primary: 3 monthsPosted 7.5 years ago

Interventions

Aerobic Exercise Trainingother

see arm/group description