CI

At a glance

ClinicalIndex Comparison Record
N/ACompleted· 16 enrolled
Drug / intervention
Exercisebehavioral
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/NCT04263714
NCT04263714N/ACompleted

Effect of Exercise on the Human Skeletal Muscle Phosphoproteome

McMaster University·interventional·Posted Feb 11, 2020·Updated Nov 21, 2024

In Brief

A clinical study evaluating Exercise for Skeletal Muscle Protein Synthesis. Completed, enrolled 16 participants across 1 site.

Detailed Summary

Generally, resistance exercise increases muscle mass and strength, and fatigue resistance. How resistance exercise achieves these adaptations remains understudied, but what is known is that skeletal muscle translates the physical and biochemical stresses of resistance exercise into morphological and metabolic adaptations. While resistance exercise activates signaling pathways (i.e., proteins) that increase the synthesis of specific proteins to cause adaptations, thousands of proteins are likely involved, and their interactions are complicated. The investigators aim to study these processes.

Study Details

Study Typeinterventional
Allocation--
Masking--
Primary Purpose--
CountriesCanada
Collaborators--

Timeline

N/ACompletedFinished
2020202120222023202420252026
First PostedFeb 11, 2020
Enrollment StartApr 1, 2020
Primary CompletionJul 1, 2023
Study CompletionMay 1, 2024
TodayJul 2, 2026
Enrollment to primary: 3.3 yearsPosted 6.4 years ago

Interventions

Exercisebehavioral

Aerobic exercise and resistance exercise