Who is sponsoring NCT04263714?

NCT04263714 is sponsored by McMaster University.

What condition does NCT04263714 study?

NCT04263714 studies Skeletal Muscle Protein Synthesis.

What is the status of NCT04263714?

NCT04263714 is currently COMPLETED.

Last reviewed 2024-11-21 · How we verify

Effect of Exercise on the Human Skeletal Muscle Phosphoproteome

NCT04263714 NA COMPLETED Results posted

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.

Details

Lead sponsor	McMaster University
Phase	NA
Status	COMPLETED
Enrolment	16
Start date	Wed Apr 01 2020 00:00:00 GMT+0000 (Coordinated Universal Time)
Completion	Wed May 01 2024 00:00:00 GMT+0000 (Coordinated Universal Time)

Conditions

Skeletal Muscle Protein Synthesis

Interventions

Exercise

Countries

Canada