Low-level intermittent quadriceps activity during transcranial direct current stimulation facilitates knee extensor force-generating capacity

- We tested the interference between motor practice and anodal tDCS on MVIC torque.
- Knee extensor torque improved significantly when tDCS was paired with a motor task.
- The increase in knee extensor MVIC torque was gradual and intensified with time.
- This effect was isolated to the muscle group that was trained during tDCS.
- These results offer new possibilities for tDCS-supplemented resistance training.

Anodal transcranial direct current stimulation (tDCS) is known to increase the force-generating capacity of the skeletal muscles. However, when tDCS is concurrently combined with a motor task, interference may occur that hinders tDCS effects. Here, we tested the interaction and time course of tDCS effects on force production when paired with a low-level force-matching task. Twenty-two subjects were randomized into two groups: tDCS-Matching and tDCS-Resting. Each group received tDCS and a sham stimulation, separated by one week. Maximal knee extensor and flexor torques were measured before and up to twenty-five minutes following the stimulation. The tDCS-Matching group produced greater knee extension torques relative to sham when compared with the tDCS-Resting group. There was no significant effect for knee flexion. This suggests that interference does not occur for force production tasks when tDCS is combined with a motor task. Rather, the task appears to aid and isolate the effects to the muscle groups involved in the task.