Which aspect of movement does improved cortical inhibition primarily influence?

Improved cortical inhibition primarily influences the precision of movement. This is because cortical inhibition plays a crucial role in fine-tuning motor commands and coordinating the activity of muscles during movement. When cortical inhibition is enhanced, it helps to filter out extraneous neural signals, allowing for more focused activation of the muscles involved in a specific task. This process leads to more accurate and controlled movements, as the nervous system is better able to prevent unwanted contractions or movements that could disrupt the desired action.

In the context of stroke rehabilitation, focusing on improving cortical inhibition can be vital in restoring a patient's ability to perform precise movements. While other aspects like reaction times, speed, and strength of muscles are important, they are less directly influenced by cortical inhibition compared to the precision of motor tasks. Therefore, enhancing this aspect can lead to better functional outcomes in individuals undergoing rehabilitation after neurological impairments.