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What Can Neuroimaging Reveal About the Dynamics of Motor Control in Action?

Neuroimaging techniques like fMRI and PET help us see how the brain works when we move. These methods show which parts of the brain become active during different movements. Here are some interesting facts:

  • Around 25% of the main area in the brain for movement, known as the primary motor cortex (M1), is focused on hand movements.

  • Analyzing how different brain parts connect shows that another area, called the supplementary motor area (SMA), is involved in about 70% of more complicated motor tasks.

  • Research has found that when we learn new movements, there’s a 30% increase in activity in an area called the basal ganglia.

This information helps us understand how our brains control our bodies when we move, especially our hands.

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What Can Neuroimaging Reveal About the Dynamics of Motor Control in Action?

Neuroimaging techniques like fMRI and PET help us see how the brain works when we move. These methods show which parts of the brain become active during different movements. Here are some interesting facts:

  • Around 25% of the main area in the brain for movement, known as the primary motor cortex (M1), is focused on hand movements.

  • Analyzing how different brain parts connect shows that another area, called the supplementary motor area (SMA), is involved in about 70% of more complicated motor tasks.

  • Research has found that when we learn new movements, there’s a 30% increase in activity in an area called the basal ganglia.

This information helps us understand how our brains control our bodies when we move, especially our hands.

Related articles