Determining the role of muscle afferent signals in cortical proprioceptive representation

Northwestern University At Chicago
Blum, Kyle

While it is known that proprioception plays an important role in movement, how the brain translates proprioceptive information into information for movement in the somatosensory cortex (S1) is poorly understood. Dr. Blum aims to study how active and passive movements of limbs elicit different responses from muscle spindles and Golgi tendon organs, especially as reflected in area 3a of S1. Using electrophysiological data, arm kinematic measurements, and EMGs in monkeys trained to perform an arm-reaching task, this research aims to model afferent proprioceptive signals and motor outputs in a neural network model. These results will improve our understand of the neural control of movement.

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