During motor adaptation the discrepancy between predicted and actually perceived sensory feedback is thought to be minimized, but it can be difficult to measure predictions of the sensory consequences of actions. Studies attempting to do so have found that self-directed, unseen hand position is mislocalized in the direction of altered visual feedback. However, our lab has shown that motor adaptation also leads to changes in perceptual estimates of hand position, even when the target hand is passively displaced. We attribute these changes to a recalibration of hand proprioception, since in the absence of a volitional movement, efferent or predictive signals are likely not involved. The goal here is to quantify the extent to which changes in ...
Skilled motor behaviour relies on the brain learning both to control the body and predict the conseq...
The internal models of our body dimensions are prone to bias, but little evidence exists to explain ...
We examined whether visual and proprioceptive estimates of transient (mid-reach) target capture erro...
An accurate estimate of limb position is necessary for movement planning, before and after motor le...
Awareness of task demands is often used during rehabilitation and sports training by providing instr...
Awareness of task demands is often used during rehabilitation and sports training by providing instr...
Adapting reaches to altered visual feedback not only leads to motor changes, but also to shifts in p...
We describe experiments that test the hypothesis that changes in somatosensory function accompany mo...
Although proprioceptive information allows accurate perception of limb movement in the absence of v...
Current theories suggest that the ability to control the body and to predict its associated sensory ...
Training to reach with rotated visual feedback results in adaptation of hand movements, which persis...
Knowing ones limb location is crucial in order to produce efficient movements. When a movement error...
When subjects are presented with distorted visual feedback of their hand during a goal-directed move...
One generally has the impression that one feels one's hand at the same location as one sees it. Howe...
© 2019, Springer-Verlag GmbH Germany, part of Springer Nature. Previous work has shown that motor le...
Skilled motor behaviour relies on the brain learning both to control the body and predict the conseq...
The internal models of our body dimensions are prone to bias, but little evidence exists to explain ...
We examined whether visual and proprioceptive estimates of transient (mid-reach) target capture erro...
An accurate estimate of limb position is necessary for movement planning, before and after motor le...
Awareness of task demands is often used during rehabilitation and sports training by providing instr...
Awareness of task demands is often used during rehabilitation and sports training by providing instr...
Adapting reaches to altered visual feedback not only leads to motor changes, but also to shifts in p...
We describe experiments that test the hypothesis that changes in somatosensory function accompany mo...
Although proprioceptive information allows accurate perception of limb movement in the absence of v...
Current theories suggest that the ability to control the body and to predict its associated sensory ...
Training to reach with rotated visual feedback results in adaptation of hand movements, which persis...
Knowing ones limb location is crucial in order to produce efficient movements. When a movement error...
When subjects are presented with distorted visual feedback of their hand during a goal-directed move...
One generally has the impression that one feels one's hand at the same location as one sees it. Howe...
© 2019, Springer-Verlag GmbH Germany, part of Springer Nature. Previous work has shown that motor le...
Skilled motor behaviour relies on the brain learning both to control the body and predict the conseq...
The internal models of our body dimensions are prone to bias, but little evidence exists to explain ...
We examined whether visual and proprioceptive estimates of transient (mid-reach) target capture erro...