The neuronal substrate underlying the learning of a sophisticated task has been difficult to
study. However, the advent of a behavioral paradigm that deceives the saccadic system into …

Sensorimotor transformations require spatiotemporal coordination of signals, that is, through
both time and space. For example, the gaze control system employs signals that are time …

The midbrain superior colliculus is a crucial sensorimotor stage for programming and
generating saccadic eye-head gaze shifts. Although it is well established that superior …

The cerebellar vermis (lobules VI-VII) has been implicated in both postmortem and
neuroimaging studies of autism spectrum disorders (ASD). This region maintains the …

When movements become dysmetric, the resultant motor error induces a plastic change in
the cerebellum to correct the movement, ie, motor adaptation. Current evidence suggests …

The nature and function of perisaccadic receptive field (RF) remapping have been
controversial. We use a delayed saccade task to reduce previous confounds and examine …

How does the nervous system guide the muscular periphery during the acquisition of a new
motor skill? This is a fundamental question for researchers trying to understand the neural …

How visual space is represented in the brain is an open question in neuroscience.
Embodiment theories propose that spatial perception is structured by neural motor maps …

Sensorimotor learning adapts motor output to maintain movement accuracy. For saccadic
eye movements, learning also alters space perception, suggesting a dissociation between …

As you read this text, your eyes make saccades that guide your fovea from one word to the
next. Accuracy of these movements require the brain to monitor and learn from visual errors …