How the brain stores motion information and subsequently uses it to follow a moving target is largely unknown. This is mainly due to previous fMRI studies using paradigms in which the eye movements cannot be segregated from the storage of this motion information. To avoid this problem we used a novel paradigm designed in our lab in which we interlaced a delay (2, 4 or 6 seconds) between the 1(st) and 2(nd) presentation of a moving stimulus. Using this design we could examine brain activity during a delay period using fMRI and have subsequently found a number of brain areas that reveal sustained activity during predictive pursuit. These areas include, the V5 complex and superior parietal lobe. This study provides new evidence for the network...
Animals often make anticipatory movements to compensate for slow reaction times. Anticipatory moveme...
This paper addresses the functional anatomy of movement representation. We have used associative vis...
The ability to predict upcoming events is important to compensate for relatively long sensory-motor ...
How the brain stores motion information and subsequently uses it to follow a moving target is largel...
How the brain stores motion information and subsequently uses it to follow a moving target is largel...
Behavioral and neuropsychological research suggests that delayed actions rely on different neural su...
Flexible goal-oriented behavior relies on spatial coordinate transformations and motor control mecha...
Behavioral and neuropsychological research suggests that delayed actions rely on different neural su...
Flexible goal-oriented behavior requires the ability to carry information across temporal delays. Th...
Item does not contain fulltextNeurovascular correlates of response preparation have been investigate...
Contains fulltext : 55812.pdf (publisher's version ) (Closed access)Flexible goal-...
Flexible goal-oriented behavior relies on spatial coordinate transformations and motor control mecha...
Neurovascular correlates of response preparation have been investigated in human neuroimaging studie...
Neurovascular correlates of response preparation have been investigated in human neuroimaging studie...
The ability to predict upcoming events is important to compensate for relatively long sensory-motor ...
Animals often make anticipatory movements to compensate for slow reaction times. Anticipatory moveme...
This paper addresses the functional anatomy of movement representation. We have used associative vis...
The ability to predict upcoming events is important to compensate for relatively long sensory-motor ...
How the brain stores motion information and subsequently uses it to follow a moving target is largel...
How the brain stores motion information and subsequently uses it to follow a moving target is largel...
Behavioral and neuropsychological research suggests that delayed actions rely on different neural su...
Flexible goal-oriented behavior relies on spatial coordinate transformations and motor control mecha...
Behavioral and neuropsychological research suggests that delayed actions rely on different neural su...
Flexible goal-oriented behavior requires the ability to carry information across temporal delays. Th...
Item does not contain fulltextNeurovascular correlates of response preparation have been investigate...
Contains fulltext : 55812.pdf (publisher's version ) (Closed access)Flexible goal-...
Flexible goal-oriented behavior relies on spatial coordinate transformations and motor control mecha...
Neurovascular correlates of response preparation have been investigated in human neuroimaging studie...
Neurovascular correlates of response preparation have been investigated in human neuroimaging studie...
The ability to predict upcoming events is important to compensate for relatively long sensory-motor ...
Animals often make anticipatory movements to compensate for slow reaction times. Anticipatory moveme...
This paper addresses the functional anatomy of movement representation. We have used associative vis...
The ability to predict upcoming events is important to compensate for relatively long sensory-motor ...