The specific contents of human consciousness rely on the activity of specialized neurons in cerebral cortex. We hypothesized that the conscious experience of a specific visual motion axis is reflected in response amplitudes of direction-selective clusters in the human motion complex. Using submillimeter fMRI at ultrahigh field (7 T) we identified fine-grained clusters that were tuned to either horizontal or vertical motion presented in an unambiguous motion display. We then recorded their responses while human observers reported the perceived axis of motion for an ambiguous apparent motion display. Although retinal stimulation remained constant, subjects reported recurring changes between horizontal and vertical motion percepts every 7 to 1...
SummaryFunctional neuroimaging has successfully identified brain areas that show greater responses t...
The relationship between brain activity and conscious visual experience is central to our understand...
To investigate form-related activity in motion-sensitive cortical areas, we recorded cell responses ...
The specific contents of human consciousness rely on the activity of specialized neurons in cerebral...
International audiencePerception of biological motions plays a major adaptive role in identifying, i...
It has long been assumed that the human brain contains dedicated machinery for processing biological...
& These experiments use functional magnetic resonance imaging (fMRI) to reveal neural activity u...
The processing of motion in the primate brain is distributed across multiple regions of the cerebral...
To investigate form-related activity inmotion-sensitive cortical areas, we recorded cell responses t...
To investigate form-related activity inmotion-sensitive cortical areas, we recorded cell responses t...
To investigate form-related activity in motion-sensitive cortical areas, we recorded cell responses ...
It has been proposed that we make sense of the movements of others by observing fluctuations in the ...
SummaryA common view about visual consciousness is that it could arise when and where activity reach...
The relationship between brain activity and conscious visual experience is central to our understand...
AbstractWe used functional magnetic resonance imaging (fMRI) to investigate brain regions involved i...
SummaryFunctional neuroimaging has successfully identified brain areas that show greater responses t...
The relationship between brain activity and conscious visual experience is central to our understand...
To investigate form-related activity in motion-sensitive cortical areas, we recorded cell responses ...
The specific contents of human consciousness rely on the activity of specialized neurons in cerebral...
International audiencePerception of biological motions plays a major adaptive role in identifying, i...
It has long been assumed that the human brain contains dedicated machinery for processing biological...
& These experiments use functional magnetic resonance imaging (fMRI) to reveal neural activity u...
The processing of motion in the primate brain is distributed across multiple regions of the cerebral...
To investigate form-related activity inmotion-sensitive cortical areas, we recorded cell responses t...
To investigate form-related activity inmotion-sensitive cortical areas, we recorded cell responses t...
To investigate form-related activity in motion-sensitive cortical areas, we recorded cell responses ...
It has been proposed that we make sense of the movements of others by observing fluctuations in the ...
SummaryA common view about visual consciousness is that it could arise when and where activity reach...
The relationship between brain activity and conscious visual experience is central to our understand...
AbstractWe used functional magnetic resonance imaging (fMRI) to investigate brain regions involved i...
SummaryFunctional neuroimaging has successfully identified brain areas that show greater responses t...
The relationship between brain activity and conscious visual experience is central to our understand...
To investigate form-related activity in motion-sensitive cortical areas, we recorded cell responses ...