Recent developments in human neuroimaging make it possible to non-invasively measure neural activity from different cortical layers. This can potentially reveal not only which brain areas are engaged by a task, but also how. Specifically, bottom-up and top-down responses are associated with distinct laminar profiles. Here, we measured lamina-resolved fMRI responses during a visual task designed to induce concurrent bottom-up and top-down modulations via orthogonal manipulations of stimulus contrast and feature-based attention. BOLD responses were modulated by both stimulus contrast (bottom-up) and by engaging feature-based attention (top-down). Crucially, these effects operated at different cortical depths: Bottom-up modulations were strong...
The human primary visual cortex (V1) is not only activated by incoming visual information but is als...
Functional magnetic resonance imaging (fMRI) studies have identi-fied category-selective regions in ...
Laminar fMRI using the BOLD contrast enables the non-invasive investigation of mesoscopic functional...
Recent developments in human neuroimaging make it possible to non-invasively measure neural activity...
Item does not contain fulltextRecent developments in human neuroimaging make it possible to non-inva...
High resolution laminar fMRI is beginning to probe responses in the different layers of cortex. What...
Directing spatial attention towards a particular stimulus enhances cortical responses at correspondi...
Recent work has established that cerebral blood flow is regulated at a spatial scale that can be res...
<div><p>Recent work has established that cerebral blood flow is regulated at a spatial scale that ca...
We employed cutting-edge high-resolution functional magnetic resonance imaging (fMRI) at sub-millime...
Electrophysiological recordings in animals have indicated that visual cortex γ-band oscillatory acti...
Deciphering the direction of information flow is critical to understand the brain. Data from non-hum...
Laminar fMRI holds the potential to study connectivity at the laminar level in humans. Here we analy...
Deciphering the direction of information flow is critical to understand the brain. Data from non-hum...
The human primary visual cortex (V1) is not only activated by incoming visual information but is als...
Functional magnetic resonance imaging (fMRI) studies have identi-fied category-selective regions in ...
Laminar fMRI using the BOLD contrast enables the non-invasive investigation of mesoscopic functional...
Recent developments in human neuroimaging make it possible to non-invasively measure neural activity...
Item does not contain fulltextRecent developments in human neuroimaging make it possible to non-inva...
High resolution laminar fMRI is beginning to probe responses in the different layers of cortex. What...
Directing spatial attention towards a particular stimulus enhances cortical responses at correspondi...
Recent work has established that cerebral blood flow is regulated at a spatial scale that can be res...
<div><p>Recent work has established that cerebral blood flow is regulated at a spatial scale that ca...
We employed cutting-edge high-resolution functional magnetic resonance imaging (fMRI) at sub-millime...
Electrophysiological recordings in animals have indicated that visual cortex γ-band oscillatory acti...
Deciphering the direction of information flow is critical to understand the brain. Data from non-hum...
Laminar fMRI holds the potential to study connectivity at the laminar level in humans. Here we analy...
Deciphering the direction of information flow is critical to understand the brain. Data from non-hum...
The human primary visual cortex (V1) is not only activated by incoming visual information but is als...
Functional magnetic resonance imaging (fMRI) studies have identi-fied category-selective regions in ...
Laminar fMRI using the BOLD contrast enables the non-invasive investigation of mesoscopic functional...