The mesoscopic organization of the human neocortex is of great interest for cognitive neuroscience. However, fMRI in humans typically maps the functional units of cognitive processing on a macroscopic level. With the advent of ultra-high field MRI (>= 7T), it has become possible to acquire fMRI data with sub-millimetre resolution, enabling probing the laminar and columnar circuitry in humans. Currently, laminar BOLD responses are not directly observed but inferred via data analysis, due to coarse spatial resolution of fMRI (e.g. 0.7-0.8 mm isotropic) relative to the extent of histological laminae. In this study, we introduce a novel approach for mapping the cortical BOLD response at the spatial scale of cortical layers and columns at 7T (an...
Recent developments in ultra high field MRI and receiver coil technology have opened up the possibil...
Deciphering the direction of information flow is critical to understand the brain. Data from non-hum...
Deciphering the direction of information flow is critical to understand the brain. Data from non-hum...
The mesoscopic organization of the human neocortex is of great interest for cognitive neuroscience. ...
Magnetic resonance imaging (MRI) is a popular technique to map the structure and function of the hum...
Magnetic resonance imaging (MRI) is a popular technique to map the structure and function of the hum...
Laboratory animal research has provided significant knowledge into the function of cortical circuits...
The cortex is a massively recurrent network, characterized by feedforward and feedback connections b...
The cortex is a massively recurrent network, characterized by feedforward and feedback connections b...
Layer-dependent fMRI allows measurements of information flow in cortical circuits, as afferent and e...
The cortex is a massively recurrent network, characterized by feedforward and feedback connections b...
As high-resolution functional magnetic resonance imaging (fMRI) and fMRI of cortical layers become m...
Recent developments in ultra high field MRI and receiver coil technology have opened up the possibil...
Recent developments in ultra high field MRI and receiver coil technology have opened up the possibil...
Deciphering the direction of information flow is critical to understand the brain. Data from non-hum...
Deciphering the direction of information flow is critical to understand the brain. Data from non-hum...
The mesoscopic organization of the human neocortex is of great interest for cognitive neuroscience. ...
Magnetic resonance imaging (MRI) is a popular technique to map the structure and function of the hum...
Magnetic resonance imaging (MRI) is a popular technique to map the structure and function of the hum...
Laboratory animal research has provided significant knowledge into the function of cortical circuits...
The cortex is a massively recurrent network, characterized by feedforward and feedback connections b...
The cortex is a massively recurrent network, characterized by feedforward and feedback connections b...
Layer-dependent fMRI allows measurements of information flow in cortical circuits, as afferent and e...
The cortex is a massively recurrent network, characterized by feedforward and feedback connections b...
As high-resolution functional magnetic resonance imaging (fMRI) and fMRI of cortical layers become m...
Recent developments in ultra high field MRI and receiver coil technology have opened up the possibil...
Recent developments in ultra high field MRI and receiver coil technology have opened up the possibil...
Deciphering the direction of information flow is critical to understand the brain. Data from non-hum...
Deciphering the direction of information flow is critical to understand the brain. Data from non-hum...