Our behavior entails a flexible and context-sensitive interplay between brain areas to integrate information according to goal-directed requirements. However, the neural mechanisms governing the entrainment of functionally specialized brain areas remain poorly understood. In particular, the question arises whether observed changes in the regional activity for different cognitive conditions are explained by modifications of the inputs to the brain or its connectivity? We observe that transitions of fMRI activity between areas convey information about the tasks performed by 19 subjects, watching a movie versus a black screen (rest). We use a model-based framework that explains this spatiotemporal functional connectivity pattern by the local v...
Previous imaging studies have used mostly perceptually abstracted, idealized, or static stimuli to s...
Complex, sustained, dynamic, and naturalistic visual stimulation can evoke distributed brain activit...
Task-based functional magnetic resonance imaging bears great potential to understand how our brain r...
Our behavior entails a flexible and context-sensitive interplay between brain areas to integrate inf...
Our behavior entails a flexible and context-sensitive interplay between brain areas to integrate inf...
A fundamental question in systems neuroscience is how endogenous neuronal activity self-organizes du...
A fundamental question in systems neuroscience is how endogenous neuronal activity self-organizes du...
SummarySpontaneous fMRI fluctuations are organized in large-scale spatiotemporal structures, or rest...
Higher cognition may require the globally coordinated integration of specialized brain regions into ...
Higher cognition may require the globally coordinated integration of specialized brain regions into ...
To understand temporally extended events, the human brain needs to accumulate information continuous...
To understand temporally extended events, the human brain needs to accumulate information continuous...
Higher cognition may require the globally coordinated integration of specialized brain regions into ...
Studying task modulations of brain connectivity using functional magnetic resonance imaging (fMRI) i...
Individuality, the uniqueness that distinguishes one person from another, may manifest as diverse re...
Previous imaging studies have used mostly perceptually abstracted, idealized, or static stimuli to s...
Complex, sustained, dynamic, and naturalistic visual stimulation can evoke distributed brain activit...
Task-based functional magnetic resonance imaging bears great potential to understand how our brain r...
Our behavior entails a flexible and context-sensitive interplay between brain areas to integrate inf...
Our behavior entails a flexible and context-sensitive interplay between brain areas to integrate inf...
A fundamental question in systems neuroscience is how endogenous neuronal activity self-organizes du...
A fundamental question in systems neuroscience is how endogenous neuronal activity self-organizes du...
SummarySpontaneous fMRI fluctuations are organized in large-scale spatiotemporal structures, or rest...
Higher cognition may require the globally coordinated integration of specialized brain regions into ...
Higher cognition may require the globally coordinated integration of specialized brain regions into ...
To understand temporally extended events, the human brain needs to accumulate information continuous...
To understand temporally extended events, the human brain needs to accumulate information continuous...
Higher cognition may require the globally coordinated integration of specialized brain regions into ...
Studying task modulations of brain connectivity using functional magnetic resonance imaging (fMRI) i...
Individuality, the uniqueness that distinguishes one person from another, may manifest as diverse re...
Previous imaging studies have used mostly perceptually abstracted, idealized, or static stimuli to s...
Complex, sustained, dynamic, and naturalistic visual stimulation can evoke distributed brain activit...
Task-based functional magnetic resonance imaging bears great potential to understand how our brain r...