Task-based functional magnetic resonance imaging bears great potential to understand how our brain reacts to various types of stimulation; however, this is often achieved without considering the dynamic facet of functional processing, and analytical outputs typically account for merged influences of task-driven effects and underlying spontaneous fluctuations of brain activity. Here, we introduce a novel methodological pipeline that can go beyond these limitations: the use of a sliding-window analytical scheme permits tracking of functional changes over time, and through cross-subject correlational measurements, the approach can isolate purely stimulus-related effects. Thanks to a rigorous thresholding process, significant changes in inter-s...
Two novel and exciting avenues of neuroscientific research involve the study of task-driven dynamic ...
Our behavior entails a flexible and context-sensitive interplay between brain areas to integrate inf...
Understanding how communication between brain areas evolves to support dynamic function remains a fu...
Task-based functional magnetic resonance imaging bears great potential to understand how our brain r...
Investigating context-dependent modulations of Functional Connectivity (FC) with functional magnetic...
Dynamic functional connectivity (dFC) measured by functional magnetic resonance imaging (fMRI) shows...
Functional connectivity (FC) measured from functional magnetic resonance imaging (fMRI) provides a p...
Studying task modulations of brain connectivity using functional magnetic resonance imaging (fMRI) i...
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...
Previous imaging studies have used mostly perceptually abstracted, idealized, or static stimuli to s...
The study of large-scale functional interactions in the human brain with functional magnetic resonan...
During different cognitive or perceptual tasks, the brain exhibits different patterns of functional ...
The spatiotemporal structure of functional magnetic resonance imaging (fMRI) signals has provided a ...
Recent advances in simultaneous multi-slice imaging have improved the temporal resolution of fMRI. U...
Two novel and exciting avenues of neuroscientific research involve the study of task-driven dynamic ...
Our behavior entails a flexible and context-sensitive interplay between brain areas to integrate inf...
Understanding how communication between brain areas evolves to support dynamic function remains a fu...
Task-based functional magnetic resonance imaging bears great potential to understand how our brain r...
Investigating context-dependent modulations of Functional Connectivity (FC) with functional magnetic...
Dynamic functional connectivity (dFC) measured by functional magnetic resonance imaging (fMRI) shows...
Functional connectivity (FC) measured from functional magnetic resonance imaging (fMRI) provides a p...
Studying task modulations of brain connectivity using functional magnetic resonance imaging (fMRI) i...
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...
Previous imaging studies have used mostly perceptually abstracted, idealized, or static stimuli to s...
The study of large-scale functional interactions in the human brain with functional magnetic resonan...
During different cognitive or perceptual tasks, the brain exhibits different patterns of functional ...
The spatiotemporal structure of functional magnetic resonance imaging (fMRI) signals has provided a ...
Recent advances in simultaneous multi-slice imaging have improved the temporal resolution of fMRI. U...
Two novel and exciting avenues of neuroscientific research involve the study of task-driven dynamic ...
Our behavior entails a flexible and context-sensitive interplay between brain areas to integrate inf...
Understanding how communication between brain areas evolves to support dynamic function remains a fu...