Functional imaging methods such as resting-state fMRI allow to describe interactions among different areas of the brain, thus deriving a functional connectivity matrix of the entire brain network. Tracking functional relationships among different regions of interest can be applied, besides a pure modelling perspective, also to discovering procedures to detect brain diseases and anomalies, or pursuing rehabilitation of subjects with structural damages. However, network characterization is often regarded as frequency-independent, so that the frequency at which interactions take place among different regions is ignored. In this paper, we show how simple filtering procedures over different bands, applied to the resting-state fMRI signals, resul...
Spatio-temporally organized low-frequency fluctuations (<0.1 Hz) of blood-oxygen-level-dependent ...
Inferring brain functional connectivity from functional magnetic resonance imaging (fMRI) data exten...
This thesis concerns the general functional organization of the healthy human brain. In contrast to ...
AbstractThe large-scale functional MRI connectome of the human brain is composed of multiple resting...
Functional magnetic resonance imaging studies have documented the resting human brain to be function...
Spontaneous fluctuations in activity in different parts of the brain can be used to study functional...
Spontaneous fluctuations in activity in different parts of the brain can be used to study functional...
Brain oscillations and synchronicity among brain regions (brain connectivity) have been studied in r...
Our brain is a network. It consists of spatially distributed, but functionally linked regions that c...
Resting-state functional magnetic resonance imaging has become a powerful tool for the study of func...
Whole brain functional connectomes hold promise for understanding human brain activity across a rang...
We have found a high-degree of temporal correlations of the low frequency fluctuations of signal int...
Several studies in the last years have explored the potential of using a frequency domain approach i...
Functional magnetic resonance imaging studies have documented the resting human brain to be function...
& Correlation analysis of low-frequency fluctuations is well established in fMRI as a method for...
Spatio-temporally organized low-frequency fluctuations (<0.1 Hz) of blood-oxygen-level-dependent ...
Inferring brain functional connectivity from functional magnetic resonance imaging (fMRI) data exten...
This thesis concerns the general functional organization of the healthy human brain. In contrast to ...
AbstractThe large-scale functional MRI connectome of the human brain is composed of multiple resting...
Functional magnetic resonance imaging studies have documented the resting human brain to be function...
Spontaneous fluctuations in activity in different parts of the brain can be used to study functional...
Spontaneous fluctuations in activity in different parts of the brain can be used to study functional...
Brain oscillations and synchronicity among brain regions (brain connectivity) have been studied in r...
Our brain is a network. It consists of spatially distributed, but functionally linked regions that c...
Resting-state functional magnetic resonance imaging has become a powerful tool for the study of func...
Whole brain functional connectomes hold promise for understanding human brain activity across a rang...
We have found a high-degree of temporal correlations of the low frequency fluctuations of signal int...
Several studies in the last years have explored the potential of using a frequency domain approach i...
Functional magnetic resonance imaging studies have documented the resting human brain to be function...
& Correlation analysis of low-frequency fluctuations is well established in fMRI as a method for...
Spatio-temporally organized low-frequency fluctuations (<0.1 Hz) of blood-oxygen-level-dependent ...
Inferring brain functional connectivity from functional magnetic resonance imaging (fMRI) data exten...
This thesis concerns the general functional organization of the healthy human brain. In contrast to ...