Slow (,0.1 Hz) oscillatory activity in the human brain, as measured by functional magnetic imaging, has been used to identify neural networks and their dysfunction in specific brain diseases. Its intrinsic properties may also be useful to investigate brain functions. We investigated the two functional maps: variance and first order autocorrelation coefficient (r1). These two maps had distinct spatial distributions and the values were significantly different among the subdivisions of the precuneus and posterior cingulate cortex that were identified in functional connectivity (FC) studies. The results reinforce the functional segregation of these subdivisions and indicate that the intrinsic properties of the slow brain activity have physiolog...
Contemporary neuroimaging methods can shed light on the basis of human neural and cognitive speciali...
We have found a high-degree of temporal correlations of the low frequency fluctuations of signal int...
While task-based functional magnetic resonance imaging (fMRI) has helped us understand the functiona...
Slow (<0.1 Hz) oscillatory activity in the human brain, as measured by functional magnetic imaging, ...
A powerful way to probe brain function is to assess the relationship between simultaneous changes in...
<div><p>Recording of slow spontaneous fluctuations at rest using functional magnetic resonance imagi...
Resting-state functional magnetic resonance imaging has become a powerful tool for the study of func...
Recording of slow spontaneous fluctuations at rest using functional magnetic resonance imaging (fMRI...
The intrinsic organizational structure of the brain is reflected in spontaneous brain oscillations. ...
Recording of slow spontaneous fluctuations at rest using functional magnetic resonance imaging (fMRI...
Studies involving functional connectivity of the brain are of growing interest due to its significan...
Abstract A typical time series in functional magnetic resonance imaging (fMRI) exhibits autocorrelat...
Dynamic models of large-scale brain activity have been used for reproducing many empirical findings ...
The center stage of neuro-imaging is currently occupied by studies of functional correlations betwee...
Synchronized oscillations in resting state timecourses have been detected in recent fMRI studies. Th...
Contemporary neuroimaging methods can shed light on the basis of human neural and cognitive speciali...
We have found a high-degree of temporal correlations of the low frequency fluctuations of signal int...
While task-based functional magnetic resonance imaging (fMRI) has helped us understand the functiona...
Slow (<0.1 Hz) oscillatory activity in the human brain, as measured by functional magnetic imaging, ...
A powerful way to probe brain function is to assess the relationship between simultaneous changes in...
<div><p>Recording of slow spontaneous fluctuations at rest using functional magnetic resonance imagi...
Resting-state functional magnetic resonance imaging has become a powerful tool for the study of func...
Recording of slow spontaneous fluctuations at rest using functional magnetic resonance imaging (fMRI...
The intrinsic organizational structure of the brain is reflected in spontaneous brain oscillations. ...
Recording of slow spontaneous fluctuations at rest using functional magnetic resonance imaging (fMRI...
Studies involving functional connectivity of the brain are of growing interest due to its significan...
Abstract A typical time series in functional magnetic resonance imaging (fMRI) exhibits autocorrelat...
Dynamic models of large-scale brain activity have been used for reproducing many empirical findings ...
The center stage of neuro-imaging is currently occupied by studies of functional correlations betwee...
Synchronized oscillations in resting state timecourses have been detected in recent fMRI studies. Th...
Contemporary neuroimaging methods can shed light on the basis of human neural and cognitive speciali...
We have found a high-degree of temporal correlations of the low frequency fluctuations of signal int...
While task-based functional magnetic resonance imaging (fMRI) has helped us understand the functiona...