The spatial distribution of signals from magnetic resonance imaging (MRI) using measures of Blood Oxygen Level Dependent (BOLD) activations presents a fundamental limit on the ability of MRI to resolve the neural signals from the brain. Here we show that the multiple samples of low-level BOLD activity comprise a form of neural “imaging dust” with distinct spatial characteristics. We apply the distance-dependent measurement of variance to spatial maps of BOLD signals to deliver a new approach to estimating the empirical point-spread function (PSF) of MRI. We show that these new estimates are similar to earlier measures of the PSF of high field 7-T imaging, but deliver the advantage that they are specific to each individual tested in a single...
<div><p>The neural patterns recorded during a neuroscientific experiment reflect complex interaction...
It was recently shown that when large amounts of task-based blood oxygen level–dependent (BOLD) data...
Although brain imaging methods are highly effective for localizing the effects of neural activation ...
This study investigated the spatio-temporal properties of blood-oxygenation level-dependent (BOLD) f...
Previous attempts at characterizing the spatial specificity of the blood oxygenation level dependent...
Columns and layers are fundamental organizational units of the brain. Well known examples of cortica...
The objective of this work is to quantify how patterns of cortical activity at different spatial sca...
The objective of this work is to quantify how patterns of cortical activity at different spatial sca...
Functional MRI using blood oxygenation level-dependent (BOLD) contrast indirectly probes neuronal ac...
The mass-univariate approach for functional magnetic resonance imaging (fMRI) analysis remains a wid...
This thesis concerns the statistical characterisation of neuroimaging data; namely the detection of ...
It has recently been shown that large-scale propagation of blood-oxygen-level-dependent (BOLD) activ...
It has recently been shown that large-scale propagation of blood-oxygen-level-dependent (BOLD) activ...
Although brain imaging methods are highly effective for localizing the effects of neural activation ...
The ultimate goal of functional brain imaging is to provide optimal estimates of the neural signals ...
<div><p>The neural patterns recorded during a neuroscientific experiment reflect complex interaction...
It was recently shown that when large amounts of task-based blood oxygen level–dependent (BOLD) data...
Although brain imaging methods are highly effective for localizing the effects of neural activation ...
This study investigated the spatio-temporal properties of blood-oxygenation level-dependent (BOLD) f...
Previous attempts at characterizing the spatial specificity of the blood oxygenation level dependent...
Columns and layers are fundamental organizational units of the brain. Well known examples of cortica...
The objective of this work is to quantify how patterns of cortical activity at different spatial sca...
The objective of this work is to quantify how patterns of cortical activity at different spatial sca...
Functional MRI using blood oxygenation level-dependent (BOLD) contrast indirectly probes neuronal ac...
The mass-univariate approach for functional magnetic resonance imaging (fMRI) analysis remains a wid...
This thesis concerns the statistical characterisation of neuroimaging data; namely the detection of ...
It has recently been shown that large-scale propagation of blood-oxygen-level-dependent (BOLD) activ...
It has recently been shown that large-scale propagation of blood-oxygen-level-dependent (BOLD) activ...
Although brain imaging methods are highly effective for localizing the effects of neural activation ...
The ultimate goal of functional brain imaging is to provide optimal estimates of the neural signals ...
<div><p>The neural patterns recorded during a neuroscientific experiment reflect complex interaction...
It was recently shown that when large amounts of task-based blood oxygen level–dependent (BOLD) data...
Although brain imaging methods are highly effective for localizing the effects of neural activation ...