Recent advances in MRI receiver and coil technologies have significantly improved image signal-to-noise ratios (SNR) and thus temporal SNR (TSNR). These gains in SNR and TSNR have allowed the detection of fMRI signal changes at higher spatial resolution and therefore have increased the potential to localize small brain structures such as cortical layers and columns. The majority of current fMRI processing strategies employ multi-subject averaging and therefore require spatial smoothing and normalization, effectively negating these gains in spatial resolution higher than about 10 mm3. Reliable detection of activation in single subjects at high resolution is becoming a more common desire among fMRI researchers who are interested in comparing ...
The temporal resolution of event related fMRI is limited by the low sampling rate of typical MR whol...
Objective To study the optimization of scan time for resting⁃state functional magnetic resonance ima...
This work addresses the choice of the imaging voxel volume in blood oxygen level dependent (BOLD) fu...
Recent advances in MRI receiver and coil technologies have significantly improved image signal-to-no...
Recent developments in accelerated imaging methods allow faster acquisition of high spatial resoluti...
High sensitivity signal detection for a sparse temporal sampling (STS) functional magnetic resonance...
The aim of this study was to evaluate the reproducibility of voxel-wise temporal signal-to-noise rat...
Accelerated functional Magnetic Resonance Imaging (fMRI) with ‘multiband’ protocols is now relativel...
Functional magnetic resonance imaging (fMRI) is a widely used tool in neuroscience to detect neurall...
Background: Resting-state functional magnetic resonance imaging (rs-fMRI) can evaluate brain functio...
Abstract For functional MRI with a multi-channel receiver RF coil, images are often reconstructed c...
For functional MRI with a multi-channel receiver RF coil, images are often reconstructed channel by ...
In MRI, a trade‐off exists between resolution and signal‐to‐noise ratio, since different fractions o...
For functional MRI with a multi-channel receiver RF coil, images are often reconstructed channel by ...
AbstractCognitive neuroimaging studies typically require fast whole brain image acquisition with max...
The temporal resolution of event related fMRI is limited by the low sampling rate of typical MR whol...
Objective To study the optimization of scan time for resting⁃state functional magnetic resonance ima...
This work addresses the choice of the imaging voxel volume in blood oxygen level dependent (BOLD) fu...
Recent advances in MRI receiver and coil technologies have significantly improved image signal-to-no...
Recent developments in accelerated imaging methods allow faster acquisition of high spatial resoluti...
High sensitivity signal detection for a sparse temporal sampling (STS) functional magnetic resonance...
The aim of this study was to evaluate the reproducibility of voxel-wise temporal signal-to-noise rat...
Accelerated functional Magnetic Resonance Imaging (fMRI) with ‘multiband’ protocols is now relativel...
Functional magnetic resonance imaging (fMRI) is a widely used tool in neuroscience to detect neurall...
Background: Resting-state functional magnetic resonance imaging (rs-fMRI) can evaluate brain functio...
Abstract For functional MRI with a multi-channel receiver RF coil, images are often reconstructed c...
For functional MRI with a multi-channel receiver RF coil, images are often reconstructed channel by ...
In MRI, a trade‐off exists between resolution and signal‐to‐noise ratio, since different fractions o...
For functional MRI with a multi-channel receiver RF coil, images are often reconstructed channel by ...
AbstractCognitive neuroimaging studies typically require fast whole brain image acquisition with max...
The temporal resolution of event related fMRI is limited by the low sampling rate of typical MR whol...
Objective To study the optimization of scan time for resting⁃state functional magnetic resonance ima...
This work addresses the choice of the imaging voxel volume in blood oxygen level dependent (BOLD) fu...