In functional magnetic resonance imaging (fMRI), the relationship between positive BOLD responses (PBRs) and negative BOLD responses (NBRs) to stimulation is potentially informative about the balance of excitatory and inhibitory brain responses in sensory cortex. In this study, we performed three separate experiments delivering visual, motor or somatosensory stimulation unilaterally, to one side of the sensory field, to induce PBR and NBR in opposite brain hemispheres. We then assessed the relationship between the evoked amplitudes of contralateral PBR and ipsilateral NBR at the level of both single-trial and average responses. We measure single-trial PBR and NBR peak amplitudes from individual time-courses, and show that they were positive...
AbstractMany fMRI experiments show regions of cortex that seem to respond in antiphase with the prim...
External stimuli and tasks often elicit negative BOLD responses in various brain regions, and growin...
Previous work has investigated the electrophysiological origins of the intra-modal (within the stimu...
In functional magnetic resonance imaging (fMRI), the relationship between positive BOLD responses (P...
In functional magnetic resonance imaging (fMRI), the relationship between positive BOLD responses (P...
AbstractIn functional magnetic resonance imaging (fMRI), the relationship between positive BOLD resp...
Positive blood oxygenation level-dependent (BOLD) responses (PBR), as measured by functional Magneti...
Most fMRI studies are based on the detection of a positive BOLD response (PBR). A few previous human...
External stimuli and tasks often elicit negative BOLD responses in various brain regions, and growin...
Unambiguous interpretation of changes in the BOLD signal is challenging because of the complex neuro...
AbstractUnambiguous interpretation of changes in the BOLD signal is challenging because of the compl...
AbstractMost fMRI studies are based on the detection of a positive BOLD response (PBR). Here, we dem...
Introduction Previous studies have shown that besides the commonly observed positive BOLD response (...
Unlike the positive blood oxygenation level-dependent (BOLD) response (PBR), commonly taken as an in...
The relationship between blood oxygenation level dependent-functional magnetic resonance imaging (BO...
AbstractMany fMRI experiments show regions of cortex that seem to respond in antiphase with the prim...
External stimuli and tasks often elicit negative BOLD responses in various brain regions, and growin...
Previous work has investigated the electrophysiological origins of the intra-modal (within the stimu...
In functional magnetic resonance imaging (fMRI), the relationship between positive BOLD responses (P...
In functional magnetic resonance imaging (fMRI), the relationship between positive BOLD responses (P...
AbstractIn functional magnetic resonance imaging (fMRI), the relationship between positive BOLD resp...
Positive blood oxygenation level-dependent (BOLD) responses (PBR), as measured by functional Magneti...
Most fMRI studies are based on the detection of a positive BOLD response (PBR). A few previous human...
External stimuli and tasks often elicit negative BOLD responses in various brain regions, and growin...
Unambiguous interpretation of changes in the BOLD signal is challenging because of the complex neuro...
AbstractUnambiguous interpretation of changes in the BOLD signal is challenging because of the compl...
AbstractMost fMRI studies are based on the detection of a positive BOLD response (PBR). Here, we dem...
Introduction Previous studies have shown that besides the commonly observed positive BOLD response (...
Unlike the positive blood oxygenation level-dependent (BOLD) response (PBR), commonly taken as an in...
The relationship between blood oxygenation level dependent-functional magnetic resonance imaging (BO...
AbstractMany fMRI experiments show regions of cortex that seem to respond in antiphase with the prim...
External stimuli and tasks often elicit negative BOLD responses in various brain regions, and growin...
Previous work has investigated the electrophysiological origins of the intra-modal (within the stimu...