Although the ventromedial prefrontal cortex (vmPFC) has long been implicated in reward-guided decision making, its exact role in this process has remained an unresolved issue. Here we show that, in accordance with models of decision making, vmPFC concentrations of GABA and glutamate in human volunteers predict both behavioral performance and the dynamics of a neural value comparison signal. These data provide evidence for a neural competition mechanism in vmPFC that supports value-guided choice
<div><p>The ventral striatum (VS), like its cortical afferents, is closely associated with processin...
The ventral striatum (VS), like its cortical afferents, is closely associated with processing of rew...
The frontal cortex is crucial to sound decision-making, and the activity of frontal neurons correlat...
SummaryRecent theories suggest that reward-based choice reflects competition between value signals i...
The ventromedial prefrontal cortex (vmPFC) has been shown to correlate with the subjective value for...
The ventromedial prefrontal cortex (vmPFC) has been shown to correlate with the subjective value for...
In a dynamic world, it is essential to decide when to leave an exploited resource. Such patch-leavin...
AbstractTwo long-standing traditions have highlighted cortical decision mechanisms in the parietal a...
When choosing between two options, correlates of their value are represented in neural activity thro...
Across many studies, ventromedial prefrontal cortex (vmPFC) activity has been found to correlate wit...
Two fundamental goals of decision making are to select actions that maximize rewards while minimizin...
When choosing between two options, correlates of their value are represented in neural activity thro...
Integrating costs and benefits is crucial for optimal decision-making. While much is known about dec...
In this issue of Neuron, Strait et al. (2014) studied how neurons in the monkey ventromedial prefron...
Adaptive decision-making requires that options be weighed according to the predicted value of the ou...
<div><p>The ventral striatum (VS), like its cortical afferents, is closely associated with processin...
The ventral striatum (VS), like its cortical afferents, is closely associated with processing of rew...
The frontal cortex is crucial to sound decision-making, and the activity of frontal neurons correlat...
SummaryRecent theories suggest that reward-based choice reflects competition between value signals i...
The ventromedial prefrontal cortex (vmPFC) has been shown to correlate with the subjective value for...
The ventromedial prefrontal cortex (vmPFC) has been shown to correlate with the subjective value for...
In a dynamic world, it is essential to decide when to leave an exploited resource. Such patch-leavin...
AbstractTwo long-standing traditions have highlighted cortical decision mechanisms in the parietal a...
When choosing between two options, correlates of their value are represented in neural activity thro...
Across many studies, ventromedial prefrontal cortex (vmPFC) activity has been found to correlate wit...
Two fundamental goals of decision making are to select actions that maximize rewards while minimizin...
When choosing between two options, correlates of their value are represented in neural activity thro...
Integrating costs and benefits is crucial for optimal decision-making. While much is known about dec...
In this issue of Neuron, Strait et al. (2014) studied how neurons in the monkey ventromedial prefron...
Adaptive decision-making requires that options be weighed according to the predicted value of the ou...
<div><p>The ventral striatum (VS), like its cortical afferents, is closely associated with processin...
The ventral striatum (VS), like its cortical afferents, is closely associated with processing of rew...
The frontal cortex is crucial to sound decision-making, and the activity of frontal neurons correlat...