There is a growing consensus that the brain makes simple choices, such as choosing between an apple and an orange, by assigning value to the options under consideration, and comparing those values to make a choice. There is also a consensus that value signals computed in orbitofrontal cortex (OFC) and amygdala play a critical role in the choice process. However, the nature of the flow of information between OFC and amygdala at the time of decision is still unknown. In order to study this question, simultaneous local field potentials were recorded from OFC and amygdala in human patients while they performed a simple food choice task. Although the interaction of these circuits has been studied in animals, this study examines the effective con...
Valuable stimuli are invariably localized in space. While our knowledge regarding the neural network...
Making good decisions and adapting flexibly to environmental change are critical to the survival of ...
Most existing mechanistic models of decision making consider microcircuits within a homogenous brain...
A growing consensus suggests that the brain makes simple choices by assigning values to the stimuli ...
Economic choice behavior entails the computation and comparison of subjective values. A central cont...
This review outlines some of the main conclusions about the contributions of the orbitofrontal corte...
SummaryThe prefrontal cortex (PFC) receives substantial anatomical input from the amygdala, and thes...
Behaviour is guided by accumulated experience, valuation and comparison. While many aspects associat...
Which meal would you like today, chicken or pasta? For such value-based choices, organisms must flex...
The human orbitofrontal cortex is strongly implicated in appetitive valuation. Whether its role exte...
We used fMRI-informed EEG source-imaging in humans to characterize the dynamics of cortical response...
Recent neuroscience research is beginning to discover the brain regions involved in decision-making ...
BACKGROUND: Choosing between actions associated with uncertain rewards and punishments is mediated b...
To decide effectively, information must not only be integrated from multiple sources, but it must be...
The neural mechanism underlying simple perceptual decision-making in monkeys has been recently conce...
Valuable stimuli are invariably localized in space. While our knowledge regarding the neural network...
Making good decisions and adapting flexibly to environmental change are critical to the survival of ...
Most existing mechanistic models of decision making consider microcircuits within a homogenous brain...
A growing consensus suggests that the brain makes simple choices by assigning values to the stimuli ...
Economic choice behavior entails the computation and comparison of subjective values. A central cont...
This review outlines some of the main conclusions about the contributions of the orbitofrontal corte...
SummaryThe prefrontal cortex (PFC) receives substantial anatomical input from the amygdala, and thes...
Behaviour is guided by accumulated experience, valuation and comparison. While many aspects associat...
Which meal would you like today, chicken or pasta? For such value-based choices, organisms must flex...
The human orbitofrontal cortex is strongly implicated in appetitive valuation. Whether its role exte...
We used fMRI-informed EEG source-imaging in humans to characterize the dynamics of cortical response...
Recent neuroscience research is beginning to discover the brain regions involved in decision-making ...
BACKGROUND: Choosing between actions associated with uncertain rewards and punishments is mediated b...
To decide effectively, information must not only be integrated from multiple sources, but it must be...
The neural mechanism underlying simple perceptual decision-making in monkeys has been recently conce...
Valuable stimuli are invariably localized in space. While our knowledge regarding the neural network...
Making good decisions and adapting flexibly to environmental change are critical to the survival of ...
Most existing mechanistic models of decision making consider microcircuits within a homogenous brain...