<div><p>We are remarkably adept at inferring the consequences of our actions, yet the neuronal mechanisms that allow us to plan a sequence of novel choices remain unclear. We used functional magnetic resonance imaging (fMRI) to investigate how the human brain plans the shortest path to a goal in novel mazes with one (shallow maze) or two (deep maze) choice points. We observed two distinct anterior prefrontal responses to demanding choices at the second choice point: one in rostrodorsal medial prefrontal cortex (rd-mPFC)/superior frontal gyrus (SFG) that was also sensitive to (deactivated by) demanding initial choices and another in lateral frontopolar cortex (lFPC), which was only engaged by demanding choices at the second choice point. Fur...
Movement-related theta oscillations in rodent hippocampus coordinate ‘forward sweeps’ of location-sp...
The neural computations that enable us to rapidly simulate the outcome of sequential choices with li...
Effective planning involves knowing where different actions take us. However natural environments ar...
We are remarkably adept at inferring the consequences of our actions, yet the neuronal mechanisms th...
We are remarkably adept at inferring the consequences of our actions, yet the neuronal mechanisms th...
Planning spatial paths through our environment is an important part of everyday life and is supporte...
Investigations of the underlying mechanisms of choice in humans have focused on learning from predic...
Planning enables humans and animals to use their knowledge of the structure of the world to anticipa...
During simple perceptual decisions, sensorimotor neurons in monkey fronto-parietal cortex represent ...
Perceptual decision-making entails the transformation of graded sensory signals into categorical jud...
Real-world decisions have benefits occurring only later and dependent on additional decisions taken ...
Three separate fMRI studies were conducted to study the neural dynamics of free decision formation. ...
Although damage to the medial frontal cortex causes profound decision-making impairments, it has bee...
SummaryAlthough many preferential choices in everyday life require remembering relevant information,...
Although many preferential choices in everyday life require remembering relevant information, the in...
Movement-related theta oscillations in rodent hippocampus coordinate ‘forward sweeps’ of location-sp...
The neural computations that enable us to rapidly simulate the outcome of sequential choices with li...
Effective planning involves knowing where different actions take us. However natural environments ar...
We are remarkably adept at inferring the consequences of our actions, yet the neuronal mechanisms th...
We are remarkably adept at inferring the consequences of our actions, yet the neuronal mechanisms th...
Planning spatial paths through our environment is an important part of everyday life and is supporte...
Investigations of the underlying mechanisms of choice in humans have focused on learning from predic...
Planning enables humans and animals to use their knowledge of the structure of the world to anticipa...
During simple perceptual decisions, sensorimotor neurons in monkey fronto-parietal cortex represent ...
Perceptual decision-making entails the transformation of graded sensory signals into categorical jud...
Real-world decisions have benefits occurring only later and dependent on additional decisions taken ...
Three separate fMRI studies were conducted to study the neural dynamics of free decision formation. ...
Although damage to the medial frontal cortex causes profound decision-making impairments, it has bee...
SummaryAlthough many preferential choices in everyday life require remembering relevant information,...
Although many preferential choices in everyday life require remembering relevant information, the in...
Movement-related theta oscillations in rodent hippocampus coordinate ‘forward sweeps’ of location-sp...
The neural computations that enable us to rapidly simulate the outcome of sequential choices with li...
Effective planning involves knowing where different actions take us. However natural environments ar...