When learning new environments, rats often pause at decision points and look back and forth over their possible trajectories as if they were imagining the future outcome of their actions, a behavior termed “Vicarious trial and error” (VTE). As the animal learns the environmental configuration, rats change from deliberative to habitual behavior, and VTE tends to disappear, suggesting a functional relevance in the early stages of learning. Despite the extensive research on spatial navigation, learning and VTE in the rat model, fewer studies have focused on humans. Here, we tested whether head-scanning behaviors that humans typically exhibit during spatial navigation are as predictive of spatial learning as in the rat. Subjects performed a goa...
Several studies in rats support the idea of multiple neural systems competing to select the best act...
Adapting behavior to accommodate changes in the environment is an important function of the nervous ...
Prior knowledge structures (or schemas) confer multiple behavioral benefits. First, when we encounte...
When learning new environments, rats often pause at decision points and look back and forth over the...
Vicarious trial-and-errors (VTEs) are back-and-forth movements of the head exhibited by rodents and ...
Much of our understanding of navigation comes from the study of individual species, often with speci...
A growing body of literature indicates that rats prefer to navigate in the direction of a goal in th...
In three experiments, the nature of the interaction between multiple memory systems in rats solving ...
Vicarious trial and error behaviors (VTEs) indicate periods of indecision during decision-making, an...
Here we describe the honeycomb maze, a behavioural paradigm for the study of spatial navigation in r...
Navigation is defined as the capability of planning and performing a path from the current position ...
Three major pillars of hippocampal function are spatial navigation1, Hebbian synaptic plasticity2 an...
Humans and non-human animals show great flexibility in spatial navigation, including the ability to ...
Behavioural data suggest that distinguishable orientations may be necessary for place learning even ...
Rats learn to navigate to a specific location faster in a familiar environment (Keith and Mcvety 19...
Several studies in rats support the idea of multiple neural systems competing to select the best act...
Adapting behavior to accommodate changes in the environment is an important function of the nervous ...
Prior knowledge structures (or schemas) confer multiple behavioral benefits. First, when we encounte...
When learning new environments, rats often pause at decision points and look back and forth over the...
Vicarious trial-and-errors (VTEs) are back-and-forth movements of the head exhibited by rodents and ...
Much of our understanding of navigation comes from the study of individual species, often with speci...
A growing body of literature indicates that rats prefer to navigate in the direction of a goal in th...
In three experiments, the nature of the interaction between multiple memory systems in rats solving ...
Vicarious trial and error behaviors (VTEs) indicate periods of indecision during decision-making, an...
Here we describe the honeycomb maze, a behavioural paradigm for the study of spatial navigation in r...
Navigation is defined as the capability of planning and performing a path from the current position ...
Three major pillars of hippocampal function are spatial navigation1, Hebbian synaptic plasticity2 an...
Humans and non-human animals show great flexibility in spatial navigation, including the ability to ...
Behavioural data suggest that distinguishable orientations may be necessary for place learning even ...
Rats learn to navigate to a specific location faster in a familiar environment (Keith and Mcvety 19...
Several studies in rats support the idea of multiple neural systems competing to select the best act...
Adapting behavior to accommodate changes in the environment is an important function of the nervous ...
Prior knowledge structures (or schemas) confer multiple behavioral benefits. First, when we encounte...