Add to ORKGFlight initiation distance (FID), the distance at which an organism flees from an approaching threat, is an ecological metric of cost–benefit functions of escape decisions. We adapted the FID paradigm to investigate how fast- or slow-attacking “virtual predators” constrain escape decisions. We show that rapid escape decisions rely on “reactive fear” circuits in the periaqueductal gray and midcingulate cortex (MCC), while protracted escape decisions, defined by larger buffer zones, were associated with “cognitive fear” circuits, which include posterior cingulate cortex, hippocampus, and the ventromedial prefrontal cortex, circuits implicated in more complex information processing, cognitive avoidance strategies, and behavioral flexibility. U...
Post encounter and circa-strike defensive contexts represent two adaptive responses to potential and...
Postencounter and circa-strike defensive contexts represent two adaptive responses to potential and ...
When faced with imminent danger, animals must rapidly take defensive actions to reach safety. Mice c...
Humans, like other animals, have evolved a set of neural circuits whose primary function is survival...
Theoretical models distinguish between neural responses elicited by distal threats and those evoked ...
We propose a Survival Optimization System (SOS) to account for the strategies that humans and other ...
When faced with potential predators, animals instinctively decide whether there is a threat they sho...
Animals face frequent threats from predators and must generate appropriate behavioural responses to ...
Humans, like many other animals, pre-empt danger by moving to locations that maximize their success ...
In many instances, external sensory-evoked neuronal activity is used by the brain to select the most...
Jointly minimizing multiple threats over extended time horizons enhances survival. Consequently, man...
Escape is one of the most studied animal behaviors, and there is a rich normative theory that links ...
Naturalistic escape requires versatile context-specific flight with rapid evaluation of local geomet...
Humans, like other animals, alter their behavior depending on whether a threat is close or distant. ...
Executing appropriate defensive actions is vital for survival. In mice, imminent threat elicits fas...
Post encounter and circa-strike defensive contexts represent two adaptive responses to potential and...
Postencounter and circa-strike defensive contexts represent two adaptive responses to potential and ...
When faced with imminent danger, animals must rapidly take defensive actions to reach safety. Mice c...
Humans, like other animals, have evolved a set of neural circuits whose primary function is survival...
Theoretical models distinguish between neural responses elicited by distal threats and those evoked ...
We propose a Survival Optimization System (SOS) to account for the strategies that humans and other ...
When faced with potential predators, animals instinctively decide whether there is a threat they sho...
Animals face frequent threats from predators and must generate appropriate behavioural responses to ...
Humans, like many other animals, pre-empt danger by moving to locations that maximize their success ...
In many instances, external sensory-evoked neuronal activity is used by the brain to select the most...
Jointly minimizing multiple threats over extended time horizons enhances survival. Consequently, man...
Escape is one of the most studied animal behaviors, and there is a rich normative theory that links ...
Naturalistic escape requires versatile context-specific flight with rapid evaluation of local geomet...
Humans, like other animals, alter their behavior depending on whether a threat is close or distant. ...
Executing appropriate defensive actions is vital for survival. In mice, imminent threat elicits fas...
Post encounter and circa-strike defensive contexts represent two adaptive responses to potential and...
Postencounter and circa-strike defensive contexts represent two adaptive responses to potential and ...
When faced with imminent danger, animals must rapidly take defensive actions to reach safety. Mice c...