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The fight-or-flight or the fight-flight-freeze-or-fawn [1] (also called hyperarousal or the acute stress response) is a physiological reaction that occurs in response to a perceived harmful event, attack, or threat to survival. [2] It was first described by Walter Bradford Cannon in 1915.
The body's response to stress is also termed a "fight or flight" response, and it is characterised by an increase in blood flow to the skeletal muscles, heart, and brain, a rise in heart rate and blood pressure, dilation of pupils, and an increase in the amount of glucose released by the liver. [8]
The activity of the sympathetic nervous system drives what is called the "fight or flight" response. [4] The fight or flight response to emergency or stress involves increased heart rate and force contraction, vasoconstriction , bronchodilation , sweating , and secretion of the epinephrine and cortisol from the adrenal medulla , among numerous ...
During this “Fight or flight” /acute stress response, both areas of the conscious brain can struggle to process this information at the same time. Consequently, perceptual distortions can occur (e.g. slow motion/ tunnel vision, disruption of hearing) As a part of this, the processing of auditory information can be stopped completely ...
The sympathetic nervous system is responsible for setting off the fight-or-flight response. [3] The parasympathetic nervous system is responsible for the body's rest and digestion response. [3] In many cases, both of these systems have "opposite" actions where one system activates a physiological response and the other inhibits it.
One common cause of the release of this hormone is the Fight-or-flight response. When the body encounters an external stimulus that is potentially dangerous, epinephrine is released from the adrenal glands. Epinephrine causes physiological changes in the body, such as constriction of blood vessels, dilation of pupils, increased heart and ...
Good morning. European companies are putting a fresh spin on the traditional fight-or-flight response as they adapt to the changing global economy.
If the amygdala perceives a match to the stimulus, i.e., if the record of experiences in the hippocampus tells the amygdala that it is a fight, flight or freeze situation, then the amygdala triggers the HPA (hypothalamic–pituitary–adrenal) axis and "hijacks" or overtakes rational brain function. [5]