It has been suggested that vertebrate freezing and tonic immobility (TI) represent the antecedents of human emotional vasovagal syncope. When a prey detects an approaching predator, it suddenly interrupts its ongoing activity and behaves according to the predator's distance. A prey enters TI when the fight or flight reaction is not feasible and the animal is captured. TI is defined as a post-contact, all or none, innate immobility reflex response that persists after the end of the prey-predator contact. In humans, vasovagal syncope, a reversible adaptive response frequently associated with fainting, occurs in response to emergency conditions such as strong emotions, orthostatic stress, anoxia, visceral pain and decrease in blood volume. The aim of the present review is to dispute the hypothesis that human vasovagal syncope represents the evolution of the bradycardia observed during freezing in a prey-predator condition in other vertebrates. The hypothesis does not take into account three crucial issues: 1) freezing and TI are defence responses which differ from each other in behavioural, cardiovascular and neurophysiological correlates; 2) the initial phase of vasovagal syncope is associated with tachycardia, whereas freezing is associated with a sudden fast-developing bradycardia; 3) the second phase of vasovagal syncope terminates with a blood pressure collapse, whereas blood pressure levels remain at basal levels during both freezing and TI.

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http://dx.doi.org/10.1016/j.physbeh.2021.113463DOI Listing

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