When Silence Breaks: The Influence of Pure Tones and White Noises on Conditioned Flight Responses

When Silence Breaks: The Influence of Pure Tones and White Noises on Conditioned Flight Responses

ABSTRACT Background The flight response is part of the repertoire of adaptive behavioral responses all animals possess and use to face threats coming from their environment. Compared to the other responses, flight requires a high degree of physical effort and is thought to be related to those active...

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Main Authors: Sebastiano Francesco Matarazzo di Licosa, Andrea Stefano Moro, Mattia Ferro, Antonio Malgaroli, Jacopo Lamanna
Format: Article
Language:English
Published: Wiley 2025-05-01
Series:Brain and Behavior
Subjects:
animal behavior
fear conditioning
Pavlovian learning
serial compound stimulus
SCS
white noise
Online Access:https://doi.org/10.1002/brb3.70561
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Summary:ABSTRACT Background The flight response is part of the repertoire of adaptive behavioral responses all animals possess and use to face threats coming from their environment. Compared to the other responses, flight requires a high degree of physical effort and is thought to be related to those active coping strategies that can be observed in several psychopathological conditions, including anxiety and depressive disorders. In recent years, a new protocol of auditory fear conditioning has been shown to induce a learned flight response in mice, based on a conditioned stimulus that includes pure tones and white noise, the serial compound stimulus (SCS). Methods In this review, we examine the effects of stimulus characteristics in fear learning paradigms, particularly in the context of the recently developed SCS paradigm. We will discuss how factors such as conditioned stimulus (CS) modality (e.g., tone versus white noise), stimulus salience, and the temporal relationship between stimuli influence conditioned flight responses. Results For the study of both physiological and maladaptive behaviors, fear conditioning still represents the paradigm of choice, e.g., for the modeling of psychiatric conditions such as post‐traumatic stress disorder or phobias. Albeit its relevance in this context, up to now only a few studies have focused on developing procedures for eliciting conditioned flight responses in the laboratory, in favor of freezing/immobilization, the so‐called fright response. The SCS protocol poses new interesting questions on the impact of noises and other stimuli on learning and behavioral responses. Conclusion The discovery of SCS already led to interesting findings in the neurobiology of fear learning and shows great potential for the study of maladaptive responses in animal models of psychopathology.
ISSN:2162-3279

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