University of Wollongong
Browse

Respiratory component of the orienting reflex: A novel sensitive index of sensory-induced arousal in rats

Download (307.21 kB)
journal contribution
posted on 2024-11-14, 21:24 authored by Eugene Nalivaiko, Evgeny Bondarenko, Andreas Lidstrom, Robert BarryRobert Barry
In humans, the integrated response to a novel stimulus (orienting reflex, OR) includes behavioral (head turning etc.) and well-characterized physiological components (changes in heart rate, respiration, skin conductance, and EEG patterns). In rodents, the physiological components of the OR include changes in heart rate and cutaneous vasoconstrictor tone, but respiratory changes have so far not been systematically documented. In the present study conducted in adult male Wistar rats, the OR was elicited by 60-dB acoustic tones while animals were in a whole-body plethysmograph for respiratory recordings. In addition to respiration, in different groups of animals we concurrently recorded either EEG, or heart rate (both by biotelemetry), or tail blood flow (using ultrasound Doppler). Acoustic stimuli provoked vigorous tachypneic responses with respiratory rate rising from 80-100 to 450-650 cpm, and with small and variable changes in tidal volume.This respiratory arousal response was often, but not always, accompanied by EEG desynchronization and by variable tail vasoconstriction, and by small and inconsistent changes in the heart rate. We conclude that tachypneic responses are a new highly sensitive index of sensory-induced arousal. © 2012 Nalivaiko, Bon-darenko, Lidström and Barry.

History

Citation

Nalivaiko, E., Bondarenko, E., Lidström, A. & Barry, R. J. (2012). Respiratory component of the orienting reflex: A novel sensitive index of sensory-induced arousal in rats. Frontiers in Physiology, 3 1-6.

Journal title

Frontiers in Physiology

Volume

2/01/2024

Pagination

1-6

Language

English

RIS ID

67600

Usage metrics

    Categories

    Exports

    RefWorks
    BibTeX
    Ref. manager
    Endnote
    DataCite
    NLM
    DC