Brain imaging of chill reactions to pleasant and unpleasant sounds

•fMRI of neural responses of healthy volunteers to pleasant and unpleasant emotional sounds.•chill-associated increases in autonomic arousal regardless of the valence of the sound.•pleasant and unpleasant chills activated anterior insula, thalamus and basal ganglia.•amygdala responses were observed...

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Bibliographic Details
Published in:Behavioural brain research 2020-02, Vol.380, p.112417-112417, Article 112417
Main Authors: Klepzig, K., Horn, U., König, J., Holtz, K., Wendt, J., Hamm, A.O., Lotze, M.
Format: Article
Language:English
Subjects:
Adolescent
Adult
Amygdala - diagnostic imaging
Amygdala - physiology
Anterior insula
Arousal
Arousal - physiology
Auditory Perception - physiology
Basal Ganglia - diagnostic imaging
Basal Ganglia - physiology
Cerebral Cortex - diagnostic imaging
Cerebral Cortex - physiology
Chill
Emotion
Emotions - physiology
Female
fMRI
Galvanic Skin Response - physiology
Humans
Magnetic Resonance Imaging
Male
Music
Nerve Net - diagnostic imaging
Nerve Net - physiology
Pleasure - physiology
Thalamus - diagnostic imaging
Thalamus - physiology
Young Adult
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Summary:•fMRI of neural responses of healthy volunteers to pleasant and unpleasant emotional sounds.•chill-associated increases in autonomic arousal regardless of the valence of the sound.•pleasant and unpleasant chills activated anterior insula, thalamus and basal ganglia.•amygdala responses were observed only with chills elicited by unpleasant sounds. The term ‘chill’ refers to a short-term bodily event of high arousal, which marks an emotional peak experience when occurring in response to music. Chill responses arise in a clearly circumscribed time frame and can also be reliably elicited by unpleasant sounds. Previous research, however, mostly focused on individually selected stimuli and positive contexts, thus, limiting the scope of interpretation. Hence, we developed a standardized chill paradigm and used fMRI to test neural responses of 16 healthy volunteers to pleasant and unpleasant emotional sound material while collecting subjective reports of chill intensity and skin conductance response data. As predicted, we found chill-associated increases in autonomic arousal regardless of the valence of the sound material. Apart from activity in primary and higher auditory cortices, both pleasant and unpleasant chills were associated with anterior insula, thalamus and basal ganglia activity. In contrast, amygdala responses were observed only in association with chills elicited by unpleasant sounds. Thus, chills elicited by pleasant and unpleasant sounds share activity in a neural network that may be specifically involved in the arousal component of an emotional experience.
ISSN:0166-4328
1872-7549
DOI:10.1016/j.bbr.2019.112417