On the physiology of interruption after unexpectedness

•Surprise involves interruption and attention for effective action.•Surprise lowers heart rate and increases blood pressure.•These effects occurred for positive, neutral, and negative surprises.•Systolic blood seemed to increase more after negative vs. positive surprise.•Physiological markers of sur...

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Veröffentlicht in:	Biological psychology 2021-10, Vol.165, p.108174-108174, Article 108174
Hauptverfasser:	Noordewier, Marret K., Scheepers, Daan T., Stins, John F., Hagenaars, Muriel A.
Format:	Artikel
Sprache:	eng
Schlagworte:	Blood pressure Body sway Freezing Heart rate Humans Orienting Physiological Phenomena Physiology Reflex, Startle Surprise Temperature Unexpectedness
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container_title	Biological psychology
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creator	Noordewier, Marret K. Scheepers, Daan T. Stins, John F. Hagenaars, Muriel A.
description	•Surprise involves interruption and attention for effective action.•Surprise lowers heart rate and increases blood pressure.•These effects occurred for positive, neutral, and negative surprises.•Systolic blood seemed to increase more after negative vs. positive surprise.•Physiological markers of surprise correspond with those associated with orienting and freezing. We tested whether surprise elicits similar physiological changes as those associated with orienting and freezing after threat, as surprise also involves a state of interruption and attention for effective action. Moreover, because surprise is primarily driven by the unexpectedness of an event, initial physiological responses were predicted to be similar for positive, neutral, and negative surprises. Results of repetition-change studies (4 + 1 in Supplemental Materials) showed that surprise lowers heart rate (Experiments 1-4) and increases blood pressure (Experiment 4). No effects on body movement (Experiment 2) or finger temperature (Experiment 4) were found. When unexpected stimuli were presented more often (making them less surprising) heart rate returned to baseline, while blood pressure remained high (Experiment 4). These effects were not influenced by stimulus valence. However, second-to-second analyses within the first (surprising) block showed a tendency for a stronger increase in systolic blood pressure after negative vs. positive surprise.
doi_str_mv	10.1016/j.biopsycho.2021.108174
format	Article
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subjects	Blood pressure Body sway Freezing Heart rate Humans Orienting Physiological Phenomena Physiology Reflex, Startle Surprise Temperature Unexpectedness
title	On the physiology of interruption after unexpectedness
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