The heart of cognitive control: Cardiac phase modulates processing speed and inhibition

Bodily states are heavily intertwined with cognitive processes. A prominent communication channel between bodily signals and brain structures is provided by baroreceptors. Their phasic activity associated with the cardiac phase has been shown to modulate cognitive control in socio‐emotional contexts...

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Bibliographic Details
Published in:Psychophysiology 2020-03, Vol.57 (3), p.e13490-n/a
Main Authors: Makowski, Dominique, Sperduti, Marco, Blondé, Philippe, Nicolas, Serge, Piolino, Pascale
Format: Article
Language:English
Subjects:
Adult
Baroreceptors
cardiac phase
Cognition & reasoning
Cognitive ability
cognitive control
Cognitive science
Diastole - physiology
Executive Function - physiology
Female
Heart
Humanities and Social Sciences
Humans
inhibition
Inhibition, Psychological
interoception
Interoception - physiology
Male
Psychology
Psychomotor Performance - physiology
Reaction Time - physiology
systole
Systole - physiology
Young Adult
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Summary:Bodily states are heavily intertwined with cognitive processes. A prominent communication channel between bodily signals and brain structures is provided by baroreceptors. Their phasic activity associated with the cardiac phase has been shown to modulate cognitive control in socio‐emotional contexts. However, whether this effect is specific to the affective dimension or impacts general cognitive control processes remains controversial. The aim of the present study is to investigate the effect of cardiac phase on different facets of cognitive control. We built a nonemotional cognitive control task to delineate mechanisms such as processing speed, response selection, response inhibition, and conflict monitoring. We showed that the systole (after the blood is ejected from the heart), compared to the diastole, was related to faster responses. Moreover, the cardiac phase dynamics also impacted response inhibition, with an increased probability of failure toward the middle of the course of systole. Although the reported effects were small in terms of magnitude, they highlight the influence of bodily states on cognitive processes. A prominent communication channel between bodily signals and brain structures is provided by baroreceptors. However, whether their phasic activity, associated with the cardiac phase, impacts general cognitive control processes remains controversial. In the present study, we showed that the systole (after the blood is ejected from the heart), compared to the diastole, was related to faster responses. Moreover, the cardiac phase dynamics also impacted response inhibition, with an increased probability of failure toward the middle of the course of systole. These results highlight the influence of bodily states on cognitive processes.
ISSN:0048-5772
1469-8986
1540-5958
DOI:10.1111/psyp.13490