Abstract
Previous research suggests that there may be a relationship between the timing of motor events and phases of the cardiac cycle. This relationship has thus far only been researched using simple isolated movements such as key-presses in reaction-time tasks and only in a single subject acting alone. Other research has shown both movement and cardiac coordination among interacting individuals. Here, we investigated how the cardiac cycle relates to ongoing self-paced movements in both action execution and observation using a novel dyadic paradigm. We recorded electrocardiography (ECG) in 26 subjects who formed 19 dyads containing an action executioner and observer as they performed a self-paced sequence of movements. We demonstrated that heartbeats are timed to movements during both action execution and observation. Specifically, movements were less likely to culminate synchronously with the heartbeat around the time of the R-peak of the ECG. The same pattern was observed for action observation, with the observer's heartbeats occurring off-phase with movement culmination. These findings demonstrate that there is coordination between an action executioner's cardiac cycle and the timing of their movements, and that the same relationship is mirrored in an observer. This suggests that previous findings of interpersonal coordination may be caused by the mirroring of a phasic relationship between movement and the heart.
Highlights
A growing body of research, comprising physiological and psycho logical investigations, is consistent with the hypothesis that the central nervous system has access to cardiac information, and uses this infor mation to guide behavior
We tested whether there was a relationship between movement time of both subjects in a dyad and if there was a relationship between the length of the cardiac cycle and movement time
We showed that the timing of self-paced movements and pe riods of the cardiac cycle are linked in a similar way for both action execution and observation
Summary
A growing body of research, comprising physiological and psycho logical investigations, is consistent with the hypothesis that the central nervous system has access to cardiac information, and uses this infor mation to guide behavior. One such instance is the bidirectional rela tionship between the cardiac cycle and the timing of movement. A similar effect has recently been observed for movement inhibition, with faster responses to stop cues during systole (Rae et al, 2018) Much of this previous physio logical work on the relationship between the cardiac cycle and move ment has employed simple prescribed movements within reaction-time and stop signal paradigms
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