Mental arithmetic significantly increased the conditional self-entropy of heart rate variability given respiration compared to sustained attention or rest, indicating higher cardiac predictability.
Observational (n=40)
No
Do mental arithmetic and sustained attention alter cardiorespiratory information dynamics and coupling in healthy individuals?
Mental stress increases the predictability of heart rate variability when accounting for respiration, despite no significant changes in overall cardiorespiratory coupling.
p-value: p=<0.0001
An analysis of cardiorespiratory dynamics during mental arithmetic, which induces stress, and sustained attention was conducted using information theory. The information storage and internal information of heart rate variability (HRV) were determined respectively as the self-entropy of the tachogram, and the self-entropy of the tachogram conditioned to the knowledge of respiration. The information transfer and cross information from respiration to HRV were assessed as the transfer and cross-entropy, both measures of cardiorespiratory coupling. These information-theoretic measures identified significant nonlinearities in the cardiorespiratory time series. Additionally, it was shown that, although mental stress is related to a reduction in vagal activity, no difference in cardiorespiratory coupling was found when several mental states (rest, mental stress, sustained attention) are compared. However, the self-entropy of HRV conditioned to respiration was very informative to study the predictability of RR interval series during mental tasks, and showed higher predictability during mental arithmetic compared to sustained attention or rest.
Widjaja et al. (Thu,) conducted a observational in Healthy (n=40). Mental arithmetic and sustained attention tasks vs. Resting baseline was evaluated on Conditional self-entropy of HRV given respiration (SRR|RSP) (p=<0.0001). Mental arithmetic significantly increased the conditional self-entropy of heart rate variability given respiration compared to sustained attention or rest, indicating higher cardiac predictability.