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Is heart rate variability related to cognitive performance in visuospatial working memory?

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In the current study, we investigated the relation between cognitive performance and heart rate variability in visuospatial working memory. We used a visuospatial working memory paradigm involving simultaneous encoding, maintenance, active manipulation and retrieval to simulate routine daily activities. Subjects performed the visuospatial working memory paradigm which had 3 memory loads and simultaneous ECG recording was acquired for measuring heart rate variability. Based on the performance in the visuospatial working memory task, subjects were segregated into two groups: Good performers and poor performers. Two major findings emerged in this study. First, the heart rate variability decreased with an increase in the working memory load. Second, good performers had relatively higher heart rate variability compared to poor performers while performing the visuospatial working memory task. Our results highlighted the influence of cognitive performance on heart rate variability. In summary, the current study indicates that the heart rate variability during the visuospatial working memory task could predict the qualitative differences in the cognitive performance between the individuals.

PeerJ

Muthukrishnan Suriya-Prakash Gurja John-Preetham Ratna Sharma

Title: Is heart rate variability related to cognitive performance in visuospatial working memory?

Description:

In the current study, we investigated the relation between cognitive performance and heart rate variability in visuospatial working memory.

We used a visuospatial working memory paradigm involving simultaneous encoding, maintenance, active manipulation and retrieval to simulate routine daily activities.

Subjects performed the visuospatial working memory paradigm which had 3 memory loads and simultaneous ECG recording was acquired for measuring heart rate variability.

Based on the performance in the visuospatial working memory task, subjects were segregated into two groups: Good performers and poor performers.

Two major findings emerged in this study.

First, the heart rate variability decreased with an increase in the working memory load.

Second, good performers had relatively higher heart rate variability compared to poor performers while performing the visuospatial working memory task.

Our results highlighted the influence of cognitive performance on heart rate variability.

In summary, the current study indicates that the heart rate variability during the visuospatial working memory task could predict the qualitative differences in the cognitive performance between the individuals.

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