Autonomic nervous pattern analysis of sleep deprivation

The cumulative long-term effects of sleep deprivation (SD) have been associated with a wide range of deleterious health consequences. In order to detect SD with machine learning methods, this paper analyzed the autonomic nervous patterns (ANP) of the normal sleep (NS) populations and those of the acute sleep deprivation (ASD) individuals in the morning. Besides, we also analyzed the ANP of people before sleep deprivation (BSD) and during sleep deprivation (DSD) at night. Electrocardiogram (ECG) data were acquired from 120 subjects. Twentyfive heart rate variability (HRV) features were extracted for statistical analysis and pattern recognition. Sequential backward selection method was applied to select the critical feature subset of SD pattern recognition. Three classical classifiers were trained with BSD and DSD samples, and their performance were validated and compared with each other, in order to obtain the best parameters of the SD recognition models. The results of statistical analysis showed that the ANP of NS and ASD groups were significantly different. Besides, the ANP of NS and ASD showed significant within-group sex difference. The results of SD pattern recognition showed that, with 3-dimension critical HRV features of the night ECG data, support vector machine classifier obtained validation accuracies of 76.92% for males and 83.02% for females. It is worth noting that, the low-frequency power of RR interval series increases with the increase of SD time, showing that SD leads to persistent activation of sympathetic nervous system.

Automated summary

This study analyzed the autonomic nervous patterns during sleep deprivation and used machine learning methods to detect its effects. The results showed significant physiological and heart rate variability changes during sleep deprivation, with differences observed between genders.