INDICATORS OF OCULOMOTOR ACTIVITY AND CEREBRAL HEMODYNAMICS IN STUDENTS WITH DIFFERENT TYPES OF AUTONOMIC NERVOUS SYSTEM REACTIVITY IN COGNITIVE TASK PERFORMANCE

Abstract

Background. The current stage of human development is characterized by high dynamics of knowledge accumulation, acceleration of social and technical development. The need to study psychophysiological characteristics of cognitive activity with time limitation increases under these conditions. Time limit can make activity more efficient or less effective. Purpose. To study indicators of oculomotor activity and cerebral hemodynamics of students with different types of autonomic nervous system reactivity during cognitive activity. Materials and methods. The study involved 110 students of the Northern (Arctic) Federal University named after M.V. Lomonosov took part in the study (average age of students 19.0±0.5 years). To identify specific features of ensuring cognitive activity in different time conditions, the type of reactivity of the autonomic nervous system (ANS) was determined in the subjects using the VNS-Spectrum computer complex (Neurosoft). Students performed cognitive tasks without and with time limits. At the same time, eye movements were recorded using the stationary binocular eye tracking system iView X™ RED, 500 Hz, and cerebral hemodynamic parameters were recorded using the Reo-Spectrum 2 hardware and software complex (Neurosoft). The efficiency of cognitive activity of the participants was also assessed. Statistical analysis was performed using the application package IBM SPSS Statistics 22.0. Results. Students with different types of reactivity of the autonomic nervous system had different effectiveness of cognitive activity without time limitation and with time limitation. Students with a sympathotonic type of autonomic reactivity had a higher result in processing visual information under time pressure. These students had more stable statistical relationships between the parameters of oculomotor activity and cerebral hemodynamics. Representatives with a vagotonic type of reactivity of the autonomic nervous system had the lowest rates of success in cognitive activity. These students showed less stable structure of statistical relationships between oculomotor activity and cerebral hemodynamics Conclusion. General and specific changes in cerebral hemodynamics and oculomotor activity, features of the effectiveness of cognitive activity under time constraints in young people with different types of autonomic nervous system reactivity were identified.