FEATURES OF THE CNS FUNCTIONAL STATE DYNAMICS DURING  COGNITIVE-MOTOR TRAINING IN A VIRTUAL ENVIRONMENT

Kotov-Smolenskiy A.; Sokolova L.; Zimin A.; Klochkov A.; Suponeva N.; Piradov M.

doi:10.14529/hsm230204

A. Kotov-Smolenskiy Research Center of Neurology, Moscow, Russia https://orcid.org/0000-0002-2738-9939 a.kotov.smolenskiy@gmail.com
L. Sokolova Institute of Developmental Physiology of Russian Academy of Education, Moscow, Russia https://orcid.org/0000-0003-2211-049X sluida@yandex.ru
A. Zimin Research Center of Neurology, Moscow, Russia https://orcid.org/0000-0002-9226-2870 leha-zimin@inbox.ru
A. Klochkov Research Center of Neurology, Moscow https://orcid.org/0000-0002-4730-3338 anton.s.klochkov@gamil.com
N. Suponeva Research Center of Neurology, Moscow, Russia https://orcid.org/0000-0003-3956-6362 nasu2709@mail.ru
M. Piradov Research Center of Neurology, Moscow, Russia https://orcid.org/0000-0002-6338-0392 center@neurology.ru

DOI: https://doi.org/10.14529/hsm230204

Keywords: sensorimotor reactions, virtual reality, functional state, central nervous system, typological characteristics, cognitive-motor training

Abstract

Aim. The paper was aimed at identifying changes in the functional state of the central nervous system after cognitive-motor training (CMT) in a virtual environment. Materials and methods. A comparative study involved 50 healthy volunteers (19 men and 31 women) aged 24 to 56 years. The functional states of the central nervous system before and after CMT in VR were determined by registering a simple visual-motor reaction. Results. Based on the average simple visual-motor reaction time (AMRT), 2 study groups were formed, namely 'pronounced mobility' (PM, AMRT 180–215 ms) and 'pronounced inertia' (PI, AMRT 218–277 ms). After CMT in VR, there was a significant decrease in the average reaction time (p = 0.002), the level of CNS activation (p = 0.005), and a decrease in the stability of the response (p = 0.0001) in the pronounced mobility group. Analysis of the efficacy of CMT in VR showed a statistically significant increase (in points) between the first and second training sessions both in the PM (p = 0.001) and PI groups (p = 0.003); however, in the PI group this increase was higher compared to the PM group (36.4 % and 21.5 %, respectively). Conclusions. The results obtained during the experiment indicate the need to take into account the typological characteristics of the nervous system when using CMT in a virtual environment.

Author Biographies

A. Kotov-Smolenskiy , Research Center of Neurology, Moscow, Russia

Junior Researcher, Department of Neurorehabilitation and Physiotherapy, Research Center of Neurology, Moscow, Russia.

L. Sokolova , Institute of Developmental Physiology of Russian Academy of Education, Moscow, Russia

Doctor of Biological Sciences, Professor, Deputy Director for Research, Institute of Developmental Physiology of the Russian Academy of Education, Moscow, Russia.

A. Zimin , Research Center of Neurology, Moscow, Russia

Candidate of Pedagogical Sciences, Researcher, Department of Neurorehabilitation and Physiotherapy, Research Center of Neurology, Moscow, Russia.

A. Klochkov , Research Center of Neurology, Moscow

Candidate of Medical Sciences, Senior Researcher, Department of Neurorehabilitation and Physiotherapy, Research Center of Neurology, Moscow, Russia.

N. Suponeva , Research Center of Neurology, Moscow, Russia

Corresponding Member of the Russian Academy of Sciences, Doctor of Medical Sciences, Chief Researcher, Department of Neurorehabilitation and Physiotherapy, Research Center of Neurology, Moscow, Russia.

M. Piradov , Research Center of Neurology, Moscow, Russia

Academician of the Russian Academy of Sciences, Doctor of Medical Sciences, Director, Research Center of Neurology, Moscow, Russia.

References

1. Байгужин, П.А. Функциональное состояние центральной нервной системы при воздействии слабоструктурированной информации / П.А. Байгужин, Д.З. Шибкова // Человек. Спорт. Медицина. – 2017. – Т. 17, № 4. – С. 32–42.
2. Влияние раздражения слухового анализатора на параметры сердечно-сосудистой системы с позиций теории хаоса-самоорганизации / Т.В. Гавриленко, Т.Ю. Поскина, Д.А. Сидоренко и др. // Вестник новых мед. технологий: электрон. журнал. – 2013. – № 1. – С. 3.
3. Матохина, А.А. Исследование влияния классической музыки на функциональное состояние людей различных профессий / А.А. Матохина // Электрон. науч.-образоват. журнал ВГСПУ «Грани познания». – 2013. – № 2 (22). – С. 69–72.
4. Матохина, А.А. Оценка изменения функционального состояния подростков под воздействием музыки различных стилей в условиях профильного летнего лагеря / А.А. Матохина // Науч. обозрение. Биол. науки. – 2015. – № 1. – С. 109.
5. Некоторые психофизиологические особенности здоровья студентов на Cевере и возможность их коррекции / Е.Н. Николаева, О.Н. Колосова, А.П. Яковлева, Н.В. Мельгуй // Вестник СВФУ им. М.К. Аммосова. – 2012. – Т. 9, № 4. – С. 25–32.
6. Нехорошкова, А.Н. Сенсомоторные реакции в психофизиологических исследованиях (обзор) / А.Н. Нехорошкова, А.В. Грибанов, И.С. Депутат // Журнал мед.-биол. исследований. – 2015. – № 1. – С. 38–48.
7. Николаева Е.Н. Физиологическая оценка состояния центральной нервной системы студентов в период учебной деятельности / Е.Н. Николаева, О.Н. Колосова // Наука и образование. – 2017. – № 3. – С. 96–100.
8. Особенности психофизиологической адаптации студентов первого курса к условиям обучения в вузе / Т.Н. Cеменкова, М.Г. Леухова, С.Л. Лесникова и др. // Вестник КемГУ. – 2010. – № 2 (42). – С. 47–52.
9. Шутова, Н.В. Структурно-динамический подход к использованию музыки в воздействии на личность / Н.В. Шутова // Вестник С.-Петерб. ун-та. Социология. – 2009. – № 3–2. – С. 282–288.
10. Шутова, С.В. Сенсомоторные реакции как характеристика функционального состояния ЦНС / С.В. Шутова, И.В. Муравьева // Вестник ТГУ. – 2013. – № 5–3. – С. 2831–2840.
11. A Psychophysical Experiment Regarding Components of the Plausibility Illusion / R. Skarbez, S. Neyret, FP. Brooks, M. Slater, MC. Whitton. // IEEE Transactions on Visualisation Computer Graphics. – 2017. – № 23 (4). – P. 1369–1378.
12. Cognitive and cognitive-motor interventions affecting physical functioning: a systematic review / G. Pichierri, P. Wolf, K. Murer, ED. de Bruin // BMC Geriatrics. – 2011. – No. 11:29. – P. 1–19.
13. Effects of physical-cognitive dual task training on executive function and gait performance in older adults: a randomized controlled trial / S. Falbo, G. Condello, L. Capranica et al. // Biomed Research International. – 2016. – P. 1–12.
14. Effects of exergames and cognitive-motor dual-task training on cognitive, physical and dual-task functions in cognitively healthy older adults: An overview / M. Gallou-Guyot, S. Mandigout, L. Bherer, A. Perrochon // Ageing Research Review. – 2020. – No. 101135. – P. 1–12.
15. Exercise and children's cognition: The role of exercise characteristics and a place for metacognition / P.D. Tomporowski, B. McCullick, D.M. Pendleton, C. Pesce // Journal of Sport Health Science. – 2015. – № 4. – P. 47–55.
16. Kadam, P. Sample size calculation / P. Kadam, S. Bhalerao // International Journal of Ayurveda Research. – 2010. – No. 1 (1) – P. 55–57.
17. Obesity, eating behavior and physical activity during COVID-19 lockdown: A study of UK adults / E. Robinson, E. Boyland, A. Chisholm et al. // Appetite. – 2020. – No. 104853. – P. 1–7.
18. Santner A. Partly randomised, controlled study in children aged 6–10 years to investigate motor and cognitive effects of a 9-week coordination training intervention with concurrent mental tasks / A. Santner, M. Kopp, P. Federolf // BMJ Open. – 2018. – e021026. – P. 1–9.

References on translit

1. Baiguzhin P.A., Shibkova D.Z. Functional Condition of the Central Nervous System under the Influence of Weakly Structured Information. Human. Sport. Medicine, 2017, vol. 17, no. S, pp. 32–42. (in Russ.) DOI: 10.14529/hsm170504
2. Gavrilenko T.V., Poskina T.Yu., Sidorenko D.A. et al. [The Influence of Stimulation Acoustic Analyzer on the Parameters of Cardiovascular System of Human According the Theory of Chaos-Selforganization]. Vestnik novyh medicinskih tekhnologiy: elektronniy zhurnal [Journal of New Medical Technologies], 2013, no. 1, p. 3. (in Russ.)
3. Matohina A.A. [Research of Influence of Classical Music on the Functional Condition of People of Different Professions]. Elektronniy nauchno-obrazovatel'niy zhurnal VGSPU [Electronic Scientific and Educational Journal VGSPU Edges of Knowledge], 2013, no. 2 (22), pp. 69–72. (in Russ.)
4. Matohina A.A. [Estimation of Changes in the Teenagers Functional Status Exposed Different Music Styles in the Profile Summer Camp]. Nauchnoe obozrenie. Biologicheskie nauki [Scientific Review. Biological Science], 2015, no. 1, p. 109. (in Russ.)
5. Nikolaeva E.N., Kolosova O.N., Yakovleva A.P., Mel'guy N.V. [Some Psychophysiological Features of Students’ Health in the North and Possibility of it’s Correction]. Vestnik SVFU im. M.K. Ammosova [Bulletin of North-Eastern Federal University], 2012, vol. 9, no. 4, pp. 25–32. (in Russ.)
6. Nekhoroshkova A.N., Gribanov A.V., Deputat I.S. [Sensomotor Reactions in Psychophysiological Studies (Review)]. Zhurnal mediko-biologicheskih issledovaniy [Journal of Medical and Biological Research], 2015, no. 1, pp. 38–48. (in Russ.) DOI: 10.17238/issn2308-3174.2015.1.38
7. Nikolaeva E.N., Kolosova O.N. [Physiological Estimation of the State Central Nervous System of Students in the Period of Education Activity]. Nauka i obrazovanie [Science and Education], 2017, no. 3, pp. 96–100. (in Russ.)
8. Semenkova T.N., Leuhova M.G., Lesnikova S.L. et al. [Peculiarities of the First-Year Students’ Psycho-Physiological Adaptation to Educational Conditions in the University]. Vestnik KemGMU [Bulletin of KemSMU], 2020, no. 2 (42), pp. 47–52. (in Russ.)
9. Shutova N.V. [Structural-Dynamic Approach to the Use of Music in Influencing a Personality]. Vestnik Sankt-Peterburgskogo universiteta. Sociologiya [Bulletin of Saint-Petersburg University. Sociology], 2009, no. 3–2, pp. 282–288. (in Russ.)
10. Shutova N.V., Murav'eva I.V. [Sensorimotor Reactions as a Characteristic of the Functional State of the Central Nervous System]. Vestnik TGU [Bulletin of TSU], 2013, no. 5–3, pp. 2831–2840. (in Russ.)
11. Skarbez R., Neyret S., Brooks F.P. et al. A Psychophysical Experiment Regarding Components of the Plausibility Illusion. IEEE Transactions on Visualisation Computer Graphics, 2017, no. 23 (4), pp. 1369–1378. DOI: 10.1109/TVCG.2017.2657158
12. Pichierri G., Wolf P., Murer K., de Bruin E.D. Cognitive and Cognitive-Motor Interventions Affecting Physical Functioning: a Systematic Review. BMC Geriatrics, 2011, no. 11:29, pp. 1–19. DOI: 10.1186/1471-2318-11-29
13. Falbo S., Condello G., Capranica L. et al. Effects of Physical-Cognitive Dual Task Training on Executive Function and Gait Performance in Older Adults: a Randomized Controlled Trial. Biomed Research International, 2016, pp. 1–12. DOI: 10.1155/2016/5812092
14. Gallou-Guyot M., Mandigout S., Bherer L., Perrochon A. Effects of Exergames and Cognitive-Motor Dual-Task Training on Cognitive, Physical and Dual-Task Functions in Cognitively Healthy Older Adults: An Overview. Ageing Research Review, 2020, no. 101135, pp. 1–12. DOI: 10.1016/j.arr.2020.101135
15. Tomporowski P.D., McCullick B., Pendleton D.M., Pesce C. Exercise and Children's Cognition: The Role of Exercise Characteristics and a Place for Metacognition. Journal of Sport Health Science, 2015, no. 4, pp. 47–55. DOI: 10.1016/j.jshs.2014.09.003
16. Kadam P., Bhalerao S. Sample Size Calculation. International Journal of Ayurveda Research, 2010, no. 1 (1), pp. 55–57. DOI: 10.4103/0974-7788.59946
17. Robinson E., Boyland E., Chisholm A. et al. Obesity, Eating Behavior and Physical Activity During COVID-19 Lockdown: A Study of UK Adults. Appetite, 2020, no. 104853, pp. 1–7. DOI: 10.1016/j.appet.2020.104853
18. Santner A., Kopp M., Federolf P. Partly Randomised, Controlled Study in Children Aged 6–10 Years to Investigate Motor and Cognitive Effects of a 9-Week Coordination Training Intervention with Concurrent Mental Tasks. BMJ Open, 2018, e021026, pp. 1–9. DOI: 10.1136/bmjopen-2017-021026