HEART RATE VARIABILITY METHOD IN THE STUDY OF COGNITIVE FUNCTIONS AND MILITARY OCCUPATIONAL ADAPTATION



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Abstract

The aim of our work is the theoretical substantiation of the application of heart rate variability method (HRV) in the study of cognitive functions and functional status. We consider the application of various methods of functional diagnostics in the professional selection, screening of the functional status and the study of cognitive functions among servicemen and specialists of the law enforcement agencies. We write about the physiological mechanisms of the functional status and cognitive functions in the norm, stress, pathology. We analyze the studies of fractal, stochastic parameters of HRV. We propose to include electrophysiological methods (HRV) in cross-validation studies of psychodiagnostics.

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About the authors

K I Pavlov

N.G. Kuznetsov Naval Academy

V N Mukhin

Institute of Experimental Medicine

A V Syrtsev

N.G. Kuznetsov Naval Academy

A N Archimuk

N.G. Kuznetsov Naval Academy

V N Sysoev

S.M. Kirov Military Medical Academy

M I Petrenko

N.G. Kuznetsov Naval Academy

References

  1. Зараковский Г.М., Булка А.П., Сугоняев К.В. Психофизиологические механизмы, лежащие в основе деятельности // Основы военного профессионального психологического отбора: учебное пособие / утв. нач. Главного организационно-мобилизационного управления Генерального штаба Вооруженных Сил Российской Федерации. М., 2005. С. 91-230. [Zarakovsky G.M., Bulka A.P., Sugonyaev K.V. Psychophysiological mechanisms underlying the activity, Fundamentals of military professional psychological selection: training manual / The main organizational-mobilization department of the General Staff of the Armed Forces of the Russian Federation. Moscow, 2005. P. 91-230.]
  2. Sysoev V.N., Ganapolsky V.P., Myasnikov A.A., Blaginin A.A., Silnikov M.V., Shabanov P.D. Physiology of military labor: textbook. St. Petersburg: Lubavitch, 2011. 456 p.
  3. Professional selection of ship specialists of the Navy for psycho-physiological and psychological indicators: methodical instructions. Moscow: Military Publishing, 1984. 36 p.
  4. Шостак В.И., Зотов М.В. Взаимосвязь теоретических и практических аспектов военной психофизиологии // Психофизиология профессиональной деятельности человека. СПб.: Военно-медицинская академия, 2005. С. 76-77. [Shostak V.I., Zotov M.V. Interrelation of theoretical and practical aspects of military psychophysiology, Psychophysiology of human professional activity. St. Petersburg. Military-Мedical Academy, 2005. P. 76-77.]
  5. Чермянин С.В., Корзунин В.А., Сысоев В.Н., Васильков А.М. Обоснование роли и места профессионально-психологической экспертизы в системе психофизиологического обеспечения военнослужащих МО РФ // Психофизиология профессиональной деятельности человека. СПб.: Военно-медицинская академия, 2005. С. 71-75. [Chermyanin S.V., Korzunin V.A., Sysoev V.N., Vasilkov A.M. Substantiation of the role and place of professional psychological examination in the system of psycho-physiological support of servicemen of the Ministry of Defense of the Russian Federation, Psychophysiology of human professional activity. St. Petersburg. Military-Мedical Academy, 2005. P. 71-75.]
  6. Kozarenko O.P., Ponomareva I.P. Psychophysiological aspects of piloted flights to space // Aviakosm Ekolog. Med. 2008. Vol. 42, N 6. P. 84-91.
  7. Bodrov V.A., Malkin V.B., Pokrovsky B.L., Shpachenko D.I. Psychological selection of pilots and cosmonauts // Problems of space biology. Vol. 48. M.: Nauka, 1984.
  8. Машин В.А. Фактоpный анализ cпектpа cеpдечного pитма // Биофизика. 2011. Т. 56, № 2. С. 328-341. [Mashin V.A. Factor analysis of the spectrum of the secondary pythm, Biophysics. 2011. Vol. 56, N 2. P. 328-341.]
  9. Scerbo M.W., Freeman F.G., Mikulka P.J., Parasuraman R., Nocero F.D., Prinzel L.J. The efficacy of psychophysiological measures for implementing adaptive technology / NASA/TP-2001-211018. Hampton: NASA Langley Research Center, 2001.
  10. Prinzel L.J. 3rd., Parasuraman R., Freeman F.G., Scerbo M.W., Mikulka P.J., Pope A.T. Three experiments examining the use of electroencephalogram, event-related potentials, and heart-rate variability for real-time human-centered adaptive automation design. NASA/TP-2003-212442. Hampton: NASA Langley Research Center, 2003.
  11. Баевский Р.М., Кириллов О.И., Клецкин С.З. Математический анализ изменений сердечного ритма при стрессе. М.: Наука, 1984. 236 с. [Bayevsky R.M., Kirillov O.I., Kletskin S.Z. Mathematical analysis of heart rate changes under stress. Moscow: Nauka, 1984. 236 p.]
  12. Bayevsky R.M., Ivanov G.G., Chireikin L.V. Analysis of heart rate variability when using various electrocardiographic systems (methodological recommendations) // Vestnik aritmologii. 2001. N 24. P. 65-87.
  13. Баевский Р.М. Анализ вариабельности сердечного ритма: история и философия, теория и практика // Клиническая информатика и телемедицина. 2004. № 1. С. 54-64. [Bayevsky R.M. Analysis of heart rate variability: history and philosophy, theory and practice, Clinical Informatics and Telemedicine. 2004. N 1. P. 54-64.]
  14. Мухин В.Н. Частотная структура вариабельности сердечного ритма // Вестник Российской военно-медицинской академии. 2008. № S2-23 (23). С. 492-493. [Mukhin V.N. Frequency structure of heart rate variability, Bulletin of the Russian Military Medical Academy. 2008. N S2-23 (23). P. 492-493.]
  15. Gundel A., Drescher J., Spatenko Y.A., Polyakov V.V. Heart period and heart period variability during sleep on the MIR space station // J. Sleep Res. 1999. Vol. 8, N 1. P. 37-43.
  16. Михайлов В.М. Вариабельность ритма сердца. Опыт практического применения метода. Иваново, 2000. 200 с. [Mikhailov V.M. The variability of the rhythm of the heart. Experience of practical application of the method. Ivanovo, 2000. 200 p.]
  17. Машин В.А. Зависимость показателей вариабельности сердечного ритма от средних величин R-R интервалов // Физиол. журн. им. И. М. Сеченова. 2002. Т. 88, № 7. С. 851-855. [Mashin V.A. Dependence of heart rate variability indices on mean values of R-R intervals. Sechenov’s Fiziol. Journal. 2002. Vol. 88, N 7. P. 851-855.]
  18. Mukhin V.N. Frequency structure of heart rate variability. Статья в открытом архиве № 1005.0776v2 06.05.2010. https://arxiv.org/abs/1005.0776v2.
  19. Каменская В.Г., Музалевская Н.И., Зверева С.В., Томанов Л.В. Изменение кардиоритма и его стохастических параметров у первоклассников с нормальным нервно-психическим развитием у детей с речевыми нарушениями в ситуации интеллектуальной деятельности // Журн. высшей нервной деятельности. 2002. Т. 52, № 2. С. 38-44. [Kamenskaya V.G., Muzalevskaya N.I., Zvereva S.V., Tomanov L.V. A change in cardiorhythm and its stochastic parameters in first-graders with normal neuropsychic development in children with speech disorders in the situation of intellectual activity. Higher nervous activity. 2002. Vol. 52, N 2. P. 38-44.]
  20. Kamath C. Analysis of heart rate variability signal during meditation using deterministic-chaotic quantifiers // J. Med. Engl. Technol. 2013. Vol. 37, N 7. P. 436-448.
  21. Doret M., Spilka J., Chudáček V., Gonçalves P., Abry P. Fractal Analysis and Hurst Parameter for Intrapartum Fetal Heart Rate Variability Analysis: A Versatile Alternative to Frequency Bands and LF/HF Ratio // PLoS One. 2015. Vol. 10, N 8. doi: 10.1371/journal.pone.0136661.
  22. Krstacic G., Parati G., Gamberger D., Castiglioni P., Krstacic A., Steiner R. Heart rate variability and nonlinear dynamic analysis in patients with stress-induced cardiomyopathy // Med. Biol. Engl. Comput. 2012. Vol. 50, N 10. P. 1037-1046.
  23. Vorobyov K.P. Theoretical bases of the use of parameters of heart rate variability for the evaluation of the functional state of the organism // Genital pathology is pathological fiziologiya. 2011. Vol. 6, N 4. P. 5-17.
  24. Баевский Р.М., Лучицкая Е.С., Фунтова И.И., Черникова А.Г. Исследования вегетативной регуляции кровообращения в условиях длительного космического полета // Физиология человека. 2013. Т. 39, № 5. С. 42-52. [Bayevsky R.M., Luchitskaya E.S., Funtova I.I., Chernikova A.G. Research of vegetative regulation of blood circulation in conditions of long space flight, Human Physiology. 2013. Vol. 39, N 5. P. 42-52.]
  25. Бреус Т.К., Баевский Р.М., Фунтова И.И., Никулина Г.А., Алексеев Е.В., Черникова А.Г. Влияние возмущений геомагнитного поля на реакцию адаптивного стремма у космонавтов // Космические исследования. 2008. Т. 46, № 4. С. 348-383. [Breus T.K., Baevsky R.M., Funtova I.I., Nikulina G.A., Alekseev E.V., Chernikova A.G. Influence of Geomagnetic Field Perturbations on the Adaptive Stem Response in Astronauts. Space Research. 2008. Vol. 46, N 4. P. 348-383.]
  26. Stoilova I., Yanev T. Analysis of heart rate variability during short-term space flight // C R Acad Bulg Sci. 1997. Vol. 50, N 7-8. P. 17-20.
  27. Malliani A., Lombardi F., Pagani M. Power spectrum analysis of heart rate variability: a tool to explore neural regulatory mechanisms // Brit. Heart J. 1994. Vol. 71, N 1. P. 1-2.
  28. Vandeput S., Widjaja D., Aubert A.E., Van Huffel S. Adaptation of autonomic heart rate regulation in astronauts after spaceflight // Med. Sci. Monit. 2013. Vol. 19. P. 9-17.
  29. Yamamoto N., Otsuka K., Kubo Y., Hayashi M., Mizuno K., Ohshima H., Mukai C. Effects of long-term microgravity exposure in space on circadian rhythms of heart rate variability // Chronobiol. Int. 2015. Vol. 32, N 3. P. 327-340.
  30. Баевский Р.М., Берсенев Е.Ю., Орлов О.И., Ушаков И.Б., Черникова А.Г. Проблема оценки адаптационных возможностей человека в авиакосмической физиологии // Российский физиологический журнал им. И.М. Сеченова. 2012. Т. 98, № 1. С. 95-107. [Bayevsky R.M., Bersenev E.Yu., Orlov O.I., Ushakov I.B., Chernikova A.G. The problem of assessing the adaptive capabilities of man in aerospace physiology, Sechenov’s Russian Journal of Physiology. 2012. Vol. 98, N 1. P. 95-107.]
  31. Зипова О.М., Разсолов Н.А., Каблукова А.З., Лучицкая Е.С., Баевский Р.М. Донозологическая диагностика в системе врачебно-летной экспертизы // Диагностика и лечение нарушений регуляции сердечно-сосудистой системы. М., 2009. С. 253-279. [Zipova O.M., Rassolov N.A., Kablukova A.Z., Luchitskaya Ye.S., Bayevsky R.М. Pre-nosological diagnosis in the medical-flight examination system, Diagnosis and treatment of cardiovascular system disorders. Moscow, 2009. P. 253-279.]
  32. Pukhnyak D.V., Mingalev A.N. Assessment of the level of stress resistance of parachutists // International Journal of Experimental Education. 2011. N 3. P. 81-83.
  33. Delgado-Moreno R., Robles-Pérez J.J., Clemente-Suárez V.J. Combat Stress Decreases Memory of Warfighters in Action // J. Med. Syst. 2017. Vol. 41, N 8. P. 124.
  34. Minassian A., Maihofer A.X., Baker D.G., Nievergelt C.M., Geyer M.A., Risbrough V.B. Association of Predeployment Heart Rate Variability With Risk of Postdeployment Posttraumatic Stress Disorder in Active-Duty Marines // JAMA Psychiatry. 2015. Vol. 72, N 10. P. 979-986.
  35. Shah A.J., Lampert R., Goldberg J., Veledar E., Bremner J.D., Vaccarino V. Posttraumatic stress disorder and impaired autonomic modulation in male twins // Biol. Psychiatry. 2013. Vol. 73, N 11. P. 1103-1110.
  36. Bernardi L., Valle F., Coco M., Calciati A., Sleight P. Physical activity influences heart rate variability and very-low-frequency components in Holter electrocardiograms // Cardiovasc Res. 1996. Vol. 32. No 2. P. 234-237.
  37. Tan G., Fink B., Dao T.K., Hebert R., Farmer L.S., Sanders A., Pastorek N., Gevirtz R. Associations among pain, PTSD, mTBI, and heart rate variability in veterans of Operation Enduring and Iraqi Freedom: a pilot study // Pain Med. 2009. Vol. 10, N 7. P. 1237-1245.
  38. Ginsberg J.P., Berry M.E., Powell D.A. Cardiac coherence and posttraumatic stress disorder in combat veterans // Altern Ther Health Med. 2010. Vol. 16, N 4. P. 52-60.
  39. Сидоренко Г.И., Комиссарова С.М. Оценка объективных критериев фаз стрессовой реакции при разных уровнях адаптации // Кардиоваскулярная терапия и профилактика. 2008. Т. 7, № 1. С. 91-97. [Sidorenko G.I., Komissarova S.М. Evaluation of objective criteria for the phases of stress reaction at different levels of adaptation, Cardiovascular therapy and prevention. 2008. Vol. 7, N 1. P. 91-97.]
  40. Gazzellini S., Dettori M., Amadori F., Paoli B., Napolitano A., Mancini F., Ottaviani C. Association between Attention and Heart Rate Fluctuations in Pathological Worriers // Front Hum Neurosci. 2016. Vol. 10. P. 648.
  41. Sakaki M., Yoo H.J., Nga L., Lee T.H., Thayer J.F., Mather M. Heart rate variability is associated with amygdala functional connectivity with MPFC across younger and older adults // Neuroimage. 2016. Vol. 139. P. 44-52.
  42. Umetani K., Singer D.H., McCraty R., Atkinson M. Twenty-four hour time domain heart rate variability and heart rate: relations to age and gender over nine decades // J. Am. Coll Cardiol. 1998. Vol. 31, N 3. P. 593-601.
  43. McCraty R., Atkinson M., Tomasino D., Bradley R.T. The coherent heart: heart-brain interactions, psychophysiological coherence, and the emergence of system-wide order. Boulder Creek, CA: Institute of Heartmath, 2009. 300 p.
  44. Critchley H.D., Corfield D.R., Chandler M.P., Mathias C.J., Dolan R.J. Cerebral correlates of autonomic cardiovascular arousal: a functional neuroimaging investigation in humans // J. Physiol. 2000. Vol. 523, N 1. P. 259-270.
  45. McCraty R., Shaffer F. Heart Rate Variability: New Perspectives on Physiological Mechanisms, Assessment of Self-regulatory Capacity, and Health risk // Glob. Adv. Health Med. 2015. Vol. 4, N 1. P. 46-61.
  46. Armour J.A., Ardell J.L. Peripheral autonomic neuronal interactions in cardiac regulation // Neurocardiology. New York: Oxford University Press, 1994. P. 219-244.
  47. Kukanova B., Mravec B. Complex intracardiac nervous system // Bratisl Lek Listy. 2006. Vol. 107, N 3. P. 45-51.
  48. Мухин В.Н., Яковлев Н.М. Связь вариабельности сердечного ритма с психической работоспособностью // Российский физиологический журнал им. И.М. Сеченова. 2011. Т. 97, № 8. С. 838-842. [Mukhin V.N., Yakovlev N.M. Association between level of intelligence and heart rate variability, Sechenov’s Russian Journal of Physiology. 2011. Vol. 97, N 8. P. 838-842.]
  49. Мухин В.Н., Яковлев Н.М., Клименко В.М. Связь вариабельности сердечного ритма с уровнем активации лобной коры // Российский физиологический журнал им. И.М. Сеченова. 2011. Т. 97, № 11. С. 1281-1288. [Mukhin V.N., Yakovlev N.M., Klimenko V.М. Association of heart rate variability and frontal cortex activation, Sechenov’s Russian Journal of Physiology. 2011. Vol. 97, N 11. P. 1281-1288.]
  50. Мухин В.Н., Клименко В.М. Состояние мобилизационной готовности и частотная структура вариабельности сердечного ритма // Российский физиологический журнал им. И.М. Сеченова. 2009. Т. 95, № 4. С. 367-375. [Mukhin V.N., Klimenko V.M. Vobilisation condition and the frequency structure of the heart rhythm variability, Sechenov’s Russian Journal of Physiology. 2009. Vol. 95, N 4. P. 367-375.]
  51. Mather M., Joo Yoo H., Clewett D.V., Lee T.H., Greening S.G., Ponzio A., Min J., Thayer J.F. Higher locus coeruleus MRI contrast is associated with lower parasympathetic influence over heart rate variability // Neuroimage. 2017. Vol. 150. P. 329-335.
  52. Lacey B.C., Lacey J.I., Obrist P.A., Black A.H., Brener J., Dicara L.V. Studies of heart rate and other bodily processes in sensorimotor behavior: Cardiovascular psychophysiology: current issues in response mechanisms, biofeedback, and methodology. Chicago: Aldine, 1974. P. 538-564.
  53. Wölk C., Velden M. Revision of the baroreceptor hypothesis on the basis of the new cardiac cycle effect: Bond N.W., Siddle D.A.T. // Psychobiology: issues and applications. Amsterdam: Elsevier Science Publishers B.V, 1989. P. 371-379.
  54. Whitehurst L.N., Cellini N., McDevitt E.A., Duggan K.A., Mednick S.C. Autonomic activity during sleep predicts memory consolidation in humans // Proc. Natl. Acad. Sci USA. 2016. Vol. 113, N 26. P. 7272-2277.
  55. Bär K.J., Herbsleb M., Schumann A., de la Cruz F., Gabriel H.W., Wagner G. Hippocampal-Brainstem Connectivity Associated with Vagal Modulation after an Intense Exercise Intervention in Healthy Men // Front Neurosci. 2016. Vol. 10. P. 145.
  56. Luque-Casado A., Perales J.C., Cárdenas D., Sanabria D. Heart rate variability and cognitive processing: The autonomic response to task demands // Biol. Psychol. 2016. Vol. 113. P. 83-90.

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