Assessment of the physiological state during gait with metrorhythmic stimulations

Mańka, Anna; Romaniszyn-Kania, Patrycja; Bugdol, Monika N.; Nowakowska-Lipiec, Katarzyna; Michnik, Robert; Mitas, Andrzej

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Tytuł artykułu

Assessment of the physiological state during gait with metrorhythmic stimulations

Autorzy

Mańka Anna , Romaniszyn-Kania Patrycja , Bugdol Monika N. , Nowakowska-Lipiec Katarzyna , Michnik Robert , Mitas Andrzej

Treść / Zawartość

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Warianty tytułu

Ocena stanu fizjologicznego w czasie chodu z pobudzeniami metrorytmicznymi

Języki publikacji

Abstrakty

The study aimed to examine the influence of providing information about reacting to the heard musical stimuli while treadmill walking on physiological signals of participants. The study group consisted of 30 adults: group 1 was not informed how to react, group 2 received an instruction to adjust the frequency of steps to the music. The gait was carried out on a Zebris FDM-S treadmill for various sound stimuli using the Empatica E4 band to acquire electrodermal activity and heart rate. Information about moving to the stimuli did not change how the subjects responded physiologically during the test.

Celem badania było sprawdzenie, czy informacje o sposobie reagowania na słyszane bodźce muzyczne podczas chodzenia na bieżni istotnie wpływają na sygnały fizjologiczne uczestników. W badaniu uczestniczyło 30 dorosłych: grupa 1 nie została poinformowana o tym, jak reagować na słyszane dźwięki, grupa 2 otrzymała polecenie dostosowania częstotliwości kroków do muzyki. Chód rejestrowano na bieżni Zebris FDM-S, a do akwizycji sygnałów fizjologicznych wykorzystano opaskę Empatica E4. Informacje o tym, jak reagować na bodźce nie zmieniały sygnałów fizjologicznych u badanych.

Słowa kluczowe

subject monitoring psychophysiological state EDA HR gait rhythmic auditory stimulation

monitorowanie pacjenta stan psychofizjologiczny EDA HR chód pobudzenie metrorytmiczne

Wydawca

Katedra Biomechatroniki, Wydział Inżynierii Biomedycznej Politechniki Śląskiej

Czasopismo

Aktualne Problemy Biomechaniki

Rocznik

2021

Tom

z. 21

Strony

25--33

Opis fizyczny

Bibliogr. 21 poz.

Twórcy

autor

Mańka Anna

Department of Medical Informatics and Artificial Intelligence, Faculty of Biomedical Engineering, Silesian University of Technology, Zabrze, Poland

autor

Romaniszyn-Kania Patrycja

Department of Medical Informatics and Artificial Intelligence, Faculty of Biomedical Engineering, Silesian University of Technology, Zabrze, Poland

autor

Bugdol Monika N.

Monika.Bugdol@polsl.pl

Department of Medical Informatics and Artificial Intelligence, Faculty of Biomedical Engineering, Silesian University of Technology, Zabrze, Poland

autor

Nowakowska-Lipiec Katarzyna

Department of Biomechatronics, Faculty of Biomedical Engineering, Silesian University of Technology, Zabrze, Poland

autor

Michnik Robert

Department of Biomechatronics, Faculty of Biomedical Engineering, Silesian University of Technology, Zabrze, Poland

autor

Mitas Andrzej

Department of Medical Informatics and Artificial Intelligence, Faculty of Biomedical Engineering, Silesian University of Technology, Zabrze, Poland

Bibliografia

[1]. Balteş, F. R., Avram, J., Miclea, M., Miu, A. C.: Emotions induced by operatic music: Psychophysiological effects of music, plot, and acting: A scientist’s tribute to Maria Callas. Brain and cognition, 76(1), 2011, 146-157.
[2]. Bernardi, L., Porta, C., Bernardi, N. F., Sleight, P.: S12. Music and the autonomic nervous system. Autonomic Neuroscience: Basic and Clinical, 1(149), 2009, 42-43.
[3]. Camm, A. J., Malik, M., Bigger, J. T., Breithardt, G., Cerutti, S., Cohen, R. J.: Heart rate variability: standards of measurement, physiological interpretation and clinical use, Task Force of the European Society of Cardiology and the North American Society of Pacing and Electrophysiology, 1996
[4]. Dawson, M. E., Schell, A. M., Filion, D. L.: The electrodermal system, 2017
[5]. Gjoreski, M., Luštrek, M., Gams, M., Gjoreski, H.: Monitoring stress with a wrist device using context, Journal of biomedical informatics, 73, 2017, 159-170.
[6]. Grahn, J. A.: Neural mechanisms of rhythm perception: current findings and future perspectives, Topics in cognitive science, 4(4), 2012, 585-606.
[7]. Greco, A., Valenza, G., Lanata, A., Scilingo, E. P., Citi, L.: cvxEDA: A convex optimization approach to electrodermal activity processing, IEEE Transactions on Biomedical Engineering, 63(4), 2015, 797-804.
[8]. Juslin, P. N., & Vastfjall, D.: Emotional responses to music: The need to consider underlying mechanisms, Behavioral and brain sciences, 31(5), 2008, 559.
[9]. Kania, D., Romaniszyn–Kania, P., Mańka, A., Myśliwiec, A., Mitas, A.W.: The use of Nordic walking and rhythmic auditory stimulation in neuromotor rehabilitation: a literature review, Physiotherapy and Health Activity, 28, 2020, 83-93.
[10]. Khalfa, S., Isabelle, P., Jean-Pierre, B., Manon, R.: Event-related skin conductance responses to musical emotions in humans, Neuroscience letters, 328(2), 2002, 145-149.
[11]. Laeng, B., Eidet, L. M., Sulutvedt, U., Panksepp, J.: Music chills: The eye pupil as a mirror to music’s soul, Consciousness and Cognition, 44, 2016, 161-178.
[12]. Ledwoń, D., Lipowicz, A., Mitas, A., Małecki, A., Mańka, A., Romaniszyn, P., Twardawa, P.: Aspekty badawcze analizy wpływu pobudzeń dźwiękowych na człowieka w: Sztuka jako wartość w edukacji i przestrzeni życia, red. E. Kochanowska, R. Majzner, Kraków, 2018, p. 129-157.
[13]. Lynar, E., Cvejic, E., Schubert, E., Vollmer-Conna, U.: The joy of heartfelt music: An examination of emotional and physiological responses, International Journal of Psychophysiology, 120, 2017, 118-125.
[14]. Mańka, A., Romaniszyn, P., Bugdol, M. N., Mitas, A. W.: Methods for Assessing the Subject’s Multidimensional Psychophysiological State in Terms of Proper Rehabilitation, In Information Technology in Biomedicine, Springer, Cham, 2021, p. 213-225.
[15]. Michnik, R., Nowakowska-Lipiec, K., Mańka, A., Niedzwiedź, S., Twardawa, P., Romaniszyn, P., et al.: Effect of various types of metro-rhythmic stimulations on the variability of gait frequency, In Information Technology in Biomedicine, Springer, Cham, 2021, p. 121-131.
[16]. Nowakowska-Lipiec, K., Michnik, R., Mańka, A., Niedzwiedź, S., Twardawa, P., Romaniszyn, P., et al.: Effect of various types of metro-rhythmic stimulations on the gait symmetry in healthy people. In Proceedings of the 6th International Conference Engineering Mechanics, Brno, Czech Republic, 2020, p. 24-25.
[17]. Nowakowska-Lipiec, K., Michnik, R., Niedzwiedź, S., Mańka, A., Twardawa, P., Turner, B., et al.: Effect of Short-Term Metro-Rhythmic Stimulations on Gait Variability, In Healthcare, Multidisciplinary Digital Publishing Institute, vol. 9, no. 2, 2021, p. 174.
[18]. Ragot, M., Martin, N., Em, S., Pallamin, N., Diverrez, J. M.: Emotion recognition using physiological signals: laboratory vs. wearable sensors, In International Conference on Applied Human Factors and Ergonomics, Springer, Cham, 2017, p. 15-22.
[19]. Romaniszyn, P., Kania, D., Nowakowska, K., Sobkowiak, M., Turner, B., Myśliwiec, A., et al.: RAS in the Aspect of Symmetrization of Lower Limb Loads, In International Conference on Information Technologies in Biomedicine, Springer, Cham, 2019, p. 436-
447.
[20]. Strath, S. J., Swartz, A. M., Bassett, D. R., O’Brien, W. L., King, G. A., Ainsworth, B.
E.: Evaluation of heart rate as a method for assessing moderate intensity physical activity, Medicine & Science in Sports & Exercise, 32(9), 2000, p. 465-470.
[21]. Trappe, H. J.: The effects of music on the cardiovascular system and cardiovascular health, Heart, 96(23), 2010, p. 1868-1871.

Typ dokumentu

Bibliografia

Identyfikator YADDA

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