Psychophysiological response of air mobile protection teams in an air accident manoeuvre

Different extreme contexts elicit a stress response on human body, specifically on combat produces an increase of sympathetic nervous system and a direct effect on the organic response. This research aimed to study the psychophysiological response of an air security force in a simulated air accident...

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Autores:: Hormeño Holgado, Alberto J.
Perez Martinez, Miguel Angel
Clemente Suárez, Vicente Javier

Tipo de recurso:: Article of journal

Fecha de publicación:: 2018

Institución:: Corporación Universidad de la Costa

Repositorio:: REDICUC - Repositorio CUC

Idioma:: eng

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network_acronym_str	RCUC2
network_name_str	REDICUC - Repositorio CUC
repository_id_str
dc.title.eng.fl_str_mv	Psychophysiological response of air mobile protection teams in an air accident manoeuvre
title	Psychophysiological response of air mobile protection teams in an air accident manoeuvre
spellingShingle	Psychophysiological response of air mobile protection teams in an air accident manoeuvre Stress Combat Sleep deprivation Ultraendurance Military
title_short	Psychophysiological response of air mobile protection teams in an air accident manoeuvre
title_full	Psychophysiological response of air mobile protection teams in an air accident manoeuvre
title_fullStr	Psychophysiological response of air mobile protection teams in an air accident manoeuvre
title_full_unstemmed	Psychophysiological response of air mobile protection teams in an air accident manoeuvre
title_sort	Psychophysiological response of air mobile protection teams in an air accident manoeuvre
dc.creator.fl_str_mv	Hormeño Holgado, Alberto J. Perez Martinez, Miguel Angel Clemente Suárez, Vicente Javier
dc.contributor.author.spa.fl_str_mv	Hormeño Holgado, Alberto J. Perez Martinez, Miguel Angel Clemente Suárez, Vicente Javier
dc.subject.eng.fl_str_mv	Stress Combat Sleep deprivation Ultraendurance Military
topic	Stress Combat Sleep deprivation Ultraendurance Military
description	Different extreme contexts elicit a stress response on human body, specifically on combat produces an increase of sympathetic nervous system and a direct effect on the organic response. This research aimed to study the psychophysiological response of an air security force in a simulated air accident in a hostile area and its subsequent subterfuge to a safe area. We analyzed 13 soldiers (32.4 ± 8.0 years) from an air security force unit of the Spanish Air Force who were divided into three teams to conduct the manoeuvre. We analyzed before and after the manoeuvre psychological well-being scale, personal views survey, recovery-stress questionnaire (REST-52 Sport); heart rate variability, visual analogue scale, rated of perceived exertion, spirometry, hydration and hand strength were analyzed during the four days of the manoeuvre: This produced a significantly (p < .05) increase in sympathetic modulation, hand strength, dehydration status, general and specific stress from RESTQ-52. With this data we can conclude that an air accident manoeuvre of three nights and four days causes in the air mobile protection team a high sympathetic nervous system modulation, increases on muscle strength manifestations and stress and a dehydration status.
publishDate	2018
dc.date.accessioned.none.fl_str_mv	2018-11-20T15:27:10Z
dc.date.available.none.fl_str_mv	2018-11-20T15:27:10Z
dc.date.issued.none.fl_str_mv	2019
dc.type.spa.fl_str_mv	Artículo de revista
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dc.type.content.spa.fl_str_mv	Text
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dc.identifier.issn.spa.fl_str_mv	0031-9384
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identifier_str_mv	0031-9384 Corporación Universidad de la Costa REDICUC - Repositorio CUC
url	https://hdl.handle.net/11323/1424 https://repositorio.cuc.edu.co/
dc.language.iso.none.fl_str_mv	eng
language	eng
dc.relation.references.spa.fl_str_mv	[1] V.J. Clemente-Suárez, V.E. Muñoz Fernández Arroyo, D.J. Ramos Campo, F. Navarro Valdivieso, J.M. González Ravé, D. Juárez Santos-García, Analysis of selected physiological performance determinants and muscle damage in a 24-hour ultra-endurance relay race, Int. Sport J. 12 (4) (2011) 179–186. [2] V.J. Clemente-Suarez, Changes in biochemical, strength, flexibility, and aerobic capacity parameters after a 1700 km ultraendurance cycling race, Biomed. Res. Int. (2014), https://doi.org/10.1155/2014/602620. [3] V.J. Clemente-Suárez, R. Delgado-Moreno, B. Gonzalez-Gómez, J.J. Robles-Pérez, Respuesta psicofisiológica en un salto táctico paracaidista HAHO: caso de Estudio, Sanid Mil. 71 (3) (2015) 179–182. [4] V.J. Clemente-Suárez, J.J. Robles-Pérez, P. Montañez-Toledo, Respuesta psicofisiológica en un salto táctico paracaidista a gran altitud. A propósito de un caso, Arch med Deporte. 71 (3) (2015) 179–182. [5] J. Sánchez-Molina, J.J. Robles-Pérez, V.J. Clemente-Suárez, Effect of parachute jump in the psychophysiological response of soldiers in urban combat, J. Med. Syst. 41 (6) (2017). [6] V.J. Clemente-Suárez, J.J. Robles-Pérez, Mechanical, physical, and physiological analysis of symmetrical and asymmetrical combat, J. Strength Cond. Res. 27 (9) (2013) 2420–2426. [7] V.J. Clemente-Suarez, J.J. Robles-Perez, Psycho-physiological response of soldiers in urban combat, An. Psicol. 29 (2) (2013) 598–603. [8] T.K. Szivak, E.C. Lee, C. Saenz, S.D. Flanagan, B.C. Focht, J.S. Volek, et al., Adrenal stress and physical performance during military survival training, Aerosp. Med. Hum. Perform 89 (2) (2018) 99–107. [9] R. Delgado-Moreno, J.J. Robles-Pérez, V.J. Clemente-Suárez, Combat stress decreases memory of warfighters in action, J. Med. Syst. 41 (8) (2017) 1–7. [10] V.J.C. Suárez, J.J.R. Pérez, Análisis de los marcadores fisiológicos, activación cortical y manifestaciones de la fuerza en una situación simulada de combate, Arch Med del Deporte. 29 (149) (2012) 680–686. [11] A. Hetland, J. Vittersa, The feelings of extreme risk: exploring emotional quality and variability in skydiving and BASE jumping, J. Sport Behav. 35 (2) (2012) 154–180. [12] E. Kowalczyk, M. Kura, An influence of mental stress, related to parachute jumping, on ACTH and cortisol hormones concentration in blood serum, Psychiatr. Pol. 46 (5) (2012) 731–742. [13] V.J. Clemente-Suárez, R. de la Vega, J.J. Robles-Pérez, M. Lautenschlaeger, J. Fernández-Lucas, Experience modulates the psychophysiological response of airborne warfighters during a tactical combat parachute jump, Int. J. Psychophysiol. 110 (2016) 212–216. [14] V.J. Clemente-Suárez, J.J. Robles-Pérez, J. Fernández-Lucas, Psychophysiological response in parachute jumps, the effect of experience and type of jump, Physiol. Behav. 179 (2017) 178–183. [15] P. Belinchon-deMiguel, V.J. Clemente-Suárez, Psychophysiological, body composition, biomechanical and autonomic modulation analysis procedures in an ultraendurance mountain race, J. Med. Syst. 42 (2) (2018). [16] V.J. Clemente-Suárez, Psychophysiological response and energy balance during a 14-h ultraendurance mountain running event, Appl. Physiol. Nutr. Metab 40 (3) (2015) 269–273. [17] M. Diaz-Manzano, J.J. Robles-Pérez, K. Herrera-Mendoza, B. Herrera-Tapias, J. Fernández-Lucas, S. Aznar-Lain, et al., Effectiveness of psycho-physiological portable devices to analyse effect of ergogenic aids in military population, J. Med. Syst. 42 (5) (2018). [18] J. Sánchez-Molina, J.J. Robles-Pérez, V.J. Clemente-Suárez, Assessment of psychophysiological response and specific fine motor skills in combat units, J. Med. Syst. 42 (4) (2018). [19] J.F. Tornero-Aguilera, J.J. Robles-Pérez, V.J. Clemente-Suárez, Use of psychophysiological portable devices to analyse stress response in different experienced soldiers, J. Med. Syst. 42 (4) (2018). [20] T.H. Monk, A visual analogue scale technique to measure global vigour and affect, Psychiatry Res. 27 (1) (1989) 89–99. [21] R. de la Vega, R. Ruiz, J. Gómez, O. Rivera, Hardiness in professional spanish firefighters, Percept. Mot. Skills 117 (2) (2013) 608–614. [22] D. Díaz, R. Rodríguez-Carvajal, A. Blanco, B. Moreno-Jiménez, I. Gallardo, C. Valle, et al., Adaptación española de las escalas de bienestar psicológico de Ryff, Psicothema 18 (3) (2006) 572–577. [23] R. González-boto, A. Salguero, C. Tuero, S. Márquez, Cuestionario de recuperaciónestrés, Rev. Psicol. del Deport 18 (1) (2009) 53–72. [24] L. Armstrong, J. Soto, F.J. Hacker, D. Casa, S. Kavouras, C. Maresh, Urinary indices during dehydration, exercise and rehydratation, Occup. Health Ind. Med 8 (1998) 345–355. [25] A. Bellido, P. Ruisoto, A. Beltran-Velasco, Clemente-Suárez Vj, State of the art on the use of portable digital devices to assess stress in humans, J. Med. Syst. 42 (6) (2018) 100. [26] V.J. Clemente-Suarez, P.R. Palomera, J.J. Robles-Pérez, Psychophysiological response to acute-high-stress combat situations in professional soldiers, Stress Heal 34 (2) (2018) 247–252. [27] V.J. Clemente-Suarez, Periodized training archive better autonomic modulation and aerobic performance than non periodized training, J. Sports Med. Phys. Fitness (2017), https://doi.org/10.23736/S0022-4707.17.07582-X. [28] V.J. Clemente-Suárez, J.J. Arroyo-Toledo, The use of autonomic modulation device to control training performance after high-intensity interval training program, J. Med. Syst. 25;42 (3) (2018) 47, https://doi.org/10.1007/s10916-018-0907-8. [29] B. Murray, B. Murray, Hydration and physical performance hydration and physical performance, Vol. 5724 (2017), pp. 542–548. [30] R. Delgado-Moreno, J.J. Robles-Pérez, S. Aznar, V.J. Clemente-Suarez, Inalambric biofeedback devices to analyze strength manifestation in military population, J. Med. Syst. 42 (4) (2018). [31] B. Sandín, El estrés: un análisis basado en el papel de los factores sociales, IJCHP 3 (2003) 141–157. [32] E.A. Richter, N.B. Ruderman, H. Gavras, E.R. Belur, H. Galbo, Muscle glycogenolysis during exercise: dual control by epinephrine and contractions, Am. J. Phys. 242 (1) (1982) E25–E32. [33] J.P. Andersen, H. Gustafsberg, A training method to improve police use of force decision making: a randomized controlled trial, SAGE Open 6 (2) (2016). [34] M. Bardera, M. García-Silgo, M. Pastor, Gestión de estrés en las fuerzas armadas, Rev del Inst Español Estud Estratégicos. 4 (4) (2014) 1–24. [35] J.P. Andersen, K. Papazoglou, M. Koskelainen, M. Nyman, H. Gustafsberg, B.B. Arnetz, Applying resilience promotion training among special forces police officers, SAGE Open 5 (2) (2015). [36] K.-J. Chen, C.-C. Yang, H.-H. Chiang, Model of coping strategies, resilience, psychological well-being, and perceived health among military personnel, J. Med. Sci. 38 (2) (2018) 73. [37] J.F. Tornero-Aguilera, J.J. Robles-Pérez, V.J. Clemente-Suárez, Effect of combat stress in the psychophysiological response of elite and non-elite soldiers, J. Med. Syst. 41 (6) (2017).
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spelling	Hormeño Holgado, Alberto J.Perez Martinez, Miguel AngelClemente Suárez, Vicente Javier2018-11-20T15:27:10Z2018-11-20T15:27:10Z20190031-9384https://hdl.handle.net/11323/1424Corporación Universidad de la CostaREDICUC - Repositorio CUChttps://repositorio.cuc.edu.co/Different extreme contexts elicit a stress response on human body, specifically on combat produces an increase of sympathetic nervous system and a direct effect on the organic response. This research aimed to study the psychophysiological response of an air security force in a simulated air accident in a hostile area and its subsequent subterfuge to a safe area. We analyzed 13 soldiers (32.4 ± 8.0 years) from an air security force unit of the Spanish Air Force who were divided into three teams to conduct the manoeuvre. We analyzed before and after the manoeuvre psychological well-being scale, personal views survey, recovery-stress questionnaire (REST-52 Sport); heart rate variability, visual analogue scale, rated of perceived exertion, spirometry, hydration and hand strength were analyzed during the four days of the manoeuvre: This produced a significantly (p < .05) increase in sympathetic modulation, hand strength, dehydration status, general and specific stress from RESTQ-52. With this data we can conclude that an air accident manoeuvre of three nights and four days causes in the air mobile protection team a high sympathetic nervous system modulation, increases on muscle strength manifestations and stress and a dehydration status.Hormeño Holgado, Alberto J.-a6738cdd-fc8f-4472-93af-e199469e4c89-0Perez Martinez, Miguel Angel-edf7f4d3-6a32-40fd-8ebb-7ee316146db0-0Clemente Suárez, Vicente Javier-0000-0002-2397-2801-600engPhysiology & BehaviorAtribución – No comercial – Compartir igualinfo:eu-repo/semantics/openAccesshttp://purl.org/coar/access_right/c_abf2StressCombatSleep deprivationUltraenduranceMilitaryPsychophysiological response of air mobile protection teams in an air accident manoeuvreArtículo de revistahttp://purl.org/coar/resource_type/c_6501http://purl.org/coar/resource_type/c_2df8fbb1Textinfo:eu-repo/semantics/articlehttp://purl.org/redcol/resource_type/ARTinfo:eu-repo/semantics/acceptedVersion[1] V.J. Clemente-Suárez, V.E. Muñoz Fernández Arroyo, D.J. Ramos Campo, F. Navarro Valdivieso, J.M. González Ravé, D. Juárez Santos-García, Analysis of selected physiological performance determinants and muscle damage in a 24-hour ultra-endurance relay race, Int. Sport J. 12 (4) (2011) 179–186. [2] V.J. Clemente-Suarez, Changes in biochemical, strength, flexibility, and aerobic capacity parameters after a 1700 km ultraendurance cycling race, Biomed. Res. Int. (2014), https://doi.org/10.1155/2014/602620. [3] V.J. Clemente-Suárez, R. Delgado-Moreno, B. Gonzalez-Gómez, J.J. Robles-Pérez, Respuesta psicofisiológica en un salto táctico paracaidista HAHO: caso de Estudio, Sanid Mil. 71 (3) (2015) 179–182. [4] V.J. Clemente-Suárez, J.J. Robles-Pérez, P. Montañez-Toledo, Respuesta psicofisiológica en un salto táctico paracaidista a gran altitud. A propósito de un caso, Arch med Deporte. 71 (3) (2015) 179–182. [5] J. Sánchez-Molina, J.J. Robles-Pérez, V.J. Clemente-Suárez, Effect of parachute jump in the psychophysiological response of soldiers in urban combat, J. Med. Syst. 41 (6) (2017). [6] V.J. Clemente-Suárez, J.J. Robles-Pérez, Mechanical, physical, and physiological analysis of symmetrical and asymmetrical combat, J. Strength Cond. Res. 27 (9) (2013) 2420–2426. [7] V.J. Clemente-Suarez, J.J. Robles-Perez, Psycho-physiological response of soldiers in urban combat, An. Psicol. 29 (2) (2013) 598–603. [8] T.K. Szivak, E.C. Lee, C. Saenz, S.D. Flanagan, B.C. Focht, J.S. Volek, et al., Adrenal stress and physical performance during military survival training, Aerosp. Med. Hum. Perform 89 (2) (2018) 99–107. [9] R. Delgado-Moreno, J.J. Robles-Pérez, V.J. Clemente-Suárez, Combat stress decreases memory of warfighters in action, J. Med. Syst. 41 (8) (2017) 1–7. [10] V.J.C. Suárez, J.J.R. Pérez, Análisis de los marcadores fisiológicos, activación cortical y manifestaciones de la fuerza en una situación simulada de combate, Arch Med del Deporte. 29 (149) (2012) 680–686. [11] A. Hetland, J. Vittersa, The feelings of extreme risk: exploring emotional quality and variability in skydiving and BASE jumping, J. Sport Behav. 35 (2) (2012) 154–180. [12] E. Kowalczyk, M. Kura, An influence of mental stress, related to parachute jumping, on ACTH and cortisol hormones concentration in blood serum, Psychiatr. Pol. 46 (5) (2012) 731–742. [13] V.J. Clemente-Suárez, R. de la Vega, J.J. Robles-Pérez, M. Lautenschlaeger, J. Fernández-Lucas, Experience modulates the psychophysiological response of airborne warfighters during a tactical combat parachute jump, Int. J. Psychophysiol. 110 (2016) 212–216. [14] V.J. Clemente-Suárez, J.J. Robles-Pérez, J. Fernández-Lucas, Psychophysiological response in parachute jumps, the effect of experience and type of jump, Physiol. Behav. 179 (2017) 178–183. [15] P. Belinchon-deMiguel, V.J. Clemente-Suárez, Psychophysiological, body composition, biomechanical and autonomic modulation analysis procedures in an ultraendurance mountain race, J. Med. Syst. 42 (2) (2018). [16] V.J. Clemente-Suárez, Psychophysiological response and energy balance during a 14-h ultraendurance mountain running event, Appl. Physiol. Nutr. Metab 40 (3) (2015) 269–273. [17] M. Diaz-Manzano, J.J. Robles-Pérez, K. Herrera-Mendoza, B. Herrera-Tapias, J. Fernández-Lucas, S. Aznar-Lain, et al., Effectiveness of psycho-physiological portable devices to analyse effect of ergogenic aids in military population, J. Med. Syst. 42 (5) (2018). [18] J. Sánchez-Molina, J.J. Robles-Pérez, V.J. Clemente-Suárez, Assessment of psychophysiological response and specific fine motor skills in combat units, J. Med. Syst. 42 (4) (2018). [19] J.F. Tornero-Aguilera, J.J. Robles-Pérez, V.J. Clemente-Suárez, Use of psychophysiological portable devices to analyse stress response in different experienced soldiers, J. Med. Syst. 42 (4) (2018). [20] T.H. Monk, A visual analogue scale technique to measure global vigour and affect, Psychiatry Res. 27 (1) (1989) 89–99. [21] R. de la Vega, R. Ruiz, J. Gómez, O. Rivera, Hardiness in professional spanish firefighters, Percept. Mot. Skills 117 (2) (2013) 608–614. [22] D. Díaz, R. Rodríguez-Carvajal, A. Blanco, B. Moreno-Jiménez, I. Gallardo, C. Valle, et al., Adaptación española de las escalas de bienestar psicológico de Ryff, Psicothema 18 (3) (2006) 572–577. [23] R. González-boto, A. Salguero, C. Tuero, S. Márquez, Cuestionario de recuperaciónestrés, Rev. Psicol. del Deport 18 (1) (2009) 53–72. [24] L. Armstrong, J. Soto, F.J. Hacker, D. Casa, S. Kavouras, C. Maresh, Urinary indices during dehydration, exercise and rehydratation, Occup. Health Ind. Med 8 (1998) 345–355. [25] A. Bellido, P. Ruisoto, A. Beltran-Velasco, Clemente-Suárez Vj, State of the art on the use of portable digital devices to assess stress in humans, J. Med. Syst. 42 (6) (2018) 100. [26] V.J. Clemente-Suarez, P.R. Palomera, J.J. Robles-Pérez, Psychophysiological response to acute-high-stress combat situations in professional soldiers, Stress Heal 34 (2) (2018) 247–252. [27] V.J. Clemente-Suarez, Periodized training archive better autonomic modulation and aerobic performance than non periodized training, J. Sports Med. Phys. Fitness (2017), https://doi.org/10.23736/S0022-4707.17.07582-X. [28] V.J. Clemente-Suárez, J.J. Arroyo-Toledo, The use of autonomic modulation device to control training performance after high-intensity interval training program, J. Med. Syst. 25;42 (3) (2018) 47, https://doi.org/10.1007/s10916-018-0907-8. [29] B. Murray, B. Murray, Hydration and physical performance hydration and physical performance, Vol. 5724 (2017), pp. 542–548. [30] R. Delgado-Moreno, J.J. Robles-Pérez, S. Aznar, V.J. Clemente-Suarez, Inalambric biofeedback devices to analyze strength manifestation in military population, J. Med. Syst. 42 (4) (2018). [31] B. Sandín, El estrés: un análisis basado en el papel de los factores sociales, IJCHP 3 (2003) 141–157. [32] E.A. Richter, N.B. Ruderman, H. Gavras, E.R. Belur, H. Galbo, Muscle glycogenolysis during exercise: dual control by epinephrine and contractions, Am. J. Phys. 242 (1) (1982) E25–E32. [33] J.P. Andersen, H. Gustafsberg, A training method to improve police use of force decision making: a randomized controlled trial, SAGE Open 6 (2) (2016). [34] M. Bardera, M. García-Silgo, M. Pastor, Gestión de estrés en las fuerzas armadas, Rev del Inst Español Estud Estratégicos. 4 (4) (2014) 1–24. [35] J.P. Andersen, K. Papazoglou, M. Koskelainen, M. Nyman, H. Gustafsberg, B.B. Arnetz, Applying resilience promotion training among special forces police officers, SAGE Open 5 (2) (2015). [36] K.-J. Chen, C.-C. Yang, H.-H. Chiang, Model of coping strategies, resilience, psychological well-being, and perceived health among military personnel, J. Med. Sci. 38 (2) (2018) 73. [37] J.F. Tornero-Aguilera, J.J. Robles-Pérez, V.J. Clemente-Suárez, Effect of combat stress in the psychophysiological response of elite and non-elite soldiers, J. Med. 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Psychophysiological response of air mobile protection teams in an air accident manoeuvre

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