dc.creator | Tornero Aguilera, José Francisco | |
dc.creator | Rubio Zarapuz, Alejandro | |
dc.creator | Bustamante Sánchez, Alvaro | |
dc.creator | Clemente Suárez, Vicente Javier | |
dc.date | 2021-08-19T15:06:34Z | |
dc.date | 2021-08-19T15:06:34Z | |
dc.date | 2021-07 | |
dc.date.accessioned | 2023-10-03T19:51:32Z | |
dc.date.available | 2023-10-03T19:51:32Z | |
dc.identifier | 2076-3417 | |
dc.identifier | https://hdl.handle.net/11323/8551 | |
dc.identifier | 10.3390/app11146555 | |
dc.identifier | Corporación Universidad de la Costa | |
dc.identifier | REDICUC - Repositorio CUC | |
dc.identifier | https://repositorio.cuc.edu.co/ | |
dc.identifier.uri | https://repositorioslatinoamericanos.uchile.cl/handle/2250/9172713 | |
dc.description | COVID-19 restrictions stipulate the mandatory use of surgical masks during outdoor and indoor physical activities. The impact of this on athletic performance and especially on anaerobic physical activities is poorly known. The aim of the present research was to analyze the effect of surgical mask use on the anaerobic running performance of athletes. Modifications in running time, blood lactate, blood glucose, blood oxygen saturation, subjective perceived stress, rating of perceived exertion, and heart rate variability were measured in 50 m and 400 m maximal running tests with and without the use of surgical masks in 72 athletes. The use of a surgical mask increased blood lactate concentration, sympathetic autonomic modulation, perceived exertion, perceived stress, and decreased blood oxygen saturation in 50 and 400 m running tests. Thus, the higher levels of blood lactate and lower blood oxygen saturation require adaptation of the athlete's rest and recovery periods to the acute workload. The higher level of sympathetic activation makes the acute and chronic control of autonomic modulation essential for an efficient training periodization. Finally, the use of acid buffers such as bicarbonate or sodium citrate would be a recommended ergogenic strategy. | |
dc.format | application/pdf | |
dc.format | application/pdf | |
dc.language | eng | |
dc.publisher | APPLIED SCIENCES-BASEL | |
dc.relation | 1. Helmy, Y.A.; Fawzy, M.; Elaswad, A.; Sobieh, A.; Kenney, S.P.; Shehata, A.A. The COVID-19 pandemic: A comprehensive review
of taxonomy, genetics, epidemiology, diagnosis, treatment, and control. J. Clin. Med. 2020, 9, 1225. | |
dc.relation | 2. Senatore, V.; Zarra, T.; Buonerba, A.; Choo, K.H.; Hasan, S.W.; Korshin, G.; Li, C.W.; Ksibi, M.; Belgiorno, V.; Naddeo, V.
Indoor versus outdoor transmission of SARS-COV-2: Environmental factors in virus spread and underestimated sources of risk.
EuroMediterr. J. Environ. Integr. 2021, 6, 30. | |
dc.relation | 3. Pillay, L.; Janse van Rensburg, D.C.C.; Jansen van Rensburg, A.; Ramagole, D.A.; Holtzhausen, L.; Dijkstra, H.P.; Cronje, T.
Nowhere to hide: The significant impact of coronavirus disease 2019 (COVID-19) measures on elite and semi-elite South African
athletes. J. Sci. Med. Sport 2020, 23, 670–679. | |
dc.relation | 4. Clemente-Suárez, V.J.; Fuentes-García, J.P.; de la Vega Marcos, R.; Martínez Patiño, M.J. Modulators of the Personal and
Professional Threat Perception of Olympic Athletes in the Actual COVID-19 Crisis. Front. Psychol. 2020, 11, 1985. | |
dc.relation | 5. Fuentes-García, J.P.; Martínez Patiño, M.J.; Villafaina, S.; Clemente-Suárez, V.J. The Effect of COVID-19 Confinement in Behavioral,
Psychological, and Training Patterns of Chess Players. Front. Psychol. 2020, 11, 1812. | |
dc.relation | 6. Schinke, R.; Papaioannou, A.; Henriksen, K.; Si, G.; Zhang, L.; Haberl, P. Sport psychology services to high performance athletes
during COVID-19. Int. J. Sport Exerc. Psychol. 2020, 18, 269–272. | |
dc.relation | 7. Flecha, S.S.; Pitta, N.M. Efectos por Uso Prolongado del EPI en Profesionales de Enfermería ante COVID 19: Hospitales de Contingencia
Respiratoria; Academic Discl., 2020; Volume 1, pp. 24–39. Available online: https://revistascientificas.una.py/ojs/index.php/
rfenob/article/view/135/109 (accessed on 14 July 2021). | |
dc.relation | 8. Chandrasekaran, B.; Fernandes, S. “Exercise with facemask; Are we handling a devil’s sword?”—A physiological hypothesis.
Med. Hypotheses 2020, 144, 110002. | |
dc.relation | 9. Smith, C.L.; Whitelaw, J.L.; Davies, B. Carbon dioxide rebreathing in respiratory protective devices: Influence of speech and work
rate in full-face masks. Ergonomics 2013, 56, 781–790. | |
dc.relation | 10. Melnikov, V.N.; Divert, V.E.; Komlyagina, T.G.; Consedine, N.S.; Krivoschekov, S.G. Baseline values of cardiovascular and
respiratory parameters predict response to acute hypoxia in young healthy men. Physiol. Res. 2017, 66, 467–479. [CrossRef] | |
dc.relation | 11. Shaw, K.; Butcher, S.; Ko, J.; Zello, G.A.; Chilibeck, P.D. Wearing of Cloth or Disposable Surgical Face Masks has no Effect on
Vigorous Exercise Performance in Healthy Individuals. Int. J. Environ. Res. Public Health 2020, 17, 8110. | |
dc.relation | 12. Shaw, K.; Zello, G.A.; Butcher, S.; Ko, J.; Bertrand, L.; Chilibeck, P.D. The Impact of Face Masks on Performance and Physiological
Outcomes during Exercise: A Systematic Review and Meta-analysis. Appl. Physiol. Nutr. Metab. 2021. | |
dc.relation | 13. Goh, D.Y.T.; Mun, M.W.; Lee, W.L.J.; Teoh, O.H.; Rajgor, D.D. A randomised clinical trial to evaluate the safety, fit, comfort of a
novel N95 mask in children. Sci. Rep. 2019, 9, 18952. | |
dc.relation | 14. Kim, J.H.; Benson, S.M.; Roberge, R.J. Pulmonary and heart rate responses to wearing N95 filtering facepiece respirators. Am. J.
Infect. Control 2013, 41, 24–27. | |
dc.relation | 15. Lässing, J.; Falz, R.; Pökel, C.; Fikenzer, S.; Laufs, U.; Schulze, A.; Hölldobler, N.; Rüdrich, P.; Busse, M. Effects of surgical face
masks on cardiopulmonary parameters during steady state exercise. Sci. Rep. 2020, 10, 22363. | |
dc.relation | 16. Shein, S.L.; Whitticar, S.; Mascho, K.K.; Pace, E.; Speicher, R.; Deakins, K. The effects of wearing facemasks on oxygenation and
ventilation at rest and during physical activity. PLoS ONE 2021, 16, e0247414. | |
dc.relation | 17. Wong, A.Y.; Ling, S.K.; Louie, L.H.; Law, G.Y.; So, R.C.; Lee, D.C.; Yau, F.C.; Yung, P.S. Impact of the COVID-19 pandemic on
sports and exercise. Asia Pac. J. Sports Med. Arthrosc. Rehabil. Technol. 2020, 22, 39–44. | |
dc.relation | 18. Clemente-Suárez, V.J.; Ramos-Campo, D.J. Effectiveness of reverse vs. traditional linear training periodization in triathlon. Int. J.
Environ. Res. Public Health 2019, 16, 2807. | |
dc.relation | 19. Tornero-Aguilera, J.F.; Pelarigo, J.G.; Clemente-Suárez, V.J. Psychophysiological Intervention to Improve Preparedness in Military
Special Operations Forces. Aerosp. Med. Hum. Perform. 2019, 90, 953–958. | |
dc.relation | 20. Borg, G. Borg’s Perceived Exertion and Pain Scales; Human Kinetics: Champaign, IL, USA, 1998. | |
dc.relation | 21. Tornero-Aguilera, J.F.; Robles-Pérez, J.J.; Clemente-Suárez, V.J. Could Combat Stress Affect Journalists’ News Reporting? A
Psychophysiological Response. Appl. Psychophysiol. Biofeedback 2020, 45, 231–239. | |
dc.relation | 22. Beltrán-Velasco, A.I.; Sánchez-Conde, P.; Ramos-Campo, D.J.; Clemente-Suárez, V.J. Monitorization of Autonomic Stress Response
of Nurse Students in Hospital Clinical Simulation. BioMed Res. Int. 2021, 2021, 6641425. | |
dc.relation | 23. Shaffer, F.; Ginsberg, J.P. An Overview of Heart Rate Variability Metrics and Norms. Front. Public Health 2017, 5, 258. | |
dc.relation | 24. Driver, S.; Reynolds, M.; Brown, K.; Vingren, J.L.; Hill, D.W.; Bennett, M.; Gilliland, T.; McShan, E.; Callender, L.; Reynolds,
E.; et al. Effects of wearing a cloth face mask on performance, physiological and perceptual responses during a graded treadmill
running exercise test. Br. J. Sports Med. 2021. | |
dc.relation | 25. Scott, C. Misconceptions about Aerobic and Anaerobic Energy Expenditure. J. Int. Soc. Sports Nutr. 2005, 2, 32–37. | |
dc.relation | 26. Hirvonen, J.; Nummela, A.; Rusko, H.; Rehunen, S.; Härkönen, M. Fatigue and changes of ATP, creatine phosphate, and lactate
during the 400-m sprint. Can. J. Sport Sci. 1992, 17, 141–144. | |
dc.relation | 27. Fikenzer, S.; Uhe, T.; Lavall, D.; Rudolph, U.; Falz, R.; Busse, M.; Hepp, P.; Laufs, U. Effects of surgical and FFP2/N95 face masks
on cardiopulmonary exercise capacity. Clin. Res. Cardiol. 2020, 109, 1522–1530. | |
dc.relation | 28. Barbieri, J.F.; Gáspari, A.F.; Teodoro, C.L.; Motta, L.; Castaño, L.A.A.; Bertuzzi, R.; Bernades, C.F.; Chacon-Mikahil, M.P.T.; de
Moraes, A.C. The effect of an airflow restriction mask (ARM) on metabolic, ventilatory, and electromyographic responses to
continuous cycling exercise. PLoS ONE 2020, 15, e0237010. | |
dc.relation | 29. Williams, N. The Borg rating of perceived exertion (RPE) scale. Occup. Med. 2017, 67, 404–405. | |
dc.relation | 30. Motoyama, Y.L.; Joel, G.B.; Pereira, P.E.; Esteves, G.J.; Azevedo, P.H. Airflow-restricting mask reduces acute performance in
resistance exercise. Sports 2016, 4, 46. | |
dc.relation | 31. Hopkins, S.R.; Dominelli, P.B.; Davis, C.K.; Guenette, J.A.; Luks, A.M.; Molgat-Seon, Y.; Sá, R.C.; Sheel, A.W.; Swenson, E.R.;
Stickland, M.K. Face Masks and the Cardiorespiratory Response to Physical Activity in Health and Disease. Ann. Am. Thorac. Soc.
2021, 18, 399–407. | |
dc.relation | 32. Tornero-Aguilera, J.F.; Clemente-Suárez, V.J. Cognitive and psychophysiological impact of surgical mask use during university
lessons. Physiol. Behav. 2021, 234, 113342. | |
dc.relation | 33. Mapelli, M.; Salvioni, E.; De Martino, F.; Mattavelli, I.; Gugliandolo, P.; Vignati, C.; Farina, S.; Palermo, P.; Campodonico, J.;
Maragna, R.; et al. “You can leave your mask on”: Effects on cardiopulmonary parameters of different airway protection masks at
rest and during maximal exercise. Eur. Respir. J. 2021. | |
dc.relation | 34. Doherty, C.; Mann, L.; Angus, S.A.; Chan, J.; Molgat-Seon, Y.; Dominelli, P.B. Impact of wearing a surgical and cloth mask during
cycle exercise. Appl. Physiol. Nutr. Metab. 2021, 46. | |
dc.relation | 35. Gardner, S.A.; Martin, T.D.; Barras, M.; Jenkins, G.D.; Hahn, G.A. Power output demands of elite track sprint cycling. Int. J.
Perform. Anal. Sport 2005, 5, 149–154. | |
dc.relation | 36. Roberge, R.J.; Coca, A.; Williams, W.J.; Palmiero, A.J.; Powell, J.B. Surgical mask placement over N95 filtering facepiece respirators:
Physiological effects on healthcare workers. Respirology 2010, 15, 516–521. | |
dc.relation | 37. Roberge, R.J.; Kim, J.H.; Benson, S.M. Absence of consequential changes in physiological, thermal and subjective responses from
wearing a surgical mask. Respir. Physiol. Neurobiol. 2012, 181, 29–35. | |
dc.relation | 38. Rosner, E. Adverse effects of prolonged mask use among health care professionals during COVID-19. J. Infect. Dis. Epidemiol.
2020, 6, 130. | |
dc.relation | 39. Tian, Z.; Kim, B.Y.; Bae, M.J. A study on the effect of wearing masks on stress response. Memory 2020, 8, 12. | |
dc.relation | 40. Rodriguez-Besteiro, S.; Tornero-Aguilera, J.F.; Fernández-Lucas, J.; Clemente-Suárez, V.J. Gender Differences in the COVID-19
Pandemic Risk Perception, Psychology, and Behaviors of Spanish University Students. Int. J. Environ. Res. Public Health 2021,
18, 3908. | |
dc.relation | 41. Tornero-Aguilera, J.F.; Rubio-Zarapuz, A.; Clemente-Suárez, V.J. Implications of surgical mask use in physical education lessons.
Physiol. Behav. 2021, 239, 113513. | |
dc.relation | 42. Clemente-Suárez, V.J.; Navarro-Jiménez, E.; Moreno-Luna, L.; Saavedra-Serrano, M.C.; Jimenez, M.; Simón, J.A.; Tornero-Aguilera,
J.F. The Impact of the COVID-19 Pandemic on Social, Health, and Economy. Sustainability 2021, 13, 6314. | |
dc.rights | CC0 1.0 Universal | |
dc.rights | http://creativecommons.org/publicdomain/zero/1.0/ | |
dc.rights | info:eu-repo/semantics/openAccess | |
dc.rights | http://purl.org/coar/access_right/c_abf2 | |
dc.source | https://ezproxy.cuc.edu.co:2080/wos/woscc/full-record/WOS:000675940300001 | |
dc.source | https://www.mdpi.com/2076-3417/11/14/6555 | |
dc.subject | COVID-19 | |
dc.subject | blood oxygen saturation | |
dc.subject | rating of perceived exertion | |
dc.subject | glucose | |
dc.subject | sport performance | |
dc.title | The effect of surgical mask use in anaerobic running performance | |
dc.type | Artículo de revista | |
dc.type | http://purl.org/coar/resource_type/c_6501 | |
dc.type | Text | |
dc.type | info:eu-repo/semantics/article | |
dc.type | info:eu-repo/semantics/publishedVersion | |
dc.type | http://purl.org/redcol/resource_type/ART | |
dc.type | info:eu-repo/semantics/acceptedVersion | |
dc.type | http://purl.org/coar/version/c_ab4af688f83e57aa | |