The effect of simultaneous submaximal physical exercise and mental exertion on fatigue indices in active men

Document Type : original article

Authors

1 Faculty of Sports and Health Sciences, Shahid Beheshti University, Tehran, Iran

2 Faculty of Physical Education and Sports Sciences, Kharazmi University, Tehran, Iran

Abstract

Purpose: The purpose of this study was to investigate the effects of performing cognitive task during submaximal exercise on fatigue indices. The scientists believe that both mental and body determine endurance performance. Since there are common neural pathways between physical and mental fatigue. Methods: 10 athlete’s men (mean ± SD, age: 20 ± 2 years, weight: 71 ± 10 kg, height: 176 ± 9 cm) participated in this study. The participants were present in lab for three separate sessions. In the first session after familiarization, maximal oxygen consumption (VO2max) was determined using incremental protocol on treadmill. In two subsequent sessions, participates ran on treadmill with 70 percent of VO2max intensity for 45 minutes with (intervention) and without (control) cognitive task. Heart rate (HR) and rate of perceived exertion (RPE) were recorded every 10 minutes during both exercise sessions. Maximal voluntary contraction (MVC), cortisol and prolactin concentration were measured pre-and post- sessions. All data was analyzed with dependent t-test and two-way ANOVA.
Results: The results showed that there is no significant difference between two sessions for, prolactin (P = 0.668), cortisol (P = 0.25), MVC (P = 0.664), RPE (P = 0.9), and HR (P = 0.34) but cortisol, prolactin, RPE and HR increased from pre-to post-sessions.
Conclusion: Present study results show that, performing a cognitive task during submaximal exercise couldn’t induce more fatigue indices compare submaximal exercise. However, cannot be totally discarded thr effects of performing cognitive task during submaximal exercise on fatigue indices. Factors like duration and kind of cognitive and physical tasks should be consider.

Keywords

References

  1. Chaudhuri A, Behan PO. Fatigue in neurological disorders. The lancet. 2004;363(9413):978-88.
  2. Tanaka M, Ishii A, Watanabe Y. Neural correlates of central inhibition during physical fatigue. PLoS One. 2013;8(7):e70949.
  3. Allen DG, Lamb GD, Westerblad H. Skeletal muscle fatigue: cellular mechanisms. Physiological reviews. 2008;88(1):287-332.
  4. Gandevia S, Allen GM, Butler JE, Taylor JL. Supraspinal factors in human muscle fatigue: evidence for suboptimal output from the motor cortex. The Journal of physiology. 1996;490(2):529-36.
  5. Tanaka M, Watanabe Y. Supraspinal regulation of physical fatigue. Neuroscience & Biobehavioral Reviews. 2012;36(1):727-34.
  6. Chaouloff F, Kennett GA, Serrurrier B, Merino D, Curzon G. Amino acid analysis demonstrates that increased plasma free tryptophan causes the increase of brain tryptophan during exercise in the rat. Journal of neurochemistry. 1986;46(5):1647-50.
  7. Oleshansky M, Zoltick J, Herman R, Mougey E, Meyerhoff J. The influence of fitness on neuroendocrine responses to exhaustive treadmill exercise. European journal of applied physiology and occupational physiology. 1990;59(6):405-10.
  8. Meijman T. The theory of the stop-emotion: On the functionality of fatigue. Ergonomics and safety for global business quality and production. 2000:45-50.
  9. Matthews G, Hancock PA. The handbook of operator fatigue: CRC Press; 2017.
  10. Boksem MA, Tops M. Mental fatigue: costs and benefits. Brain research reviews. 2008;59(1):125-39.
  11. Marcora SM, Staiano W, Manning V. Mental fatigue impairs physical performance in humans. Journal of applied physiology. 2009;106(3):857-64.
  12. Smith MR, Coutts AJ, Merlini M, Deprez D, Lenoir M, Marcora SM. Mental fatigue impairs soccer-specific physical and technical performance. Medicine & science in sports & exercise. 2016;48(2):267-76.
  13. Carrasco Páez L, Luque G, Gutierrez C, Mendoza Oltras C. Prolactin responses to stress induced by a competitive swimming effort. 2007.
  14. Comijs HC, van den Kommer TN, Minnaar RW, Penninx BW, Deeg DJ. Accumulated and differential effects of life events on cognitive decline in older persons: Depending on depression, baseline cognition, or ApoE ε4 status? Journals of Gerontology Series B: Psychological Sciences and Social Sciences. 2011;66(suppl_1):i111-i20.
  15. Hellhammer DH, Wüst S, Kudielka BM. Salivary cortisol as a biomarker in stress research. Psychoneuroendocrinology. 2009;34(2):163-71.
  16. Marcora SM, Bosio A, de Morree HM. Locomotor muscle fatigue increases cardiorespiratory responses and reduces performance during intense cycling exercise independently from metabolic stress. American Journal of Physiology-Regulatory, Integrative and Comparative Physiology. 2008;294(3):R874-R83.
  17. Dempsey JA, Amann M, Romer LM, Miller JD. Respiratory system determinants of peripheral fatigue and endurance performance. Medicine & Science in Sports & Exercise. 2008;40(3):457-61.
  18. Lorist MM, Tops M. Caffeine, fatigue, and cognition. Brain and cognition. 2003;53(1):82-94.
  19. Gailliot MT. Unlocking the energy dynamics of executive functioning: Linking executive functioning to brain glycogen. Perspectives on Psychological Science. 2008;3(4):245-63.
  20. Davis JM, Zhao Z, Stock HS, Mehl KA, Buggy J, Hand GA. Central nervous system effects of caffeine and adenosine on fatigue. American Journal of Physiology-Regulatory, Integrative and Comparative Physiology. 2003;284(2):R399-R404.
  21. Matsui T, Soya S, Okamoto M, Ichitani Y, Kawanaka K, Soya H. Brain glycogen decreases during prolonged exercise. The Journal of physiology. 2011;589(13):3383-93.
  22. Coiro V, Volpi R, Maffei M, Caiazza A, Caffarri G, Capretti L, et al. Opioid modulation of the gamma-aminobutyric acid-controlled inhibition of exercise-stimulated growth hormone and prolactin secretion in normal men. European journal of endocrinology. 1994;131(1):50-5.
  23. Klaassen EB, de Groot RH, Evers EA, Nicolson NA, Veltman DJ, Jolles J. Cortisol and induced cognitive fatigue: Effects on memory activation in healthy males. Biological psychology. 2013;94(1):167-74.
  24. Akyuz S, Pince S, Hekin N. Children's stress during a restorative dental treatment: assessment using salivary cortisol measurements. The Journal of clinical pediatric dentistry. 1996;20(3):219-23.
  25. VAN JC, DE KP, Buyse L, Marcora S, Meeusen R, Roelands B. Effects of Mental Fatigue on Endurance Performance in the Heat. Medicine and science in sports and exercise. 2017;49(8):1677-87.
  26. Pageaux B, Marcora S, Lepers R. Prolonged mental exertion does not alter neuromuscular function of the knee extensors. Medicine & Science in Sports & Exercise. 2013.
  27. Ishii A, Tanaka M, Watanabe Y. Neural mechanisms of mental fatigue. Reviews in the Neurosciences. 2014;25(4):469-79.
  28. Pageaux B. Perception of effort in exercise science: definition, measurement and perspectives. European journal of sport science. 2016;16(8):885-94.
  29. Morree HM, Klein C, Marcora SM. Perception of effort reflects central motor command during movement execution. Psychophysiology. 2012;49(9):1242-53.
  30. Pageaux B, Marcora SM, Rozand V, Lepers R. Mental fatigue induced by prolonged self-regulation does not exacerbate central fatigue during subsequent whole-body endurance exercise. Frontiers in human neuroscience. 2015;9:67.
  31. Marcora SM, Staiano W. The limit to exercise tolerance in humans: mind over muscle? European journal of applied physiology. 2010;109(4):763-70.
  32. Carter CS, Braver TS, Barch DM, Botvinick MM, Noll D, Cohen JD. Anterior cingulate cortex, error detection, and the online monitoring of performance. Science. 1998;280(5364):747-9.
  33. Pageaux B, Lepers R, Dietz KC, Marcora SM. Response inhibition impairs subsequent self-paced endurance performance. European journal of applied physiology. 2014;114(5):1095-105.
  34. Marcora S. Perception of effort during exercise is independent of afferent feedback from skeletal muscles, heart, and lungs. Journal of Applied Physiology. 2009;106(6):2060-2.
  35. Schücker L, Anheier W, Hagemann N, Strauss B, Völker K. On the optimal focus of attention for efficient running at high intensity. Sport, Exercise, and Performance Psychology. 2013;2(3):207.
  36. MacMahon C, Schücker L, Hagemann N, Strauss B. Cognitive fatigue effects on physical performance during running. Journal of Sport and Exercise Psychology. 2014;36(4):375-81.
  37. Penna EM, Wanner SP, Campos BT, Quinan GR, Filho E, Mendes TT, et al. Mental Fatigue Impairs Physical Performance in Young Swimmers. Pediatric exercise science. 2017;20(XX):1-8.
  38. Richter M, Friedrich A, Gendolla GH. Task difficulty effects on cardiac activity. Psychophysiology. 2008;45(5):869-75.

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History

  • Receive Date: 14 December 2018
  • Revise Date: 12 January 2020
  • Accept Date: 22 January 2020
  • First Publish Date: 23 September 2021
  • Publish Date: 23 September 2021

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