The Adaptation Characteristics of the Movement Analyzer are Influenced by Physical Exercise
DOI:
https://doi.org/10.5281/zenodo.17774544Ключевые слова:
movement analyzer, motor control, proprioception, neuromuscular system, physical exercise, adaptation, CNS regulation, neuroplasticity.Аннотация
The movement analyzer, commonly referred to as the neuromuscular or motor analyzer, plays a crucial role in
regulating posture, coordinating movement patterns, and ensuring the accuracy of motor actions. Physical exercise has a
strong influence on the functional and adaptive characteristics of this system. The adaptive responses include improved
proprioceptive sensitivity, enhanced neuromuscular coordination, optimized muscle recruitment patterns, and increased
efficiency in central nervous system (CNS) regulation. This article discusses the structural and functional components of
the movement analyzer, the physiological mechanisms of adaptation during physical exercise, and the long-term effects
of training on motor control. Special emphasis is placed on the neuroplastic changes that occur in response to regular
training loads and the factors determining the stability and efficiency of adaptive responses
Библиографические ссылки
1. Abernethy, B., Wann, J., & Parks, S. Motor Control and Learning: Advances in Research and Theory. Human Kinetics.
1998.
2. Adams, J. A. A closed-loop theory of motor learning. Journal of Motor Behavior, 3(2), 111–149. 1971.
3. Bernstein, N. A. The Coordination and Regulation of Movements. Pergamon Press. 1967.
4. Brooks, G. A., Fahey, T. D., & Baldwin, K. M. Exercise Physiology: Human Bioenergetics and Its Applications. McGraw-
Hill. 2005.
5. Carlson, N. R. Physiology of Behavior (11th ed.). Pearson. 2014.
6. Gandevia, S. C. Spinal and supraspinal factors in human muscle fatigue. Physiological Reviews, 81(4), 1725–1789.
2001.
7. Latash, M. L. Neuromechanics of Human Movement. Human Kinetics. 2008.
8. Kandel, E. R., Schwartz, J. H., & Jessell, T. M. Principles of Neural Science (5th ed.). McGraw-Hill. 2012
9. Schmidt, R. A., & Lee, T. D. Motor Control and Learning: A Behavioral Emphasis (5th ed.). Human Kinetics. 2011.
10. Sherrington, C. S. The Integrative Action of the Nervous System. Yale University Press. 1906.
11. Proske, U., & Gandevia, S. C. The proprioceptive senses: Their roles in signaling body shape, body position, and
movement, and muscle force. Physiological Reviews, 92(4), 1651–1697. 2012.
12. Enoka, R. M. Neuromechanics of Human Movement (5th ed.). Human Kinetics. 2015.
13. Magill, R. A., & Anderson, D. Motor Learning and Control: Concepts and Applications (11th ed.). McGraw-Hill. 2017.
14. Paillard, T. Plasticity of the proprioceptive system: Effects of physical activity and aging. Frontiers in Aging Neuroscience,
9, 120. 2017.
15. Gazzaniga, M. S., Ivry, R. B., & Mangun, G. R. Cognitive Neuroscience: The Biology of the Mind (5th ed.). W. W.
Norton. 2018.
16. Zehr, E. P. Considerations for use of the Hoffmann reflex in exercise studies. European Journal of Applied Physiology,
86, 455–468. 2002.
17. Hutton, R. S. Neuromechanical adaptations to resistance training. Medicine & Science in Sports & Exercise, 24(6),
713–724. 1992.
18. Myers, J., & Bellin, D. Exercise and the brain: A review. Current Sports Medicine Reports, 17(9), 306–313. 2018.
19. Ashton-Miller, J. A., Wojtys, E. M., Huston, L. J., & Fry-Welch, D. Can proprioception really be improved by exercise?
Knee Surgery, Sports Traumatology, Arthroscopy, 9(3), 128–136. 2001.
20. Sawers, A., & Ting, L. H. Perspectives on human sensorimotor adaptation. Journal of NeuroEngineering and Rehabilitation,
12(1), 1–17. 2015.
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