Equilibration of athletes’ body state in the course of increasing the training intensity

Autores/as

  • Wei Wang Departamento de Educación Física, Universidad Xihua, Chengdu, China.
  • Elena Kozlova Departamento de Historia y Teoría del Deporte Olímpico, Universidad Nacional de Ucrania sobre Educación Física y Deporte, Kiev, Ucrania.
DOI: https://doi.org/10.6018/sportk.555871
Palabras clave: Recovery; Organism; Dynamic System; Athletic Performance

Resumen

Recovery of an athlete after injury allows to achieve either the previous results or relatively equal. Moreover, the prescribed drugs or recovery exercises are offered in courses without the possibility of process adjustments. The relevance of the study is determined primarily by a large number of universal methods of restoration, if necessary, development of more patient-specific approach. The novelty of the study is determined by the fact that the human body is a dynamic system, the state of which is different at any time. The authors developed the idea of a stochastic process problem in the form of a system with a variable state, which can be utilized to generate a process, in order to build a technique for recognizing and predicting the state of dynamic systems. The authors showed that the dynamic system of the body can be considered not only as a process element, but also as a structure that allows to fully achieve recovery during the training period of athletes and their off-season indicators. The paper has developed a model that allows to predict the state of the dynamic system and harmonise the load and the recovery process of the athlete's body. The developed method for identifying and predicting the state of dynamical systems with the improvement of the method of covariance functions factorisation makes it possible to determine the main matrices of a dynamical system using the Riccati equation.

Descargas

Los datos de descargas todavía no están disponibles.

Citas

Bansbach, H. M., Lovalekar, M. T., Abt, J. P., Rafferty, D., Yount, D., & Sell, T.C. (2017). Military personnel with self-reported ankle injuries do not demonstrate deficits in dynamic postural stability or landing kinematics. Clinical Biomechanics 47, 27-32. https://doi.org/10.1016/j.clinbiomech.2017.05.008

Büttner, F., Howell, D. R., Ardern, C. L., Doherty, C., Blake, C., Ryan, J., Catena, R., Chou, Li-S., Fino, P., Rochefort, C., Sveistrup, H., Parker, T., & Delahunt, E. (2020). Concussed athletes walk slower than non-concussed athletes during cognitive-motor dual-task assessments but not during single-task assessments 2 months after sports concussion: A systematic review and meta-analysis using individual participant data. British Journal of Sports Medicine, 54(2), 94–101. https://doi.org/10.1136/bjsports-2018-100164

Chang, X. (2020). Effect of nanoligament combined with sports rehabilitation training on the treatment of patients with ligament injury. International Journal of Nanotechnology, 17(2-6), 411-426.

Condo, D., Lastella, M., Aisbett, B., Stevens, A., & Roberts, S. (2022). Sleep duration and quality are associated with nutrient intake in elite female athletes. Journal of Science and Medicine in Sport, 25(4), 345-350.

Diez, I., Drijkoningen, D., Stramaglia, S., Bonifazi, P., Marinazzo, D., Gooijers, J., Swinnen, S. P., & Cortes, J. M. (2017). Enhanced prefrontal functional–structural networks to support postural control deficits after traumatic brain injury in a pediatric population. Network Neuroscience, 1(2), 116–142. https://doi.org/10.1162/netn_a_00007

Fraenkel, V. G. (1931). Die Mechanik Der Orientierung Der Tiere Im Raum. Biological Reviews, 6(1), 36-87. https://doi.org/10.1111/j.1469-185X.1931.tb01021.x

Gera, G., Chesnutt, J., Mancini, M., Horak, F. B., & King, L. A. (2018). Inertial Sensor-Based Assessment of Central Sensory Integration for Balance after Mild Traumatic Brain Injury. Military Medicine, 183, 327-332. https://doi.org/10.1093/milmed/usx162

Hamlin, M. J., Deuchrass, R. W., Olsen, P. D., Choukri, M. A., Marshall, H. C., Lizamore, C. A., & Elliot, C. A. (2021). The effect of sleep quality and quantity on athlete's health and perceived training quality. Frontiers in Sports and Active Living, 3, 705650. https://doi.org/10.3389/fspor.2021.705650

Hewett, T. E., Webster, K. E., & Hurd, W. J. (2019). Systematic Selection of Key Logistic Regression Variables for Risk Prediction Analyses: A Five-Factor Maximum Model. Clinical Journal of Sport Medicine, 29(1), 78-85. https://doi.org/10.1097/JSM.0000000000000486

Hou, Q. (2005). Psychological stress, damage of cerebral hippocampus and depression. Chinese Journal of Clinical Rehabilitation, 9(32), 174-176.

Li, G., Dai, G., Xiang, B., Mark, J., Tomanek, B., Liu, H., Deslauriers, R., & Tian, G. (2004). Mapping myocardial viability using interleaved T1-T*2 weighted imaging. International Journal of Cardiovascular Imaging, 20(2), 135-143. https://doi.org/10.1023/B:CAIM.0000014045.62343.9b

Musienko, P. E., Gorskiǐ, O. V, Kilimnik, V. A., Kozlovskaia, I. B., Kurtin, G., Edgerton, V. R., & Gerasimenko, I. P. (2013). Neuronal control of posture and locomotion in decerebrated and spinalized animals. Rossiǐskii Fiziologicheskiǐ Zhurnal Imeni I.M. Sechenova, 99(3), 392-405.

Nagai, T., Abt, J. P., Sell, T. C., Keenan, K. A., McGrail, M. A., Smalley, B. W., & Lephart, S. M. (2016). Effects of deployment on musculoskeletal and physiological characteristics and balance. Military Medicine, 181(9), 1050-1057. https://doi.org/10.7205/MILMED-D-15-00370

Pan, T., Liao, K., Roenigk, K., Daly, J. J., & Walker, M. F. (2015). Static and dynamic postural stability in veterans with combat-related mild traumatic brain injury. Gait and Posture, 42(4), 550-557. https://doi.org/10.1016/j.gaitpost.2015.08.012

Rabiei, K., Hellström, P., Högfeldt-Johansson, M., & Tisell, M. (2018). Does subjective improvement in adults with intracranial arachnoid cysts justify surgical treatment? Journal of Neurosurgery, 128(1), 250-257. https://doi.org/10.3171/2016.9.JNS161139

Sielski, L., Sutkowy, P., Skopowska, A., Pawlak-Osińska, K., Augustyńska, Z., Hewelt, K., Drapała, R., & Woźniak, A. (2018). The oxidant-antioxidant equilibrium and inflammatory process indicators after an exercise test on the Alterg antigravity treadmill in young amateur female athletes. Oxidative Medicine and Cellular Longevity, 2018, 3484159.

Skorski, S., Pitsch, W., Barth, V., Walter, M., Pfeiffer, M., Ferrauti, A., & Meyer, T. (2022). Individualised reference ranges for markers of muscle recovery assessment in soccer. European Journal of Sport Science, 11, 1-9.

Southerland, L. T., Slattery, L., Rosenthal, J. A., Kegelmeyer, D., & Kloos, A. (2017). Are triage questions sufficient to assign fall risk precautions in the ED? American Journal of Emergency Medicine, 35(2), 329-332. https://doi.org/10.1016/j.ajem.2016.10.035

Sun, J.-L., Tang, D., & Zhong, S.-Z. (2007). Research and application of three-dimensional gait analysis. Journal of Clinical Rehabilitative Tissue Engineering Research, 11(5), 944-948.

Thomas, J.C., Odonkor, C., Griffith, L., Holt, N., Percac-Lima, S., Leveille, S., Ni, P., Latham, N.K., Jette, A.M., & Bean, J.F. (2014). Reconceptualizing balance: Attributes associated with balance performance. Experimental Gerontology, 57, 218-223. https://doi.org/10.1016/j.exger.2014.06.012

Wan, C., Ma, W., Yin, P., Xu, X., Liu, F., & Xu, J. (2013). Effect of intestinal mucosal immunity induced by transport stress and the regulation mechanism of Suanzaoren decoction. Journal of Chemical and Pharmaceutical Research, 5(11), 58-63.

Wares, J. R., Hoke, K.W., Walker, W., Franke, L. M., Cifu, D. X., Carne, W., & Ford-Smith, C. (2015). Characterizing effects of mild traumatic brain injury and posttraumatic stress disorder on balance impairments in blast-exposed servicemembers and Veterans using computerized posturography. Journal of Rehabilitation Research and Development, 52(5), 591-604. https://doi.org/10.1682/JRRD.2014.08.0197

Weerasekara, I., Osmotherly, P., Snodgrass, S., Marquez, J., de Zoete, R., & Rivett, D.A. (2018). Clinical Benefits of Joint Mobilization on Ankle Sprains: A Systematic Review and Meta-Analysis. Archives of Physical Medicine and Rehabilitation, 99(7), 1395–1412.e5. https://doi.org/10.1016/j.apmr.2017.07.019

Zelenin, P. V, Lyalka, V. F., Orlovsky, G. N., & Deliagina, T. G. (2016). Effect of acute lateral hemisection of the spinal cord on spinal neurons of postural networks. Neuroscience, 339, 235-253. https://doi.org/10.1016/j.neuroscience.2016.09.043

Publicado
17-04-2024
Cómo citar
Wang, W., & Kozlova, E. (2024). Equilibration of athletes’ body state in the course of increasing the training intensity. SPORT TK-Revista EuroAmericana de Ciencias del Deporte, 13, 28. https://doi.org/10.6018/sportk.555871
Número
Sección
Artículos