Evaluación integral de la estabilidad muscular y su vínculo con el VO2max y la composición corporal en deportistas universitarios

• Moreno-Barriga, Orlando Santiago ^[1] ; Wilches-Visbal, Jorge Homero ^[1] ; Polo-Llanos, Aura Margarita ^[1] ; Antequera-Lobo, Pedro Luis ^[1] ; Ayala-Oviedo, Diego Alejandro ^[1]
  1. [1] Universidad del Magdalena

     Universidad del Magdalena

     Colombia

     
• Localización: NOVA, ISSN-e 2462-9448, ISSN 1794-2470, Vol. 22, Nº. 42, 2024 (Ejemplar dedicado a: Primer número 2024), págs. 47-59
• Idioma: español
• DOI: 10.22490/24629448.8185
• Títulos paralelos:
  • Comprehensive evaluation of muscular stability and its link to VO2max and body composition in university athletes
• Enlaces
  • Texto completo
• Resumen
  • español

    Introducción: En el ámbito deportivo, la estabilidad central es crucial para mantener el equilibrio durante la ejecución de movimientos específicos. Pocos estudios han determinado la relación entre rendimiento deportivo, estabilidad y actividad muscular. Objetivo: Explorar la relación entre consumo máximo de oxígeno y factores como la actividad eléctrica de los músculos del core, la composición corporal y la estabilidad central en deportistas universitarios. Materiales y Métodos: Estudio descriptivo y correlacional de corte transversal con deportistas de catorce disciplinas deportivas. Se midieron cinco variables, incluyendo la amplitud máxima de electromiografía de los músculos del core, el área de estabilidad estática y dinámica y el porcentaje de peso muscular. Se utilizaron instrumentos como sensores inalámbricos superficiales electromiograficos, sensores inerciales 3D y equipo de ergoespirometría.Se usó el software Jamovi v 2.3.28.0 para el cálculo de las variables. Resultados: Hubo correlación significativa y positiva entre el porcentaje de peso muscular, la amplitud y el consumo máximos de oxígeno. Al discriminar por disciplina deportiva, se encontraron diferencias en las variables estudiadas. Se observó correlación positiva y significativa entre la amplitud máxima y el porcentaje muscular en todos los deportes, exceptuando el fútbol y el sóftbol. En rugby, se vio una correlación positiva y significativa entre el porcentaje muscular y el consumo máximo de oxígeno. No hubo correlación entre la amplitud del voltaje y la estabilidad en deportistas, lo que muestra que la estabilidad deportiva es más compleja que simplemente centrarse en el core.Conclusión: El estudio redefine la comprensión de la estabilidad y su conexión con el rendimiento deportivo, brindando perspectivas para desarrollar estrategias de entrenamiento efectivas. Es necesario considerar la composición corporal en la evaluación y planificación del entrenamiento para lograr entrenamientos más efectivos.

  • English

    Introduction: In the sports field, core stability is crucial for maintaining balanceduring the execution of specific movements. Few studies have determined therelationship between sports performance, stability, and muscle activity. Objective:To explore the relationship between maximum oxygen consumption and factorssuch as electrical activity of core muscles, body composition, and core stability inuniversity athletes. Materials and Methods: This descriptive and correlationalcross-sectional study involved athletes from fourteen sports disciplines. Fivevariables were measured, including the maximum amplitude of electromyographyof core muscles, the area of static and dynamic stability, and the percentage ofmuscle mass. Instruments such as wireless surface electromyography sensors, 3Dinertial sensors, and ergoespirometry equipment were used. The software Jamoviv 2.3.28.0 was utilized for variable calculation. Results: There was a significantand positive correlation between the percentage of muscle mass, amplitude, and maximum oxygen consumption. When discriminated by sports discipline,differences were found in the studied variables. A positive and significantcorrelation was observed between maximum amplitude and muscle percentage inall sports, except football and softball. In rugby, a positive and significantcorrelation was found between muscle percentage and maximum oxygenconsumption. No correlation was found between voltage amplitude and stability inathletes, indicating that sports stability is more complex than simply focusing on thecore. Conclusion: The study redefines the understanding of stability and itsconnection to sports performance, providing insights for developing effectivetraining strategies. It is necessary to consider body composition in the evaluationand planning of training to achieve more effective workouts.

• Referencias bibliográficas
  • Akuthota, Venu; Ferreiro, Andrea; Moore, Tamara; Fredericson, Michael. Core Stability Exercise Principles. Current Sports Medicine Reports....
  • Silfies SP, Ebaugh D, Pontillo M, Butowicz CM. Critical review of the impact of core stability on upper extremity athletic injury and performance....
  • Zemková E, Zapletalová L. The Role of Neuromuscular Control of Postural and Core Stability in Functional Movement and Athlete Performance....
  • Wirth K, Hartmann H, Mickel C, Szilvas E, Keiner M, Sander A. Core Stability in Athletes: A Critical Analysis of Current Guidelines. Sports...
  • Kibler WB, Press J, Sciascia A. The role of core stability in athletic function. Sports Med. 2006;36(3):189-198. doi: https://doi.org/10.2165/00007256-200636030-00001
  • Huxel Bliven KC, Anderson BE. Core Stability Training for Injury Prevention. Sports Health. 2013;5(6):514–22.
  • Oliva-Lozano JM, Muyor JM. Core Muscle Activity During Physical Fitness Exercises: A Systematic Review. Int J Environ Res Public Health. 2020;17(12):2-38....
  • Watanabe K, Narouei S. Association between oxygen consumption and surface electromyographic amplitude and its variation within individual...
  • García-Vaquero MP, Moreside JM, Brontons-Gil E, Peco-González N, Vera-Garcia FJ. Trunk muscle activation during stabilization exercises with...
  • Boccia G, Rainoldi A. Innervation zones location and optimal electrodes position of obliquus internus and obliquus externus abdominis muscles....
  • Tsai LC, Yu B, Mercer VS, Gross MT. Comparison of Different Structural Foot Types for Measures of Standing Postural Control. Journal of Orthopaedic...
  • Marcos MA, Koulla PM, Anthos ZI. Preseason Maximal Aerobic Power in Professional Soccer Players Among Different Divisions. J Strength Cond...
  • Hung KC, Chung HW, Yu CCW, Lai HC, Sun FH. Effects of 8-week core training on core endurance and running economy. Alway SE. 2019;14(3):e0213158.
  • Asociación Médica Mundial. Principios éticos para las investigaciones médicas en seres humanos. Helsinky, Finlandia; 2017 p. 4.
  • Ministerio de Salud. Resolución 8430 de 1993. Bogotá, Colombia; 1993.
  • Şahin FN, Ceylan L, Küçük H, Ceylan T, Arıkan G, Yiğit S, et al. Examining the Relationship between Pes Planus Degree, Balance and Jump Performances...
  • Okada T, Huxel KC, Nesser TW. Relationship between core stability, functional movement, and performance. J Strength Cond Res. 2011;25(1):252-261....
  • Tong TK, Wu S, Nie J, Baker JS, Lin H. The occurrence of core muscle fatigue during high-intensity running exercise and its limitation to...
  • Shete AN, Bute SS, Deshmukh PR. A Study of VO2 Max and Body Fat Percentage in Female Athletes. J Clin Diagn Res. 2014;8(12):BC01-BC3. doi:...
  • Bassett DR Jr, Howley ET. Limiting factors for maximum oxygen uptake and determinants of endurance performance. Med Sci Sports Exerc. 2000;32(1):70-84....
  • Holloszy JO, Coyle EF. Adaptations of skeletal muscle to endurance exercise and their metabolic consequences. J Appl Physiol Respir Environ...
  • Saltin B. Hemodynamic adaptations to exercise. Am J Cardiol. 1985;55(10):42D-47D. doi: https://doi.org/10.1016/0002-9149(85)91054-9.
  • Wagner PD. Determinants of maximal oxygen consumption. J Muscle Res Cell Motil. 2023;44(2):73–88.
  • Moreno B, Atencio Garcia L. Correlation Between Muscle Mass and Muscle Power in Youth Soccer Players. Biostat Biom Open Access J. 2023;11(3):1–5.