DEPENDENCE OF STRENGTH CHARACTERISTICS ON ENDURANCE INDICATORS OF INSPIRATORY MUSCLES IN SWIMMERS

The purpose of the research is to determine the influence of strength and endurance characteristics of the inspiratory muscles on the fatigue of swimmers.

Materials and research methods. The strength and endurance of the respiratory muscles were assessed using the PowerBreath device. The Pearson correlation coefficient was used to analyze the relationship between variables.

Research results. The correlation between strength and endurance of the respiratory muscles was 0.57. Thus, there is a pattern: the greater the strength, the less endurance. The average values correspond to the characteristics of universal athletes.

Conclusion. Thus, our research confirms our hypothesis and indicates a connection between the strength and endurance of the respiratory muscles and athletes' preferences for distances. This can be used by coaches and athletes to optimize the training process and achieve better results in competitions.

• Al-Otaibi H.M., Sartor F., Kubis HP. J., The influence of low resistance respiratory muscle training on pulmonary function and high intensity exercise performance. Exerc Sci Fit. 2024, no 3, pp. 179-186
• Andrew E., Brown S., A.K. McConnell Inspiratory muscle training improves 100 and 200 m swimming performance. Springer-Verlag. 2009
• Bravyi Y. R. Bersenev E. Y., Makarov V. A. Effect of strength training on pressor reflex responses from receptors in exercising muscles. Human Physiology. 2013, no. 7, pp. 729-734.
• Eksi N., Calis Z.A., Seyhun N., Ozkarafakili A., Coskun B.U. Evaluation of exercise-induced bronchoconstriction and rhinitis in adolescent elite swimmers. North Clin Istanb. 2021, no 8(5), pp. 493-499.
• Gómez-Albareda E., Viscor G., Garcí I. Inspiratory Muscle Training Improves Maximal Inspiratory Pressure Without Increasing Performance in Elite Swimmers. Int J Sports Physiol Perform. 2023, no 18(3), pp. 320-325.
• Hajghanbari, B., Yamabayashi C., Buna T. Effects of respiratory muscle training on performance in athletes: a systematic review with meta-analyses. J Strength Cond Res. 2013, no 27, pp. 1643-1663.
• Kilding A.E., Brown S., McConnell A.K. Inspiratory muscle training improves 100 and 200 m swimming performance. Eur J Appl Physiol. 2010, no 108, pp. 505-511.
• Notter D.A., Verges S., Renggli A.S., Beltrami F.G., Spengler C.M. Similar effects on exercise performance following different respiratory muscle training programs in healthy young men. Sci Rep. 2023, no 13(1), pp. 16135.
• Ohya T., Kusanagi K., Koizumi J., Ando R., Katayama K., Suzuki Y. Effect of Moderate- or High-Intensity Inspiratory Muscle Strength Training on Maximal Inspiratory Mouth Pressure and Swimming Performance in Highly Trained Competitive Swimmers. Int J Sports Physiol Perform. 2022, no 17(3), pp. 343-349.
• Vinogradova, O. L., Popov D. V., Tarasova O. S. Ergoreflex: The essence and mechanisms. Human Physiology. 2012, no 38(7), pp. 665-674.
• Tarasova O.S., Bravy Ya. R., Borovik A. S., Vinogradova O. L. The contribution of mechanoreflex and metaboreflex to the increase in the activity of vasomotor sympathetic fibers during the work of skeletal muscles in humans. Collection of abstracts of the XXIV Congress of the Physiological Society named after I. P. Pavlov, St. Petersburg, 2023, pp. 337.