The effect of resistance training focused on eccentric phase and interval exercises in young football players
- Amir Khortabi 1
- José María Cancela Carral 1
- Farzad Rezavandzayeri 1
- Helena Vila Suarez 1
- 1 Faculty of Education and Sports sciences, University of Vigo
ISSN: 1579-1726, 1988-2041
Datum der Publikation: 2024
Nummer: 58
Seiten: 1079-1086
Art: Artikel
Andere Publikationen in: Retos: nuevas tendencias en educación física, deporte y recreación
Zusammenfassung
The cardiovascular system, strength, speed, and agility are essential for a football player to perform better. For this purpose, finding the best and shortest way has always been a challenge. Therefore, this study aims to examine the effect of resistance training focused on eccentric phase and interval exercises on strength, agility, speed, and cardio strength in young football players.40 young football players are divided into two groups. The control group (CG) received only typical football exercises (by their coach), and the experimental group (EG) experienced eccentric exercises combined with interval aerobic training. To measure strength, agility, speed, and cardio strength, the Squat test, T-test, 60-meter sprint, and Cooper test were performed, respectively. To compare pre and post-test, paired sample t-test was utilized, and compare the two groups ANCOVA and Quade Nonparametric Analysis of Covariance test were used. The paired sample t-test showed a significant difference between pre and post-test in strength and cardiac strength in both groups. However, no significant difference was observed in speed and agility in CG. However, in EG, there was a significant difference between the pre and post-test in speed and agility variables. Also, according to the ANCOVA and Quade Nonparametric ANCOVA results, there was a significant difference between CG and EG in all variables. Eccentric and interval aerobic training could be more effective than typical football exercises on strength, cardio, speed, and agility. Football players can use the present program training to improve the essential physical factors.
Bibliographische Referenzen
- Ahmad, Y., & Diekin, N. F. S. (2020). The effects of plyometric training on speed, agility and power components among under-16 athletes: Kesan latihan pliometrik terhadap komponen kepantasan, ketangkasan dan kuasa terhadap atlet berumur bawah 16 tahun. Jurnal Sains Sukan & Pendidikan Jasmani, 9(2), 63-69.
- Anwer, S., Jeelani, S. I., Khan, S. A., Quddus, N., Kalra, S., & Alghadir, A. H. (2021). Effects of theraband and theratube eccentric exercises on quadriceps muscle strength and muscle mass in young adults. BioMed Research International, 2021, 1-9.
- Benford, J., Hughes, J., Waldron, M., & Theis, N. (2021). Concentric versus eccentric training: Effect on muscle strength, regional morphology, and architecture. Translational Sports Medicine, 4(1), 46-55.
- Bhavna, M., & Sandhu, J. S. (2010). Effects of concentric vs eccentric loading on cardiovascular variables and ECG. African Journal of Health Sciences, 17(3&4), 47-51.
- Brown, L., & Ferrigno, V. (2014). Training for speed, agility, and quickness, 3E Human Kinetics.
- Burgomaster, K. A., Howarth, K. R., Phillips, S. M., Rakobowchuk, M., MacDonald, M. J., McGee, S. L., & Gibala, M. J. (2008). Similar metabolic adaptations during exercise after low volume sprint interval and traditional endurance training in humans. The Journal of Physiology, 586(1), 151-160.
- Carrick‐Ranson, G., Sloane, N. M., Howden, E. J., Bhella, P. S., Sarma, S., Shibata, S., Levine, B. D. (2020). The effect of lifelong endurance exercise on cardiovascular structure and exercise function in women. The Journal of Physiology, 598(13), 2589-2605.
- Chaabene, H. (2017). Change of direction tasks: Does the eccentric muscle contraction really matter. Sci Pages Sports Med, 1(1), 1-2.
- Chaabene, H., Prieske, O., Negra, Y., & Granacher, U. (2018). Change of direction speed: Toward a strength training approach with accentuated eccentric muscle actions. Sports Medicine, 48(8), 1773-1779.
- de Hoyo, M., Sañudo, B., Carrasco, L., Mateo-Cortes, J., Domínguez-Cobo, S., Fernandes, O., Gonzalo-Skok, O. (2016). Effects of 10-week eccentric overload training on kinetic parameters during change of direction in football players. Journal of Sports Sciences, 34(14), 1380-1387.
- Duclay, J., Martin, A., Robbe, A., & Pousson, M. (2008). Spinal reflex plasticity during maximal dynamic contractions after eccentric training. Medicine and Science in Sports and Exercise, 40(4), 722-734.
- Esfandiari, S., Sasson, Z., & Goodman, J. M. (2014). Short-term high-intensity interval and continuous moderate-intensity training improve maximal aerobic power and diastolic filling during exercise. European Journal of Applied Physiology, 114, 331-343.
- Faller, B., Bonneau, D., Wooten, L., & Jayaseelan, D. J. (2021). Eccentric exercise in the prevention of patellofemoral pain in high-volume runners: A rationale for integration. Sports Medicine and Health Science, 3(2), 119-124.
- Franchi, M. V., Ruoss, S., Valdivieso, P., Mitchell, K. W., Smith, K., Atherton, P. J., Flück, M. (2018). Regional regulation of focal adhesion kinase after concentric and eccentric loading is related to remodelling of human skeletal muscle. Acta Physiologica, 223(3), e13056.
- Franchi, M. V., Wilkinson, D. J., Quinlan, J. I., Mitchell, W. K., Lund, J. N., Williams, J. P., Narici, M. V. (2015). Early structural remodeling and deuterium oxide‐derived protein metabolic responses to eccentric and concentric loading in human skeletal muscle. Physiological Reports, 3(11), e12593.
- Fu, T., Wang, C., Lin, P., Hsu, C., Cherng, W., Huang, S., Wang, J. (2013). Aerobic interval training improves oxygen uptake efficiency by enhancing cerebral and muscular hemodynamics in patients with heart failure. International Journal of Cardiology, 167(1), 41-50.
- Guruhan, S., Kafa, N., Ecemis, Z. B., & Guzel, N. A. (2021). Muscle activation differences during eccentric hamstring exercises. Sports Health, 13(2), 181-186.
- Hafstad, A. D., Boardman, N. T., Lund, J., Hagve, M., Khalid, A. M., Wisløff, U., Aasum, E. (2011). High intensity interval training alters substrate utilization and reduces oxygen consumption in the heart. Journal of Applied Physiology, 111(5), 1235-1241.
- Hammami, R., Duncan, M. J., Nebigh, A., Werfelli, H., & Rebai, H. (2022). The effects of 6 weeks eccentric training on speed, dynamic balance, muscle strength, power, and lower limb asymmetry in prepubescent weightlifters. Journal of Strength and Conditioning Research, 36(4), 955-962.
- Hedayatpour, N., & Falla, D. (2015). Physiological and neural adaptations to eccentric exercise: Mechanisms and considerations for training. BioMed Research International, 2015
- Hedayatpour, N., Falla, D., Arendt‐Nielsen, L., & Farina, D. (2010). Effect of delayed‐onset muscle soreness on muscle recovery after a fatiguing isometric contraction. Scandinavian Journal of Medicine & Science in Sports, 20(1), 145-153.
- Hedayatpour, N., Falla, D., Arendt-Nielsen, L., & Farina, D. (2008). Sensory and electromyographic mapping during delayed-onset muscle soreness. Medicine Science in Sports Exercise, 40(2), 326.
- Herridge, R., Turner, A., & Bishop, C. (2020). Monitoring changes in power, speed, agility, and endurance in elite cricketers during the off-season period. The Journal of Strength & Conditioning Research, 34(8), 2285-2293.
- Herzog, W. (2014). The role of titin in eccentric muscle contraction. Journal of Experimental Biology, 217(16), 2825-2833.
- Hinks, A., Hess, A., Debenham, M. I., Chen, J., Mazara, N., Inkol, K. A., Power, G. A. (2021). The torque-frequency relationship is impaired similarly following two bouts of eccentric exercise: No evidence of a protective repeated bout effect. Journal of Biomechanics, 122, 110448.
- Jones, P. A., Thomas, C., Dos’ Santos, T., McMahon, J. J., & Graham-Smith, P. (2017). The role of eccentric strength in 180 turns in female soccer players. Sports, 5(2), 42.
- Keating, S. E., Johnson, N. A., Mielke, G. I., & Coombes, J. S. (2017). A systematic review and meta‐analysis of interval training versus moderate‐intensity continuous training on body adiposity. Obesity Reviews, 18(8), 943-964.
- Keiner, M., Sander, A., Wirth, K., Caruso, O., Immesberger, P., & Zawieja, M. (2013). Strength performance in youth: Trainability of adolescents and children in the back and front squats. The Journal of Strength & Conditioning Research, 27(2), 357-362.
- Kellis, E. (2018). Intra-and inter-muscular variations in hamstring architecture and mechanics and their implications for injury: A narrative review. Sports Medicine, 48(10), 2271-2283.
- Khortabi, A., Suarez, H. V., Rezavandzayeri, F., & Carral, J. M. C. (2023). The effects of a high intensity resistance and eccentric strength training program on the performance of handball players los efectos de un programa de entrenamiento de resistencia de alta intensidad y fuerza excéntrica en el rendimiento de jugadores de balonmano. Retos, 50, 1333-1339.
- Liu, R., Liu, J., Clarke, C. V., & An, R. (2020). Effect of eccentric overload training on change of direction speed performance: A systematic review and meta-analysis. Journal of Sports Sciences, 38(22), 2579-2587.
- Lockie, R. G., Schultz, A. B., Callaghan, S. J., & Jeffriess, M. D. (2014). The effects of traditional and enforced stopping speed and agility training on multidirectional speed and athletic function. The Journal of Strength & Conditioning Research, 28(6), 1538-1551.
- MacInnis, M. J., & Gibala, M. J. (2017). Physiological adaptations to interval training and the role of exercise intensity. The Journal of Physiology, 595(9), 2915-2930.
- Masamoto, N., Larson, R., Gates, T., & Faigenbaum, A. (2003). Acute effects of plyometric exercise on maximum squat performance in male athletes. The Journal of Strength & Conditioning Research, 17(1), 68-71.
- Mirzayev, J. A. (2017). Muscle damage: Scientific fundamentals. Journal of Applied Physiology, 122(4), 1052.
- Mohammadi, H., & Williams, A.The effect of eccentric exercise with variations in rest interval on creatine kinase and lactate dehydrogenase enzymes in sedentary young men.
- Mora-Rodriguez, R., Fernández-Elías, V. E., Morales-Palomo, F., Pallares, J. G., Ramirez-Jimenez, M., & Ortega, J. F. (2017). Aerobic interval training reduces vascular resistances during submaximal exercise in obese metabolic syndrome individuals. European Journal of Applied Physiology, 117, 2065-2073.
- Moritani, T., & Devries, H. A. (1980). Potential for gross muscle hypertrophy in older men. Journal of Gerontology, 35(5), 672-682.
- Overend, T. J., Cunningham, D. A., Kramer, J. F., Lefcoe, M. S., & Paterson, D. H. (1992). Knee extensor and knee flexor strength: Cross-sectional area ratios in young and elderly men. Journal of Gerontology, 47(6), M204-M210.
- Özhan, B. (2012). Comparison the effect of water plyometrics and land plyometrics on body mass index and biomotorical variables of adolescent basketball players.
- Pincheira, P. A., Boswell, M. A., Franchi, M. V., Delp, S. L., & Lichtwark, G. A. (2022). Biceps femoris long head sarcomere and fascicle length adaptations after 3 weeks of eccentric exercise training. Journal of Sport and Health Science, 11(1), 43-49.
- Proske, U., & Morgan, D. L. (2001). Muscle damage from eccentric exercise: Mechanism, mechanical signs, adaptation and clinical applications. The Journal of Physiology, 537(2), 333-345.
- Sammito, S., Gundlach, N., & Böckelmann, I. (2016). Correlation between the results of three physical fitness tests (endurance, strength, speed) and the output measured during a bicycle ergometer test in a cohort of military servicemen. Military Medical Research, 3, 1-6.
- Schoenfeld, B. J., Grgic, J., Ogborn, D., & Krieger, J. W. (2017). Strength and hypertrophy adaptations between low-vs. high-load resistance training: A systematic review and meta-analysis. The Journal of Strength & Conditioning Research, 31(12), 3508-3523.
- Sheppard, J. M., & Young, W. B. (2006). Agility literature review: Classifications, training and testing. Journal of Sports Sciences, 24(9), 919-932.
- Spiteri, T., Cochrane, J. L., Hart, N. H., Haff, G. G., & Nimphius, S. (2013). Effect of strength on plant foot kinetics and kinematics during a change of direction task. European Journal of Sport Science, 13(6), 646-652.
- Stöggl, T., Enqvist, J., Müller, E., & Holmberg, H. (2010). Relationships between body composition, body dimensions, and peak speed in cross-country sprint skiing. Journal of Sports Sciences, 28(2), 161-169.
- Tjønna, A. E., Lee, S. J., Rognmo, Ø, Stølen, T. O., Bye, A., Haram, P. M., Slørdahl, S. A. (2008). Aerobic interval training versus continuous moderate exercise as a treatment for the metabolic syndrome: A pilot study. Circulation, 118(4), 346-354.
- Touron, J., Costes, F., Coudeyre, E., Perrault, H., & Richard, R. (2021). Aerobic metabolic adaptations in endurance eccentric exercise and training: From whole body to mitochondria. Frontiers in Physiology, 11, 596351.
- Tous-Fajardo, J., Gonzalo-Skok, O., Arjol-Serrano, J. L., & Tesch, P. (2016). Enhancing change-of-direction speed in soccer players by functional inertial eccentric overload and vibration training. International Journal of Sports Physiology and Performance, 11(1), 66-73.
- Van Hooren, B., & Bosch, F. (2017). Is there really an eccentric action of the hamstrings during the swing phase of high-speed running? part I: A critical review of the literature. Journal of Sports Sciences, 35(23), 2313-2321.