ISSN: 2300-9705
eISSN: 2353-2807
OAI
DOI: 10.18276/cej.2025.1-06
Liste der Ausgaben /
Vol. 49, No. 1/2025
The Influence of a Specific Sprint Resisted Swimming Training Programme on the Intra-cyclic Velocity Variation of Young Female Front Crawl Swimmers
| Autoren: |
Ioannis K.
Valkoumas
Democritus University of Thrace, School of Physical Education and Sports Science, Department of Physical Education and Sports Science, University Campus, 69100, Komotini, Greece Vassilios Gourgoulis
Democritus University of Thrace, School of Physical Education and Sports Science, Department of Physical Education and Sports Science, University Campus, 69100, Komotini, Greece |
| Schlüsselbegriffe: | resisted swimming intra-cyclic velocity variation arm coordination stroke rate |
| Veröffentlichungsdatum der gesamten Ausgabe: | 2025-07-31 |
| Seitenanzahl: | 15 (77-91) |
Abstract
The aim of the current study was to investigate the effect of an 11-week sprint resisted swimming training programme on the front crawl mean swimming velocity and the intra-cyclic velocity variation (IVV). Twelve female swimmers assigned into an experimental (N= 6) and a control group (N= 6) followed the same training programme including a specific sprint protocol. The only difference between the two groups was the use of a swimming parachute from the experimental group during the specific sprint protocol. A 50 m maximal intensity front crawl trial, before and after the 11-week intervention period, was recorded by 4 digital video cameras. The Ariel Performance Analysis System was used for the digitization of selected anatomical landmarks and two-way repeated measures ANOVAs were performed for the statistical treatment of the data. After the intervention programme, the experimental group showed a significant increase in the mean swimming velocity, the stroke rate, the propulsive phase duration and the index of coordination, and a significant decrease in the non-propulsive phase duration, the total stroke duration and the IVV. These modifications could be considered a positive effect, helping the swimmers to become more efficient to overcome the inertial forces and to improve their swimming performance.
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Bibliographie
| 1. | Alberty, M., Sidney, M., Huot-Marchard, F., Hespel, J. M., & Pelayo, P. (2004). Intracyclic velocity variations and arm coordination during exhaustive exercise in front crawl stroke. International Journal of Sports Medicine, 25(6), 471–475. https://doi.org/10.1055/s-2004-820939 |
| 2. | Amara, S., Barbosa, T. M., Negra, Y., Hammami, R., Khalifa, R., & Chortane, S. G. (2021). The effect of concurrent resistance training on upper body strength, sprint swimming performance and kinematics in competitive adolescent swimmers: A randomized controlled trial. International Journal of Environmental Research and Public Health, 18(19), 10261. https://doi.org/10.3390/ijerph181910261 |
| 3. | Barbosa, T. M., Lima, F., Porters, A., Novais, D., Machado, L., Colaço, P., Gonçalves, P., Fernandes, R., Keskinen, K. L., & Vilas-Boas, J. P. (2006). Relationships between energy cost, swimming velocity and speed fluctuations in competitive swimming strokes. In J. P. Vilas-Boas, F. Alves, & A. Marques (Eds.), Biomechanics and Medicine in Swimming X (pp. 192–194). Portuguese Journal of Sport Sciences. |
| 4. | Barbosa, T. M., Bragada, J. A., Reis, V. M., Marinho, D. A., Carvalho, C., & Silva, A. J. (2010). Energetics and biomechanics as determining factors of swimming performance: Updating the state of the art. Journal of Science and Medicine in Sport, 13(2), 262–269. https://doi.org/10.1016/j.jsams.2009.01.003 |
| 5. | Barbosa, T. M., Costa, M. J., Morais, J. E., Morouço, P., Moreira, M., Garrido, N. D., Marinho, D. A., & Silva, A. J. (2013a). Characterization of speed fluctuation and drag force in young swimmers: A gender comparison. Human Movement Science, 32(6), 1214–1225. https://doi.org/10.1016/j.humov.2012.07.009 |
| 6. | Barbosa, T. M., Morouço, P. G., Jesus, S., Feitosa, W. G., Costa, M. J., Marinho, D. A., Silva, A. J., & Garrido, N. D. (2013b). The interaction between intra-cyclic variation of the velocity and mean swimming velocity in young swimmers. International Journal of Sports Medicine, 34(2), 123–130. https://doi.org/10.1055/s-0032-1321889 |
| 7. | Chollet, D., Chalies, S., & Chatard, J. C. (2000). A new index of coordination for the crawl: Description and usefulness. International Journal of Sports Medicine, 21(1), 54–59. https://doi.org/10.1055/s-2000-8855 |
| 8. | Cohen, J. (1988). Statistical power analysis for the behavioral sciences (2nd ed.). Lawrence Erlbaum Associates. |
| 9. | Fernandes, A., Afonso, J., Noronha, F., Mezencio, B., Vilas-Boas, J. P., & Fernandes, R. J. (2023). Intracyclic velocity variation in swimming: A systematic scoping review. Bioengineering, 10(3), 308. https://doi.org/10.3390/bioengineering10030308 |
| 10. | Figueiredo, P., Barbosa, T. M., Vilas-Boas, J. P., & Fernandes, R. J. (2012). Energy cost and body centre of mass’ 3D intracycle velocity variation in swimming. European Journal of Applied Physiology, 112(9), 3319–3326. |
| 11. | Figueiredo, P., Pendergast, D. R., Vilas-Boas, J. P., & Fernandes, R. J. (2013). Interplay of biomechanical, energetic, coordinative, and muscular factors in a 200 m front crawl swim. BioMed Research International, 2013, Article 897232. https://doi.org/10.1155/2013/897232 |
| 12. | Figueiredo, P., Silva, A., Samparo, A., Vilas-Boas, J. P., & Fernandes, R. J. (2016). Front crawl sprint performance: A cluster analysis of biomechanics, energetics, coordinative, and anthropometric determinants in young swimmers. Motor Control, 20(3), 209–221. https://doi.org/10.1123/mc.2014-0050 |
| 13. | Fujishima, M., & Miyashita, M. (1999). Velocity degradation caused by its fluctuation in swimming and guidelines for improvement of average velocity. In K. L. Keskinen, P. V. Komi, & A. P. Hollander (Eds.), Swimming Science VIII (pp. 41–45). University of Jyväskylä. |
| 14. | Girold, S., Calmels, P., Maurin, D., Milhau, N., & Chatard, J. C. (2006). Assisted and resisted sprint training in swimming. Journal of Strength and Conditioning Research, 20(3), 547–554. https://doi.org/10.1519/00124278-200608000-00021 |
| 15. | Gonjo, T., Fernandes, R. J., Vilas-Boas, J. P., & Sanders, R. (2023). Is the use of the coefficient of variation a valid way to assess the swimming intra-cycle velocity fluctuation? Journal of Science and Medicine in Sport, 26(4), 328–334. https://doi.org/10.1016/j.jsams.2022.12.009 |
| 16. | Gourgoulis, V., Aggeloussis, N., Boli, A., Michalopoulou, M., Toubekis, A., Kasimatis, P., Vezos, N., Mavridis, G., Antoniou, P., & Mavrommatis, G. (2013). Inter-arm coordination and intra-cyclic variation of the hip velocity during front crawl resisted swimming. Journal of Sports Medicine and Physical Fitness, 53(6), 612–619. |
| 17. | Gourgoulis, V., Aggeloussis, N., Kasimatis, P., Vezos, N., Boli, A., & Mavromatis, G. (2008). Reconstruction accuracy in underwater three-dimensional kinematic analysis. Journal of Science and Medicine in Sport, 11(1), 90–95 |
| 18. | Gourgoulis, V., Koulexidis, S., Gketzenis, P., & Tzouras, G. (2018). Intracyclic velocity variation of the centre of mass and hip in breaststroke swimming with maximal intensity. Journal of Strength and Conditioning Research, 32(3), 830–840. https://doi.org/10.1519/JSC.0000000000001818 |
| 19. | Gourgoulis, V., Valkoumas, I., Boli, A., Aggeloussis, N., & Antoniou, P. (2019). Effect of an 11-week in-water training program with increased resistance on the swimming performance and the basic kinematic characteristics of the front crawl stroke. Journal of Strength and Conditioning Research, 33(1), 95–103. https://doi.org/10.1519/JSC.0000000000001906 |
| 20. | Grznár, L., Macejková, Y., Labudová, J., Polalovicová, M., Putala, M., & Herich, K. (2018). Effect of resistance training with parachutes on power and speed development in a group of competitive swimmers. Journal of Physical Education and Sport, 18(2), 787–791. https://doi.org/10.7752/jpes.2018.02116 |
| 21. | Maglischo, C. W., Maglischo, E. W., & Santos, T. R. (1987). The relationship between the forward velocity of the center of gravity and the forward velocity of the hip in the four competitive strokes. Journal of Swimming Research, 3(2), 11–17. |
| 22. | Matsuda, Y., Yamada, Y., Ikuta, Y., Nomura, T., & Oda, S. (2014). Intracyclic velocity variation and arm coordination for different skilled swimmers in front crawl. Journal of Human Kinetics, 44, 67–74. https://doi.org/10.2478/hukin-2014-0110 |
| 23. | Mavridis, G., Kabitsis, C., Gourgoulis, V., & Toubekis, A. (2006). Swimming velocity improved by specific resistance training in age-group swimmers. In J. P. Vilas-Boas, F. Alves, & A. Marques (Eds.), Biomechanics and Medicine in Swimming X (pp. 304–306). Portuguese Journal of Sport Sciences. |
| 24. | Morrison, L., Peyrebrune, M., & Folland, J. (2005). Resisted swimming training improves 100 m freestyle performance in elite swimmers. Journal of Sports Sciences, 23(11–12), 1295–1300. |
| 25. | Nigg, B. (1983). Selected methodology in biomechanics with respect to swimming. In A. P. Hollander, P. Huijing, & G. de Groot (Eds.), Biomechanics and Medicine in Swimming (pp. 72–80). Human Kinetics. |
| 26. | Pataky, T. C., Vanrenterghem, J., & Robinson, M. A. (2015). Zero- vs. one-dimensional, parametric vs. non-parametric, and confidence interval vs. hypothesis testing procedures in one-dimensional biomechanical trajectory analysis. Journal of Biomechanics, 48(7), 1277–1285. https://doi.org/10.1016/j.jbiomech.2015.02.051 |
| 27. | Pendergast, D. R., Capelli, C., Craig, A. B., di Prampero, P. E., Minetti, A. E., Mollendorf, J., Termin, I. I., & Zamparo, P. (2006). Biophysics in swimming. In J. P. Vilas-Boas, F. Alves, & A. Marques (Eds.), Biomechanics and Medicine in Swimming X (pp. 185–189). Portuguese Journal of Sport Sciences. |
| 28. | Schleihauf, R. E. (2004). Biomechanics of human movement. AuthorHouse. |
| 29. | Seifert, L., Boulesteix, L., & Chollet, D. (2004). Effect of gender on the adaptation of arm coordination in front crawl. International Journal of Sports Medicine, 25(3), 217–223. https://doi.org/10.1055/s-2003-45257 |
| 30. | Seifert, L., Chollet, D., & Allard, P. (2005). Arm coordination symmetry and breathing effect in front crawl. Human Movement Science, 24(2), 234–256. https://doi.org/10.1016/j.humov.2005.06.003 |
| 31. | Silva, A. F., Figueiredo, P., Morais, S., Vilas-Boas, J. P., Fernandes, R. J., & Seifert, L. (2019). Task constraints and coordination flexibility in young swimmers. Motor Control, 23(4), 535–552. |
| 32. | Toussaint, H. M., & Beek, P. J. (1992). Biomechanics of competitive front crawl swimming. Sports Medicine, 13(1), 8–24. https://doi.org/10.2165/00007256-199213010-00002 |
| 33. | Valkoumas, I., Gourgoulis, V., Aggeloussis, N., & Antoniou, P. (2023). The influence of an 11-week resisted training program on the inter-arm coordination in front crawl swimmers. Sports Biomechanics, 22(6), 940–952. |
| 34. | Winter, D. A. (1990). Biomechanics and motor control of human movement (2nd ed.). Wiley. |