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The Effect of Velocity-Based Contraction Strength Training on Performance in Female 400m Athletes

Year 2024, , 775 - 781, 25.07.2024
https://doi.org/10.33438/ijdshs.1461018

Abstract

This study aims to compare the differences in strength training at velocity of muscle contraction in 400-meter runners. The sample group consisted of 12 female athletes who participated in the Thailand National Sports competition qualifiers in 2023. The group was divided into two: the first group underwent strength training at a fast muscle contraction rate with 80 bpm, while the second group trained at a normal muscle contraction rate with 40 bpm. The training lasted for 8 weeks, and after a 2-week post-training period, both groups were tested by swapping strength training programs. They were tested for 400-meter speed, strength from finding the 1 RM of Leg curl, Leg extension, and Leg press measured in kilograms, and explosive power from Squat jump, Countermovement jump, and Long jump. The data collected was analyzed to find the average, standard deviation, and one-way ANOVA with a statistical significance level set at .05. From the research's results, it was found that percentage change muscle contraction rates differs significantly between the two strength training formats: one with fast muscle contraction and the other with normal- muscle contraction rate (1.04±0.02 and 1.02±0.02, respectively) at a significance level of .05. Additionally, the strength and explosive power percentage change also significantly differ between the two strength training formats. Therefore, based on this study, it is possible to utilize the fast muscle contraction rate strength training format to enhance the athletic performance of athletes.

Ethical Statement

The Thailand National Sports University Research Ethics Committee for Research Involving Human Subjects approved the study protocol (SCI 042/2023). Informed consent was obtained from the parents, and assent was obtained from the children before their inclusion in the study.

Supporting Institution

Thailand national sports university

Project Number

SCI 042/2566

Thanks

We express our gratitude to the Thailand National Sports University Athletics Club for their collaboration in the research.

References

  • Alghadir, A. H., Anwer, S., Iqbal, A., & Iqbal, Z. A. (2018). Test-retest reliability, validity, and minimum detectable change of visual analog, numerical rating, and verbal rating scales for measurement of osteoarthritic knee pain. Journal of pain research, 11, 851–856. [Pubmed]
  • Ameti, V., Iseni, A., Ismaili, H., & Abazi, L. (2021). The impact of Physical Fitness and Body composition on the Success of Sprint running at 400 meters. Activities in Physical Educatıon And Sport. [CrossRef]
  • Balsalobre-Fernández, C., Tejero-González, C. M., del Campo-Vecino, J., & Alonso-Curiel, D. (2013). The effects of a maximal power training cycle on the strength, maximum power, vertical jump height and acceleration of high-level 400-meter hurdlers. Journal of Human Kinetics, 36(1), 119–126. [CrossRef]
  • de Campos Jr, J. C., Leporace, G., & Souto, A. (2019). Countermovement Jump Test Performance in Different Sports Modalities. Journal of Exercise Physiology Online, 22(5), 172–183. [CrossRef]
  • Ditroilo, M., & Marini, M. (2001). Analysis of the race distribution for male 400m hurdlers competing at the 2000 Sydney Olympic Games. New Studies in Athletics, 16(3), 15–30. [CrossRef]
  • Hanon, C., Lepretre, P.-M., Bishop, D., & Thomas, C. (2010). Oxygen uptake and blood metabolic responses to a 400-m run. European Journal of Applied Physiology, 109(2), 233–240. [PubMed]
  • Imtanabut, W., Kingcha, P., & Sinsurin, K. (2023). Comparison of knee peak toque and H:Q ratio between age above and below 40 years old in Recreational Runner without injuries. Journal of Sports Science and Health, 24(1), 55–66. [CrossRef]
  • Iskra, J., Pietrzak, M., Szczęsna, M., & Gwiazdoń, P. (2016). The development of results in 100M. and 400M. Sprint race in Athletes aged from 6 to 100. In Journal of Physical Education & Health (Vol. 6, Issue 9). [CrossRef]
  • Kaewchuay, S. (2015). Motivation of Youth for Choosing the Athletics. Journal of Interdisciplinary Research: Graduate Studies, 4(2), 1–6. [CrossRef]
  • Kantor, M. A., Cullinane, E. M., Herbert, P. N., & Thompson, P. D. (1984). Acute increase in lipoprotein lipase following prolonged exercise. Metabolism, 33(5), 454–457. [PubMed]
  • Markovic, G., Jukic, I., Milanovic, D., & Metikos, D. (2007). Effects of sprint and plyometric training on muscle function and athletic performance. The Journal of Strength & Conditioning Research, 21(2), 543–549. [CrossRef]
  • Miguel, P. J., & Reis, V. M. (2004). Speed strength endurance and 400m performance. New Studies in Athletics, 19(4), 39–45. [CrossRef]
  • Mulasiwa, K., & Sreesung, S. (2024). The effect of accentuated eccentric loading training on leg muscular performance in Youth sprinters. Journal of Sports Science and Health, 25(1), 67–82.
  • Ogata, M., Manabe, Y., Takamoto, M., & Kigoshi, K. (2003). Relationship between the ability to maintain joint torque and muscular endurance of lower limbs during 400m running. Japanese Journal of Physical Fitness and Sports Medicine, 52(4), 455–463. [CrossRef]
  • Okudaira, M., Kuki, S., Yoshida, T., Fukuda, D. H., & Tanigawa, S. (2019). Load Characteristics of Sprint Interval Training According to 400 m Running Performance: Competitive Level Comparison. In 148 148 International Journal of Sport and Health Science (Vol. 17). [CrossRef]
  • Phungern, A., & Yimlamai, T. (2020). Effect of plyometric and eccentric training on Achilles tendon stiffness in male long-distance runners. In Journal of Sports Science and Health (Vol. 22, Issue 2). [CrossRef]
  • Phogat, W.S., & Ahlawat, R.P. (2015). Relationship of Selected Bio-motor Variables to the Performance of 400 Meter Male Sprinters. International Journal of Physical Education, Sports and Health, 46(5), 46–48. [CrossRef]
  • Reynolds, J. M., Gordon, T. J., & Robergs, R. A. (2006). Prediction of one repetition maximum strength from multiple repetition maximum testing and anthropometry. The Journal of Strength & Conditioning Research, 20(3), 584–592. [CrossRef]
  • Samozino, P., Morin, J.-B., Hintzy, F., & Belli, A. (2008). A simple method for measuring force, velocity and power output during squat jump. Journal of Biomechanics, 41(14), 2940–2945. [PubMed]
  • Sengsai, P., Thanpanich, A., Makaje, N., Theanthong, A., & Phimphaphorn, P. (2019). Effects of resistance training combined with plyometric and specific movement on agility and leg muscle power in male badminton players. Academic Journal of Thailand National Sports University, 11(3), 45–57. [CrossRef]
  • Singh, D., & Singh, S. (2013). Effects of vertical and horizontal plyometric exercises on running speed. Human Movement, 14(2), 144–147. [PubMed]
  • Wallace, M. B. (1989). The acute effects of resistance exercise on parameters of lipoprotein metabolism. The Florida State University. [CrossRef]
  • Yousif, H. A., Norasmadi, A. R., Bin Salleh, A. F., Zakaria, A., & Alfarhan, K. A. (2019). Assessment of muscles fatigue during 400-meters running strategies based on the surface EMG signals. Journal of Biomimetics, Biomaterials and Biomedical Engineering, 42, 1–13. [PubMed]
  • Zarzeczny, R., Kuberski, M., Deska, A., Zarzeczna, D., Rydz, K., Lewandowska, A., Bałchanowski, T., & Bosiacki, J. (2011). Effects of 8-week training on aerobic capacity and swimming performance of boys aged 12 years. Biomedical Human Kinetics, 3(2011), 49–52. [PubMed]
  • Zhou, H., Yu, P., Thirupathi, A., & Liang, M. (2020). How to improve the standing long jump performance? A mininarrative review. Applied Bionics and Biomechanics, 2020. [PubMed]
Year 2024, , 775 - 781, 25.07.2024
https://doi.org/10.33438/ijdshs.1461018

Abstract

Project Number

SCI 042/2566

References

  • Alghadir, A. H., Anwer, S., Iqbal, A., & Iqbal, Z. A. (2018). Test-retest reliability, validity, and minimum detectable change of visual analog, numerical rating, and verbal rating scales for measurement of osteoarthritic knee pain. Journal of pain research, 11, 851–856. [Pubmed]
  • Ameti, V., Iseni, A., Ismaili, H., & Abazi, L. (2021). The impact of Physical Fitness and Body composition on the Success of Sprint running at 400 meters. Activities in Physical Educatıon And Sport. [CrossRef]
  • Balsalobre-Fernández, C., Tejero-González, C. M., del Campo-Vecino, J., & Alonso-Curiel, D. (2013). The effects of a maximal power training cycle on the strength, maximum power, vertical jump height and acceleration of high-level 400-meter hurdlers. Journal of Human Kinetics, 36(1), 119–126. [CrossRef]
  • de Campos Jr, J. C., Leporace, G., & Souto, A. (2019). Countermovement Jump Test Performance in Different Sports Modalities. Journal of Exercise Physiology Online, 22(5), 172–183. [CrossRef]
  • Ditroilo, M., & Marini, M. (2001). Analysis of the race distribution for male 400m hurdlers competing at the 2000 Sydney Olympic Games. New Studies in Athletics, 16(3), 15–30. [CrossRef]
  • Hanon, C., Lepretre, P.-M., Bishop, D., & Thomas, C. (2010). Oxygen uptake and blood metabolic responses to a 400-m run. European Journal of Applied Physiology, 109(2), 233–240. [PubMed]
  • Imtanabut, W., Kingcha, P., & Sinsurin, K. (2023). Comparison of knee peak toque and H:Q ratio between age above and below 40 years old in Recreational Runner without injuries. Journal of Sports Science and Health, 24(1), 55–66. [CrossRef]
  • Iskra, J., Pietrzak, M., Szczęsna, M., & Gwiazdoń, P. (2016). The development of results in 100M. and 400M. Sprint race in Athletes aged from 6 to 100. In Journal of Physical Education & Health (Vol. 6, Issue 9). [CrossRef]
  • Kaewchuay, S. (2015). Motivation of Youth for Choosing the Athletics. Journal of Interdisciplinary Research: Graduate Studies, 4(2), 1–6. [CrossRef]
  • Kantor, M. A., Cullinane, E. M., Herbert, P. N., & Thompson, P. D. (1984). Acute increase in lipoprotein lipase following prolonged exercise. Metabolism, 33(5), 454–457. [PubMed]
  • Markovic, G., Jukic, I., Milanovic, D., & Metikos, D. (2007). Effects of sprint and plyometric training on muscle function and athletic performance. The Journal of Strength & Conditioning Research, 21(2), 543–549. [CrossRef]
  • Miguel, P. J., & Reis, V. M. (2004). Speed strength endurance and 400m performance. New Studies in Athletics, 19(4), 39–45. [CrossRef]
  • Mulasiwa, K., & Sreesung, S. (2024). The effect of accentuated eccentric loading training on leg muscular performance in Youth sprinters. Journal of Sports Science and Health, 25(1), 67–82.
  • Ogata, M., Manabe, Y., Takamoto, M., & Kigoshi, K. (2003). Relationship between the ability to maintain joint torque and muscular endurance of lower limbs during 400m running. Japanese Journal of Physical Fitness and Sports Medicine, 52(4), 455–463. [CrossRef]
  • Okudaira, M., Kuki, S., Yoshida, T., Fukuda, D. H., & Tanigawa, S. (2019). Load Characteristics of Sprint Interval Training According to 400 m Running Performance: Competitive Level Comparison. In 148 148 International Journal of Sport and Health Science (Vol. 17). [CrossRef]
  • Phungern, A., & Yimlamai, T. (2020). Effect of plyometric and eccentric training on Achilles tendon stiffness in male long-distance runners. In Journal of Sports Science and Health (Vol. 22, Issue 2). [CrossRef]
  • Phogat, W.S., & Ahlawat, R.P. (2015). Relationship of Selected Bio-motor Variables to the Performance of 400 Meter Male Sprinters. International Journal of Physical Education, Sports and Health, 46(5), 46–48. [CrossRef]
  • Reynolds, J. M., Gordon, T. J., & Robergs, R. A. (2006). Prediction of one repetition maximum strength from multiple repetition maximum testing and anthropometry. The Journal of Strength & Conditioning Research, 20(3), 584–592. [CrossRef]
  • Samozino, P., Morin, J.-B., Hintzy, F., & Belli, A. (2008). A simple method for measuring force, velocity and power output during squat jump. Journal of Biomechanics, 41(14), 2940–2945. [PubMed]
  • Sengsai, P., Thanpanich, A., Makaje, N., Theanthong, A., & Phimphaphorn, P. (2019). Effects of resistance training combined with plyometric and specific movement on agility and leg muscle power in male badminton players. Academic Journal of Thailand National Sports University, 11(3), 45–57. [CrossRef]
  • Singh, D., & Singh, S. (2013). Effects of vertical and horizontal plyometric exercises on running speed. Human Movement, 14(2), 144–147. [PubMed]
  • Wallace, M. B. (1989). The acute effects of resistance exercise on parameters of lipoprotein metabolism. The Florida State University. [CrossRef]
  • Yousif, H. A., Norasmadi, A. R., Bin Salleh, A. F., Zakaria, A., & Alfarhan, K. A. (2019). Assessment of muscles fatigue during 400-meters running strategies based on the surface EMG signals. Journal of Biomimetics, Biomaterials and Biomedical Engineering, 42, 1–13. [PubMed]
  • Zarzeczny, R., Kuberski, M., Deska, A., Zarzeczna, D., Rydz, K., Lewandowska, A., Bałchanowski, T., & Bosiacki, J. (2011). Effects of 8-week training on aerobic capacity and swimming performance of boys aged 12 years. Biomedical Human Kinetics, 3(2011), 49–52. [PubMed]
  • Zhou, H., Yu, P., Thirupathi, A., & Liang, M. (2020). How to improve the standing long jump performance? A mininarrative review. Applied Bionics and Biomechanics, 2020. [PubMed]
There are 25 citations in total.

Details

Primary Language English
Subjects Physical Training and Sports
Journal Section Original Article
Authors

Krit Srirungrangchai 0009-0002-8464-565X

Natthawee Sriket 0009-0008-1464-6431

Mantira Phongampai 0009-0009-5086-1371

Project Number SCI 042/2566
Early Pub Date July 17, 2024
Publication Date July 25, 2024
Submission Date March 29, 2024
Acceptance Date June 18, 2024
Published in Issue Year 2024

Cite

APA Srirungrangchai, K., Sriket, N., & Phongampai, M. (2024). The Effect of Velocity-Based Contraction Strength Training on Performance in Female 400m Athletes. International Journal of Disabilities Sports and Health Sciences, 7(4), 775-781. https://doi.org/10.33438/ijdshs.1461018
AMA Srirungrangchai K, Sriket N, Phongampai M. The Effect of Velocity-Based Contraction Strength Training on Performance in Female 400m Athletes. International Journal of Disabilities Sports and Health Sciences. July 2024;7(4):775-781. doi:10.33438/ijdshs.1461018
Chicago Srirungrangchai, Krit, Natthawee Sriket, and Mantira Phongampai. “The Effect of Velocity-Based Contraction Strength Training on Performance in Female 400m Athletes”. International Journal of Disabilities Sports and Health Sciences 7, no. 4 (July 2024): 775-81. https://doi.org/10.33438/ijdshs.1461018.
EndNote Srirungrangchai K, Sriket N, Phongampai M (July 1, 2024) The Effect of Velocity-Based Contraction Strength Training on Performance in Female 400m Athletes. International Journal of Disabilities Sports and Health Sciences 7 4 775–781.
IEEE K. Srirungrangchai, N. Sriket, and M. Phongampai, “The Effect of Velocity-Based Contraction Strength Training on Performance in Female 400m Athletes”, International Journal of Disabilities Sports and Health Sciences, vol. 7, no. 4, pp. 775–781, 2024, doi: 10.33438/ijdshs.1461018.
ISNAD Srirungrangchai, Krit et al. “The Effect of Velocity-Based Contraction Strength Training on Performance in Female 400m Athletes”. International Journal of Disabilities Sports and Health Sciences 7/4 (July 2024), 775-781. https://doi.org/10.33438/ijdshs.1461018.
JAMA Srirungrangchai K, Sriket N, Phongampai M. The Effect of Velocity-Based Contraction Strength Training on Performance in Female 400m Athletes. International Journal of Disabilities Sports and Health Sciences. 2024;7:775–781.
MLA Srirungrangchai, Krit et al. “The Effect of Velocity-Based Contraction Strength Training on Performance in Female 400m Athletes”. International Journal of Disabilities Sports and Health Sciences, vol. 7, no. 4, 2024, pp. 775-81, doi:10.33438/ijdshs.1461018.
Vancouver Srirungrangchai K, Sriket N, Phongampai M. The Effect of Velocity-Based Contraction Strength Training on Performance in Female 400m Athletes. International Journal of Disabilities Sports and Health Sciences. 2024;7(4):775-81.


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