PERTANIKA JOURNAL OF SOCIAL SCIENCES AND HUMANITIES

 

e-ISSN 2231-8534
ISSN 0128-7702

Home / Regular Issue / JSSH Vol. 32 (3) Sep. 2024 / JSSH-8931-2023

 

The Effects of Medicine Ball Training on Batting Velocity in Female Collegiate Softball Players

Maisarah Shari, Wan Ahmad Munsif Wan Pa, Mohamad Firdaus Ahmad, Ellail Ain Mohd Aznan, Ali Md Nadzalan, Noor Azila Azreen Md Radzi, Nurul Ain Abu Kasim and Raja Nurul Jannat Raja Hussain

Pertanika Journal of Social Science and Humanities, Volume 32, Issue 3, September 2024

DOI: https://doi.org/10.47836/pjssh.32.3.04

Keywords: Batting velocity, collegiate female, medicine ball, softball, torso rotation strength

Published on: 27 September 2024

Softball batting performance, characterised by bat velocity and rotational strength, is crucial for competitive success. This study explores the effect of medicine ball training, a widely used yet understudied method, on these key performance metrics. This study examines the impact of an 8-week medicine ball training program on torso rotation strength and batting velocity in female collegiate softball players. Forty participants were divided into a control group and a medicine ball group, performing 100 bat swings thrice weekly. Additionally, the medicine ball group undertook full-body medicine ball exercises thrice weekly. Results showed a significant main effect, F(1, 38) = 5.00, p = 0.03, partial eta squared = 0.12 for torso rotation strength test and F(1, 38) = 4.01, p = 0.05, partial eta squared = 0.10 for batting velocity, signifying there is a difference in the effectiveness of the two training approaches. Pre- and post-intervention tests showed significant improvements in both groups, with the medicine ball group exhibiting notably greater enhancements. Torso rotation strength and batting velocity increased significantly in the medicine ball group, demonstrating large effect sizes (Cohen’s d=1.15 and Cohen’s d=1.17, respectively). In contrast, the control group showed a substantial improvement in torso rotation strength (Cohen’s d=0.86) but a minor increase in batting velocity (Cohen’s d=0.22). These results suggest that medicine ball training effectively boosts key performance metrics in female softball players, offering valuable insights for designing more effective athletic training programmes.

  • Bragazzi, N. L., Rouissi, M., Hermassi, S., & Chamari, K. (2020). Resistance training and handball players’ isokinetic, isometric and maximal strength, muscle power and throwing ball velocity: A systematic review and meta-analysis. International Journal of Environmental Research and Public Health, 17(8), Article 2663. https://doi.org/10.3390/ijerph17082663

  • Cohen, J. (1992). Statistical power analysis. Current Directions in Psychological Science, 1(3), 98-101. https://doi.org/10.1111/1467-8721.ep10768783

  • Felion, C. W., & DeBeliso, M. (2020). The effects of core training on high school baseball performance. Athens Journal of Sports, 7(3), 173-188. https://doi.org/10.30958/ajspo.7-3-3

  • Gray, R. (2018). Comparing cueing and constraints interventions for increasing launch angle in baseball batting. Sport, Exercise, and Performance Psychology, 7(3), 318-332. https://doi.org/10.1037/spy0000131

  • Higuchi, T., Nagami, T., Mizuguchi, N., & Anderson, T. (2013). The acute and chronic effects of isometric contraction conditioning on baseball bat velocity. The Journal of Strength & Conditioning Research, 27(1), 216-222. https://doi.org/10.1519/JSC.0b013e318252ddba

  • Hussain, R. N. J. R., & Shari, M. (2021). Effects of resistance training and whole-body electromyostimulation on muscular strength in female collegiate softball players. Pertanika Journal of Social Sciences & Humanities, 29(3), 1939-1955. https://doi.org/10.47836/pjssh.29.3.24

  • Hussain, R. N. J. R., Kee, K. M., Razman, R. M., Ismail, S. I., Shari, M., Idris, N. M., Razak, R. A., & Kassim, N. A. M. (2019). Reliability of Zepp baseball on batting velocity. Malaysian. Journal of Sport Science and Recreation, 15(1), 21-29.

  • Hussain, R. N. J. R., Mea, K. K., Razman, R., Ismail, S. I., Shari, M., & Idris, N. M. (2019). The comparison between major muscle activations during different phases in softball batting. Pertanika Journal of Social Sciences & Humanities, 27(S3), 147-157.

  • Kobak, M. S., Rebold, M. J., Buser, S. L., Kappler, R. M., & Otterstetter, R. (2018). The effects of medicine ball training on bat swing velocity in prepubescent softball players. International Journal of Exercise Science, 11(4), 75-83.

  • Kong, H., & Xu, Z. (2023). Impacts of medicine ball training on explosive strength in tennis players’ upper bodies. Revista Brasileira De Medicina Do Esporte, 29. https://doi.org/10.1590/1517-8692202329012023_0013

  • Larson, C. (2021). The biomechanics of the softball swing in seven stages: Optimizing exit velocity [Master’s thesis, Lawrence University]. Lux the Lawrence University Institutional Repository. https://lux.lawrence.edu/luhp/155

  • O’Connell, M. E., Lindley, K., Scheffey, J., Caravan, A., Marsh, J. A., & Brady, A. (2022). Weighted baseball training affects arm speed without increasing elbow and shoulder joint kinetics. Journal of Applied Biomechanics, 38(5), 281-285. https://doi.org/10.1123/jab.2021-0339

  • Reinold, M. M., Macrina, L. C., Fleisig, G. S., Aune, K. T., & Andrews, J. R. (2018). Effect of a 6-week weighted baseball throwing program on pitch velocity, pitching arm biomechanics, passive range of motion, and injury rates. Sports Health: A Multidisciplinary Approach, 10(4), 327-333. https://doi.org/10.1177/1941738118779909

  • Reinold, M. M., Macrina, L. C., Fleisig, G. S., Drogosz, M., & Andrews, J. R. (2020). Acute effects of weighted baseball throwing programs on shoulder range of motion. Sports Health: A Multidisciplinary Approach, 12(5), 488-494. https://doi.org/10.1177/1941738120925728

  • Rivera, M., Leyva, W. D., Archer, D. C., Munger, C. N., Watkins, C. M., Wong, M. A., Dobbs, I. J., Galpin, A. J., Coburn, J. W., & Brown, L. E. (2018). No effect of assisted hip rotation on bat velocity. International Journal of Exercise Science, 11(4), 68-74.

  • Schoenfeld, B. J., Ratamess, N. A., Peterson, M. D., Contreras, B., Sonmez, G. T., & Alvar, B. A. (2014). Effects of different volume-equated resistance training loading strategies on muscular adaptations in well-trained men. The Journal of Strength & Conditioning Research, 28(10), 2909-2918. https://doi.org/10.1519/JSC.0000000000000480

  • Szymanski, D. J., DeRenne, C., & Spaniol, F. J. (2009). Contributing factors for increased bat swing velocity. The Journal of Strength & Conditioning Research, 23(4), 1338-1352. https://doi.org/10.1519/jsc.0b013e318194e09c

  • Szymanski, D. J., Szymanski, J. M., Bradford, T. J., Schade, R. L., & Pascoe, D. D. (2007). Effect of twelve weeks of medicine ball training on high school baseball players. The Journal of Strength & Conditioning Research, 21(3), 894-901. https://doi.org/10.1519/r-18415.1

  • Szymanski, D. J., Szymanski, J. M., Schade, R. L., Bradford, T. J., McIntyre, J. S., DeRenne, C., & Madsen, N. H. (2010). The relation between anthropometric and physiological variables and bat velocity of high-school baseball players before and after 12 weeks of training. The Journal of Strength & Conditioning Research, 24(11), 2933-2943. https://doi.org/10.1519/jsc.0b013e3181f0a76a

  • Terraza-Rebollo, M., & Baiget, E. (2021). Acute and delayed effects of strength training in ball velocity and accuracy in young competition tennis players. Plos One, 16(12), Article e0260825. https://doi.org/10.1371/journal.pone.0260825