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DOI: 10.1055/a-0970-5564
Plyometric-based Training for Isokinetic Knee Strength and Jump Performance in Cricket Fast Bowlers
Publication History
accepted 05 July 2019
Publication Date:
12 August 2019 (online)
Abstract
Competitive cricket demands a high level of performance from fast bowlers. Ground reaction forces during the landing phase pose a risk for lower limb and lumbar spine injury. Good dynamic knee strength allows the knee to flex to absorb these forces and extend prior to ball release for maximum efficiency. Plyometric training has been shown to improve dynamic strength. There is a lack of literature on this subject for cricket. This study evaluated the effect of a combined plyometric and strength training program on isokinetic knee strength of fast bowlers. Forty-two professional fast bowlers were randomly assigned to a training group (n=21) and a control group (n=21). Both groups underwent isokinetic knee strength and vertical and standing broad-jump testing. Quadriceps and hamstring concentric and eccentric peak torques, bilateral strength asymmetries (BSAs), and dynamic control ratios (DCRs) were evaluated by isokinetic testing. The study group underwent 12 weeks of plyometric training, whereas the control group continued with their own training methods. The study group showed a significant improvement (p<0.05) in jump performance and eccentric strength. There was a reduction in the proportion of bowlers with poor BSA and DCR. Improving dynamic knee strength through plyometric training reduces injury risk and improves performance in cricket fast bowlers.
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References
- 1 Stretch RA. Cricket injuries – a longitudinal study of the nature of injuries to South African cricketers. Br J Sports Med 2003; 37: 250-253
- 2 Bartlett RM, Stockill NP, Elliott BC, Burnett AF. The biomechanics of fast bowling in men’s cricket: a review. J Sports Sci 1996; 14: 403-424
- 3 Foster D, John D, Elliott B, Ackland T, Fitch K. Back injuries to fast bowlers in cricket: A prospective study. Br J Sports Med 1989; 23: 150-154
- 4 Elliott BC, Hardcastle PH, Burnett AE, Foster DH. The influence of fast bowling and physical factors on radiologic features in high performance young fast bowlers. Sports Medicine, Training and Rehabilitation 1992; 3: 113-130
- 5 Hadzic V, Sattler T, Markovic G, Veselko M, Dervisevic E. The isokinetic strength profile of quadriceps and hamstrings in elite volleyball players. Isokinet Exerc Sci 2010; 18: 31-37
- 6 Baltzopoulos V, Brodie DA. Isokinetic dynamometry: applications and limitations. Sports Med 1989; 8: 101-116
- 7 Kannus P. Isokinetic evaluation of muscular performance. Int J Sports Med 1994; 15: S11-S18
- 8 Hewett TE, Stroupe AL, Nance TA, Noyes FR. Plyometric training in female athletes: decreased impact forces and increased hamstring torques. Am J Sports Med 1996; 24: 765-773
- 9 Wilkerson GB, Colston MA, Short NI, Neal KL, Hoewischer PE, Pixley JJ. Neuromuscular changes in female collegiate athletes resulting from a plyometric jump-training program. J Athl Train 2004; 39: 17-23
- 10 Myer GD, Ford KR, Palumbo JP, Hewett TE. Neuromuscular training improves performance and lower-extremity biomechanics in female athletes. J Strength Cond Res 2005; 19: 51-60
- 11 Harriss D, Macsween A, Atkinson G. Standards for ethics in sport and exercise science research: 2018 update. Int J Sports Med 2017; 38: 1126-1131
- 12 Clark R, Bryant A, Culgan J-P, Hartley B. The effects of eccentric hamstring strength training on dynamic jumping performance and isokinetic strength parameters: A pilot study on the implications for the prevention of hamstring injuries. Phys Ther Sport 2005; 6: 67-73
- 13 Fatouros IG, Jamurtas AZ, Leontsini D, Taxildaris K, Aggelousis N, Kostopoulos N, Buckenmeyer P. Evaluation of plyometric exercise training, weight training, and their combination on vertical jumping performance and leg strength. J Strength Cond Res 2000; 14: 470-476
- 14 Garber CE, Blissmer B, Deschenes MR, Franklin BA, Lamonte MJ, Lee I-M, Nieman DC, Swain DP. American College of Sports Medicine.. Quantity and quality of exercise for developing and maintaining cardiorespiratory, musculoskeletal, and neuromotor fitness in apparently healthy adults: guidance for prescribing exercise. Med Sci Sports Exerc 2011; 43: 1334-1359
- 15 Aagaard P, Simonsen EB, Magnusson SP, Larsson B, Dyhre-Poulsen P. A new concept for isokinetic hamstring: quadriceps muscle strength ratio. Am J Sports Med 1998; 26: 231-237
- 16 Delextrat A, Gregory J, Cohen D. The use of the functional H:Q Ratio to assess fatigue in soccer. Int J Sports Med 2010; 31: 192-197
- 17 Bradic A, Bradic J, Pasalic E, Markovic G. Isokinetic leg strength profile of elite male baskebtball players. J Strength Cond Res 2009; 23: 1332-1337
- 18 Portus MR, Mason BR, Elliott BC, Pfitzner MC, Done RP. Cricket: Technique factors related to ball release speed and trunk injuries in high performance cricket fast bowlers. Sports Biomech 2004; 3: 263-284
- 19 Hurrion PD, Dyson R, Hale T. Simultaneous measurement of back and front foot ground reaction forces during the same delivery stride of the fast-medium bowler. J Sports Sci 2000; 18: 993-997
- 20 Elliott BC, Hardcastle PH, Burnett AE, Foster DH. The influence of fast bowling and physical factors on radiologic features in high performance young fast bowlers. Sports Medicine, Training and Rehabilitation 1992; 3: 113-130
- 21 Orchard JW, James T, Portus MR. Injuries to elite male cricketers in Australia over a 10-year period. J Sci Med Sport 2006; 9: 459-467
- 22 Holcomb WR, Rubley MD, Lee HJ, Guadagnoli MA. Effect of hamstring-emphasized resistance training on hamstring: quadriceps strength ratios. J Strength Cond Res 2007; 21: 41
- 23 Daneshjoo A, Rahnama N, Mokhtar AH, Yusof A. Bilateral and unilateral asymmetries of isokinetic strength and flexibility in male young professional soccer players. J Hum Kinet 2013; 36: 45-53