Resistance Training Practices of Sprint Coaches.
Journal
Journal of strength and conditioning research
ISSN: 1533-4287
Titre abrégé: J Strength Cond Res
Pays: United States
ID NLM: 9415084
Informations de publication
Date de publication:
01 Jul 2021
01 Jul 2021
Historique:
pubmed:
13
2
2019
medline:
23
6
2021
entrez:
13
2
2019
Statut:
ppublish
Résumé
Healy, R, Kenny, IC, and Harrison, AJ. Resistance training practices of sprint coaches. J Strength Cond Res 35(7): 1939-1948, 2021-This study describes the results of a survey of resistance training practices of sprint coaches. This study investigated why sprint coaches prescribe resistance training to their athletes, what exercises they select, and what factors are involved with their selection. Forty-one of 73 (56%) sprint coaches with mean ± SD coaching experience of 8.4 ± 6.4 years were included in this study. Coaches completed an online questionnaire consisting of 5 sections: (a) informed consent, (b) coach background information, (c) coach education and qualifications, (d) coaches' views on resistance training, and (e) exercise selection and preference. The results showed that coaches prescribe resistance training to their sprint athletes to develop strength and power, which they believe will transfer to sprint performance. Coaches prescribed a wide variety of traditional, ballistic, and plyometric exercises, with the hurdle jump found to be the most widely prescribed exercise (93% of coaches surveyed). Coaches selected exercises for a variety of reasons; however, the 3 most prominent reasons were: (a) performance adaptations; (b) practicality; and (c) the targeting of muscles/muscle groups. Coaches prioritized exercises that specifically developed strength, power, and reactive strength for their sprint athletes. This research can be used to develop educational resources for sprint coaches who wish to use resistance training with their athletes. In addition, sprint coaches can use the data presented to expand their current exercise repertoire and resistance training practices.
Identifiants
pubmed: 30747902
pii: 00124278-202107000-00020
doi: 10.1519/JSC.0000000000002992
doi:
Types de publication
Journal Article
Langues
eng
Sous-ensembles de citation
IM
Pagination
1939-1948Informations de copyright
Copyright © 2019 National Strength and Conditioning Association.
Références
Baechle TR, Earle RW. Survey: Does being C.S.C.S-certified make a difference? Strength Cond J 14: 23–27, 1992.
Balsalobre-Fernández C, Tejero-González CM, del Campo-Vecino J, Alonso-Curiel D. The effects of a maximal power training cycle on the strength, maximum power, vertical jump height and acceleration of high-level 400-meter hurdlers. J Hum Kinet 36: 119–126, 2013.
Bezodis IN, Kerwin DG, Cooper SM, Salo AI. Sprint running performance and technique changes in athletes during periodized training: An elite training group case study. Int J Sports Physiol Perform 13: 755–762, 2018.
Blazevich AJ, Jenkins DG. Effect of the movement speed of resistance training exercises on sprint and strength performance in concurrently training elite junior sprinters. J Sports Sci 20: 981–990, 2002.
Bolger R, Lyons M, Harrison AJ, Kenny IC. Sprinting performance and resistance-based training interventions: A systematic review. J Strength Cond Res 29: 1146–1156, 2015.
Bolger R, Lyons M, Harrison AJ, Kenny IC. Coaching sprinting: Expert coaches' perception of resistance-based training. Int J Sports Sci Coach 11: 746–754, 2016.
Braun V, Clarke V. Using thematic analysis in psychology. Qual Res Psychol 3: 77–101, 2006.
Bret C, Rahmani A, Dufour A, Messonnier L, Lacour J. Leg strength and stiffness as ability factors in 100 m sprint running. J Sports Med Phys Fitness 42: 274–281, 2002.
Cappa DF, Behm DG. Neuromuscular characteristics of drop and hurdle jumps with different types of landings. J Strength Cond Res 27: 3011–3020, 2013.
Cormie P, McGuigan MR, Newton RU. Developing maximal neuromuscular power: Part 2—Training considerations for improving maximal power production. Sports Med 41: 125–146, 2011.
Crowley E, Harrison AJ, Lyons M. Dry-land resistance training practices of elite swimming strength and conditioning coaches. J Strength Cond Res 32: 2592–2600, 2018.
Delecluse C. Influence of strength training on sprint running performance. Sports Med 24: 147–156, 1997.
Delecluse C, Coppenolle HV, Willems E, et al. Analysis of 100 meter sprint performance as a multi-dimensional skill. J Hum Mov Studies 28: 87, 1995.
Dorn TW, Schache AG, Pandy MG. Muscular strategy shift in human running: Dependence of running speed on hip and ankle muscle performance. J Exp Biol 215: 1944–1956, 2012.
Ebben WP, Blackard DO. Strength and conditioning practices of National Football League strength and conditioning coaches. J Strength Cond Res 15: 48–58, 2001.
Ebben WP, Carroll RM, Simenz CJ. Strength and conditioning practices of National Hockey League strength and conditioning coaches. J Strength Cond Res 18: 889–897, 2004.
Ebben WP, Hintz MJ, Simenz CJ. Strength and conditioning practices of Major League Baseball strength and conditioning coaches. J Strength Cond Res 19: 538, 2005.
Fauth ML, Garceau L, Lutsch B, et al. Kinetic analysis of lower body resistance training exercises, 2010.
Gee TI, Olsen PD, Berger NJ, Golby J, Thompson KG. Strength and conditioning practices in rowing. J Strength Cond Res 25: 668–682, 2011.
Hennessy L, Kilty J. Relationship of the stretch-shortening cycle to sprint performance in trained female athletes. J Strength Cond Res 15: 326–331, 2001.
Hunter JP, Marshall RN, McNair PJ. Relationships between ground reaction force impulse and kinematics of sprint-running acceleration. J Appl Biomech 21: 31–43, 2005.
Jones R, Bezodis I, Thompson A. Coaching sprinting: Expert coaches' perception of race phases and technical constructs. Int J Sports Sci Coaching 4: 385–396, 2009.
Jones TW, Smith A, Macnaughton LS, French DN. Strength and conditioning and concurrent training practices in elite rugby union. J Strength Cond Res 30: 3354–3366, 2016.
Kamandulis S, Skurvydas A, Brazaitis M, et al. Effect of a periodized power training program on the functional performances and contractile properties of the quadriceps in sprinters. Res Q Exerc Sport 83: 540–545, 2012.
Kelley K, Clark B, Brown V, Sitzia J. Good practice in the conduct and reporting of survey research. Int J Qual Health Care 15: 261–266, 2003.
Lockie RG. A 6-week base strength training program for sprint acceleration development and foundation for future progression in amateur athletes. Strength Cond J 40: 2–12, 2018.
Loturco I, D'angelo RA, Fernandes V, et al. Relationship between sprint ability and loaded/unloaded jump tests in elite sprinters. J Strength Cond Res 29: 758–764, 2015.
Loturco I, Kobal R, Kitamura K, et al. Predictive factors of elite sprint performance: Influences of muscle mechanical properties and functional parameters. J Strength Cond Res 33:974–986, 2018.
Maulder PS, Bradshaw EJ, Keogh J. Jump kinetic determinants of sprint acceleration performance from starting blocks in male sprinters. J Sports Sci Med 5: 359, 2006.
Meckel Y, Atterbom H, Grodjinovsky A, Ben-Sira D, Rotstein A. Physiological characteristics of female 100 metre sprinters of different performance levels. J Sports Med Phys Fitness 35: 169–175, 1995.
Moir GL, Brimmer SM, Snyder BW, Connaboy C, Lamont HS. Mechanical limitations to sprinting and biomechanical solutions: A constraints-led framework for the incorporation of resistance training to develop sprinting speed. Strength Cond J 40: 47–67, 2018.
Morin JB, Bourdin M, Edouard P, et al. Mechanical determinants of 100-m sprint running performance. Eur J Appl Physiol 112: 3921–3930, 2012.
Morin JB, Edouard P, Samozino P. Technical ability of force application as a determinant factor of sprint performance. Med Sci Sports Exerc 43: 1680–1688, 2011.
Nagahara R, Naito H, Miyashiro K, Morin J, Zushi K. Traditional and ankle-specific vertical jumps as strength-power indicators for maximal sprint acceleration. J Sports Med Phys Fitness 54: 691–699, 2014.
Nicol C, Avela J, Komi PV. The stretch-shortening cycle. Sports Med 36: 977–999, 2006.
Pandy MG, Zajac FE. Optimal muscular coordination strategies for jumping. J Biomech 24: 1–10, 1991.
Rumpf MC, Lockie RG, Cronin JB, Jalilvand F. Effect of different sprint training methods on sprint performance over various distances: A brief review. J Strength Cond Res 30: 1767–1785, 2016.
Satkunskiene D, Rauktys D, Stanislovaitis A. The effect of power training on sprint running kinematics. Educ Phys Train Sport 72: 116–122, 2009.
Simenz CJ, Dugan CA, Ebben WP. Strength and conditioning practices of National Basketball Association strength and conditioning coaches. J Strength Cond Res 19: 495–504, 2005.
Smirniotou A, Katsikas C, Paradisis G, et al. Strength-power parameters as predictors of sprinting performance. J Sports Med Phys Fitness 48: 447, 2008.
Smith JP, Kernozek TW, Kline DE, Wright GA. Kinematic and kinetic variations among three depth jump conditions in male NCAA Division III athletes. J Strength Cond Res 25: 94–102, 2011.
Song C, Peng H, Kernozek T, Wang Y. Biomechanical strategy during plyometric barrier jump-influence of drop-jump heights on joint stiffness. Presented at ISBS-Conference Proceedings Archive, 2010.
Tapley HE, Fonseca E, Fontanilla SH, Gremillion AM. Benefits of the CSCS credential to the physical therapist: A descriptive study. J Strength Cond Res, 2014. doi: 10.1519/JSC.0000000000000545.
doi: 10.1519/JSC.0000000000000545
Thompson A, Bezodis IN, Jones RL. An in-depth assessment of expert sprint coaches' technical knowledge. J Sports Sci 27: 855–861, 2009.
Weyand PG, Sandell RF, Prime DN, Bundle MW. The biological limits to running speed are imposed from the ground up. J Appl Physiol 108: 950–961, 2010.
Weyand PG, Sternlight DB, Bellizzi MJ, Wright S. Faster top running speeds are achieved with greater ground forces not more rapid leg movements. J Appl Physiol 89: 1991–1999, 2000.
Whelan N, Kenny IC, Harrison AJ. An insight into track and field coaches' knowledge and use of sprinting drills to improve performance. Int J Sports Sci Coaching 11: 182–190, 2016.
Wild J, Bezodis NE, Blagrove R, Bezodis I. A biomechanical comparison of accelerative and maximum velocity sprinting: Specific strength training considerations. Prof Strength Cond 21: 23–37, 2011.
Young W, Mc Lean B, Ardagna J. Relationship between strength qualities and sprinting performance. J Sports Med Phys Fitness 35: 13–19, 1995.