Search Results

You are looking at 81 - 90 of 109 items for :

  • "sprint training" x
Clear All
Restricted access

Weiyun Chen, Cynthia Bowers and Pamela Hodges Kulinna

supports key tenets of authenticity and ELT ( Kolb & Kolb, 2009 ). With less time of exposure to the MTR program, the typical academic achievement group also demonstrated improvements. Improvement in both groups has been seen in other studies (e.g., sprint training on inflatable or solid surfaces; Cressey

Restricted access

Christopher A. DiCesare, Adam W. Kiefer, Scott Bonnette and Gregory D. Myer

. Effects of a plyometrics intervention program on sprint performance . J Strength Cond Res . 2000 ; 14 ( 3 ): 295 – 301 . 14. Prieske O , Kruger T , Aehle M , Bauer E , Granacher U . Effects of resisted sprint training and traditional power training on sprint, jump, and balance performance

Restricted access

Richard Latzel, Olaf Hoos, Sebastian Stier, Sebastian Kaufmann, Volker Fresz, Dominik Reim and Ralph Beneke

. Practical Applications The findings of this study indicate that practitioners should focus on appropriate protocols of aerobic conditioning to increase aerobic capacity, repeated sprint training to develop fast VO 2 uptake kinetics, 13 as well as basketball-specific on-court drills and exercises. 3 , 7

Restricted access

Jake Schuster, Dan Howells, Julien Robineau, Anthony Couderc, Alex Natera, Nick Lumley, Tim J. Gabbett and Nick Winkelman

physiological and anthropometric characteristics of rugby league players during a competitive season . J Strength Cond Res . 2005 ; 19 ( 2 ): 400 – 408 . PubMed doi: 10.1519/14884.1 35. Rumpf M , Lockie R , Cronin J , Jalilvand F . The effect of different sprint training methods on sprint

Restricted access

Mehrez Hammami, Nawel Gaamouri, Gaith Aloui, Roy J. Shephard and Mohamed Souhaiel Chelly

 al 6 found increases in the best time ( P  < .01), total time ( P  < .001), and fatigue index ( P  < .01) of male handball athletes after 10 weeks of explosive strength training. Buchheit et al 27 also found that repeated shuttle sprint training induced larger improvements in best times (22.9% [2

Restricted access

Nicki Winfield Almquist, Gertjan Ettema, James Hopker, Øyvind Sandbakk and Bent R. Rønnestad

or running, 54.9 [34.6] h recorded 30 d prior to inclusion) and have been competing in cycling for 5.3 (4.1) years. The cyclists were categorized as performance level 4 to 5, according to De Pauw et al. 23 All participants were accustomed to sprinting on the bike, but did not perform specific sprint

Restricted access

João Paulo Limongi França Guilherme, Ekaterina A. Semenova, Hirofumi Zempo, Gabriel L. Martins, Antonio H. Lancha Junior, Eri Miyamoto-Mikami, Hiroshi Kumagai, Takuro Tobina, Keisuke Shiose, Ryo Kakigi, Takamasa Tsuzuki, Noriko Ichinoseki-Sekine, Hiroyuki Kobayashi, Hisashi Naito, Oleg V. Borisov, Elena S. Kostryukova, Nikolay A. Kulemin, Andrey K. Larin, Edward V. Generozov, Noriyuki Fuku and Ildus I. Ahmetov

individuals (carriers of the associated variant) are expected to respond better to sprint training. Power training, like that used by sprinters, seems to conserve the pretraining number of fast-twitch fibers while increasing their fiber cross-sectional area, particularly type IIx fibers, 32 favoring a higher

Restricted access

Nils Haller, Tobias Ehlert, Sebastian Schmidt, David Ochmann, Björn Sterzing, Franz Grus and Perikles Simon

Playing time No. of intense runs No. of sprints Training distance covered Catapult training load cfDNA Foster TL (RPE × duration) r s  = .61; P  < .0001 r s  = .58; P  < .0001 r s  = .56; P  < .0001 r s  = .46; P  = .0001 r s  = .23; n.s. r s  = .17; n.s. r s  = −.04; n.s. VAS (general perceived

Restricted access

Dan Weaving, Nicholas E. Dalton, Christopher Black, Joshua Darrall-Jones, Padraic J. Phibbs, Michael Gray, Ben Jones and Gregory A.B. Roe

change during other modes of training (eg, contact vs noncontact skills training, sprint-training, small-sided games) with additional TL measures and particularly if this influences the relationships with acute (eg, markers of fatigue) and chronic (eg, injury or changes in fitness) training responses

Restricted access

Gavriil G. Arsoniadis, Gregory C. Bogdanis, Gerasimos Terzis and Argyris G. Toubekis

.jsams.2011.03.002 21459668 23. Thomas K , Brownstein CG , Dent J , Parker P , Goodall S , Howatson G . Neuromuscular fatigue and recovery after heavy resistance, jump, and sprint training . Med Sci Sports Exerc . 2018 ; 50 ( 12 ): 2526 – 2535 . PubMed ID: 30067591 doi:10.1249/MSS