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Saša Krstulović, Andrea De Giorgio, Óscar DelCastillo Andrés, Emerson Franchini, and Goran Kuvačić

, C.H. , Fisher , B. , Winstein , C. , Wu , A. , & Gordon , J. ( 2008 ). Contextual interference effect: Elaborative processing or forgetting-reconstruction? A post hoc analysis of transcranial magnetic stimulation-induced effects on motor learning . Journal of Motor Behavior, 40 ( 6

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Masahiro Yamada, Lauren Q. Higgins, and Louisa D. Raisbeck

focus of attention results in greater swimming speed . International Journal of Sports Science & Coaching, 5 ( 4 ), 533 – 542 . doi: 10.1260/1747-9541.5.4.533 Haggard , P. , & Magno , E. ( 1999 ). Localising awareness of action with transcranial magnetic stimulation . Experimental Brain

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Sommer Christie, Maurizio Bertollo, and Penny Werthner

doi:10.1249/00005768-199101000-00018 10.1249/00005768-199101000-00018 Leocani , L. , Cohen , L.G. , Wassermann , E.M. , Ikoma , K. , & Hallett , M. ( 2000 ). Human corticospinal excitability evaluated with transcranial magnetic stimulation during different reaction time paradigms . Brain

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John F.T. Fernandes, Kevin L. Lamb, Jonathan P. Norris, Jason Moran, Benjamin Drury, Nattai R. Borges, and Craig Twist

from resistance training, these studies might also employ methods such as the twitch interpolation technique or transcranial magnetic stimulation to examine the influence of peripheral and central alterations. The EIMD incurred from resistance training has the potential to impair sporting performance

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Sungwan Kim, Daeho Kim, and Jihong Park

, Pietrosimone BG , Hart JM , Saliba SA , Ingersoll CD . Transcranial magnetic stimulation and volitional quadriceps activation . J Athl Train . 2010 ; 45 ( 6 ): 570 – 579 . PubMed ID: 21062180 doi:10.4085/1062-6050-45.6.570 10.4085/1062-6050-45.6.570 21062180 19. Kuenze C , Hertel J , Hart

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Aviroop Dutt-Mazumder, Richard L. Segal, and Aiko K. Thompson

. , Christensen , L.O. , & Nielsen , J. ( 1998 ). The effect of transcranial magnetic stimulation on the soleus H reflex during human walking . Journal of Physiology, 513 ( Pt. 2 ), 599 – 610 . doi:10.1111/j.1469-7793.1998.599bb.x 10.1111/j.1469-7793.1998.599bb.x Pinniger , G.J. , Nordlund , M

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Brice T. Cleland and Sheila Schindler-Ivens

requires a higher level of intracortical inhibition than volitional pedaling. Yamaguchi et al. (2012) used transcranial magnetic stimulation to evaluate intracortical inhibition before and after passive and volitional pedaling. They found that intracortical inhibition was the same before and after

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Jill Whitall, Farid Bardid, Nancy Getchell, Melissa M. Pangelinan, Leah E. Robinson, Nadja Schott, and Jane E. Clark

measure its effect on more overt behavior. For example, transcranial magnetic stimulation (TMS) is one method in which brief high-intensity magnetic fields are used to stimulate corticospinal neurons and measure the latency and magnitude of the motor-evoked potentials as well as muscular activation. This