TY - JOUR
T1 - Lower-Limb Muscle Excitation, Peak Torque, and External Load Responses to a 120-Minute Treadmill-Based Soccer-Specific Simulation
AU - Field, Adam
AU - Page, Richard Michael
AU - Corr, Liam
AU - Naughton, Robert
AU - Haines, Matthew
AU - Harper, Liam David
AU - Hudson, Sean
N1 - Publisher Copyright:
© 2020 SHAPE America.
PY - 2020/12/11
Y1 - 2020/12/11
N2 - : The aim of this study was to investigate thigh musculature excitation and torque generation in response to soccer-specific exercise incorporating an extra-time (ET) period. : Twelve semiprofessional soccer players performed 120-min treadmill-based soccer-specific exercise. Surface electromyography (EMG) signals for the rectus femoris (EMG ) and biceps femoris (EMG ) were measured as the mean response across a pre-determined 10-second sprint bout during each 15-min block of exercise. Peak eccentric torque of the knee flexors (eccKF) and concentric torque of the knee extensors (conKE) were recorded across angular velocities of 60, 180, and 270 deg∙s immediately pre- and post-exercise. Tri-axial PlayerLoad™ (PL-T) was monitored throughout exercise and defined across vertical (PL-V), anterior-posterior (PL-AP), and medial-lateral (PL-ML) planes of motion. : A reduction in normalized EMG amplitude was evident at 105‒120 min, versus 0‒15 min (-12.5%; .037), 15‒30 min (-12.5%; .047), and 45‒60 min (-14%; .030). Peak torque of the eccKF was significantly reduced from pre- to post-exercise at 60 (-7.7%; = .018), 180 (-10.5%; = .042), and 270 deg∙s (-7.5%; = .034). A main effect for time was identified for PL-T ( <.010), PL-V ( = .033), and PL-AP ( <.010). : These findings suggest that muscle excitation of the rectus femoris is reduced during ET, accompanied with a deficit in the torque generation of the knee flexors following 120 min of soccer-specific activity. Practitioners should adequately condition players for the additional ET period by incorporating exercises into training schedules that develop fatigue-resistant eccentric hamstring strength to minimize injury risk.
AB - : The aim of this study was to investigate thigh musculature excitation and torque generation in response to soccer-specific exercise incorporating an extra-time (ET) period. : Twelve semiprofessional soccer players performed 120-min treadmill-based soccer-specific exercise. Surface electromyography (EMG) signals for the rectus femoris (EMG ) and biceps femoris (EMG ) were measured as the mean response across a pre-determined 10-second sprint bout during each 15-min block of exercise. Peak eccentric torque of the knee flexors (eccKF) and concentric torque of the knee extensors (conKE) were recorded across angular velocities of 60, 180, and 270 deg∙s immediately pre- and post-exercise. Tri-axial PlayerLoad™ (PL-T) was monitored throughout exercise and defined across vertical (PL-V), anterior-posterior (PL-AP), and medial-lateral (PL-ML) planes of motion. : A reduction in normalized EMG amplitude was evident at 105‒120 min, versus 0‒15 min (-12.5%; .037), 15‒30 min (-12.5%; .047), and 45‒60 min (-14%; .030). Peak torque of the eccKF was significantly reduced from pre- to post-exercise at 60 (-7.7%; = .018), 180 (-10.5%; = .042), and 270 deg∙s (-7.5%; = .034). A main effect for time was identified for PL-T ( <.010), PL-V ( = .033), and PL-AP ( <.010). : These findings suggest that muscle excitation of the rectus femoris is reduced during ET, accompanied with a deficit in the torque generation of the knee flexors following 120 min of soccer-specific activity. Practitioners should adequately condition players for the additional ET period by incorporating exercises into training schedules that develop fatigue-resistant eccentric hamstring strength to minimize injury risk.
KW - EMG
KW - Efficiency of movement
KW - strength
UR - http://www.scopus.com/inward/record.url?scp=85106838151&partnerID=8YFLogxK
UR - http://www.scopus.com/inward/citedby.url?scp=85106838151&partnerID=8YFLogxK
U2 - 10.1080/02701367.2020.1844858
DO - 10.1080/02701367.2020.1844858
M3 - Article (journal)
C2 - 33306941
SN - 2168-3824
SP - 1
EP - 11
JO - Research Quarterly for Exercise and Sport
JF - Research Quarterly for Exercise and Sport
ER -