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The effects of a novel neuromuscular training programme on recreational female hockey players during a sagittal plane hop, hop and twist and unanticipated sidecut

Johnston, Tom; Brown, S.; Kaliarntas, K.

Authors



Abstract

INTRODUCTION: Females are at greater risk than other populations to sustain a noncontact injury especially the knee,
hamstring and ankle (Lin et al., 2018). This may be, in part, associated with muscle activation, landing technique leading to
greater ligament strain via higher ground reaction force (Hewett et al., 2010). Multi-component neuromuscular training
can significantly reduce noncontact injury (Brunner et al., 2019) by altering muscle activation, significantly reducing injuries
and modifying landing technique (Zebis et al., 2016; Steinberg et al., 2017; Khayambashi et al., 2015 respectively). The aim
of this study was to assess the effects of a sport-specific neuromuscular training programme (NMTP) on EMG, kinematics
and kinetics during a sagittal plane hop, hop and twist and an unanticipated sidecut.
METHODS: This controlled-trial with female recreational hockey players who either performed the NMTP or their usual
warm-up (CON = 18, INT = 20). The intervention (INT) performed the NMTP 3x/week before their training sessions or
matches for 8 weeks. The control (CON) group performed their normal warm-up at all times. The players were biomechanically tested (3-D motion capture system, force plates and electromyography (EMG)) while performing sagittal plane
hop, hop and twist and an unanticipated sidecut each time. The EMG activity was measured Gluteus Maximus (GMax),
Gluteus medias (GMed), Semitendinosus (HamMed), Biceps Femoris (HamLat), Vastus Medialis (VM) and Lateralis (VL),
Gastrocnemius Lateralis (GasLat) and Medialis (GasMed) at 100ms and 30ms prior to initial contact (IC), 50ms post landing, IC to maximum knee flexion (MKF) and time to peak. Peak vertical ground reaction force (PvGRF), rate of force development (RFD) and trunk, hip, knee and ankle kinematics in all 3 planes was also measured.
RESULTS: EMG: There was a non-statistically significant trend of greater muscle activation in all time points following NMT.
There was significantly greater gastrocnemius (medialis and lateralis) muscle activation in both groups at 100ms prior to
IC, IC to 50ms and IC to MKF, with a greater increase in the INT group. Further, there was an overall greater reduction in
time to peak in INT compared to CON. Kinematics: There were significant decreases (p = 0.009) in maximum knee abduction (CON = 9.89 to 9.93°; INT = 10.89 to 8.47°) and knee excursion (p = 0.011) for INT (CON = 10.07 to 11.3°; INT = 10.79 to 8.04°). Kinetics: There was significant reduction (p= 0.002) in RFD (CON = 19.53 to 21.75; INT = 18.88 to 12.83 BW/s) after the intervention period for the intervention group.
CONCLUSION: The sports-specific NMTP showed some significant alterations on the kinematics and kinetics following 8 weeks of NMT. There were significantly greater increases in the muscle activation of the Gastrocnemius for INT groups
than CON. There were significant reductions in knee abduction and excursion and rate of force development following this
NMTP. These adaptations could reduce the risk of injury.

Citation

Johnston, T., Brown, S., & Kaliarntas, K. (2024, July). The effects of a novel neuromuscular training programme on recreational female hockey players during a sagittal plane hop, hop and twist and unanticipated sidecut. Poster presented at 29th Annual Congress of European College of Sport Science, Glasgow, UK

Presentation Conference Type Poster
Conference Name 29th Annual Congress of European College of Sport Science
Start Date Jul 2, 2024
End Date Jul 5, 2024
Acceptance Date Jul 15, 2024
Online Publication Date Jul 6, 2024
Publication Date 2024
Deposit Date Jul 17, 2024
Peer Reviewed Peer Reviewed
Book Title Book of abstracts
ISBN 978-3-9818414-7-3
Keywords Neuromuscular Training, Hockey, Female, Hop, Twist, Sidecut
Publisher URL https://www.ecss2006.com/ASP/CONGRESS/TOOLS/Scientific_Programme/Sessions_Abstract_Read.asp?mySessionID=E-Posters&myAbstractID=814