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Contribution of Trunk Kinematics to Post-Strike Ball Velocity During a Maximal Instep Soccer Kick Brian M. Campbell1, Adam M. Fullenkamp1, James Bacher.

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Presentation on theme: "Contribution of Trunk Kinematics to Post-Strike Ball Velocity During a Maximal Instep Soccer Kick Brian M. Campbell1, Adam M. Fullenkamp1, James Bacher."— Presentation transcript:

1 Contribution of Trunk Kinematics to Post-Strike Ball Velocity During a Maximal Instep Soccer Kick Brian M. Campbell1, Adam M. Fullenkamp1, James Bacher Jr. & C. Matt Laurent1 1Bowling Green State University, Bowling Green, OH Abstract Although the importance of trunk kinematics is well established in other sports (e.g. golf), there has been limited emphasis on trunk motion in soccer research. The purpose of this project was to establish the relationship between trunk rotational kinematics and the velocity of a soccer ball following a maximal instep kick. The average peak trunk rotation velocity for the nine participants was 345.7±142.3 deg/sec, and ranged from 61.2 deg/sec to deg/sec. Figure 2 illustrates the correlation (r2=0.57) between peak trunk rotation velocity and post-strike ball velocity, suggesting that 57% of ball velocity is explained for by peak trunk rotation velocity. Figure 3 illustrates the correlation between peak hip flexion velocity and post-strike ball velocity (r2=0.39) suggesting that 39% of ball velocity is explained for by peak hip flexion velocity. Several studies have shown that the lower extremity plays a significant role in the velocity of a soccer ball during a maximal instep kick. While much emphasis is placed on the swing velocity of the lower extremity, there is substantial momentum generated by trunk rotation which may play an equally crucial role in ball velocity. Although the importance of trunk kinematics is well established in other sports (e.g. golf), there has been limited emphasis on trunk motion in soccer research. PURPOSE: To establish the relationship between trunk rotational kinematics and the velocity of a soccer ball following a maximal instep kick. METHODS: A high-resolution 3-D motion analysis system was used to evaluate the maximal instep soccer kick of nine collegiate males. Following a structured warm-up and stretching protocol, each subject performed ten maximal instep kick trials. Trunk and hip kinematics were assessed by calculating the Euler rotation angle between the pelvis and trunk in the body’s transverse plane and between the thigh and pelvis in the body’s sagittal plane, respectively. Ball velocity was calculated by tracking five markers on the ball for a minimum of 10 frames immediately after the foot struck the ball. RESULTS: The average post-strike ball velocity for the nine participants was 48.2±5.4 mph, and velocities ranged from 38.5 mph to 58.5 mph. The average peak trunk rotation velocity for the nine participants was 345.7±142.3 deg/sec, and ranged from 61.2 deg/sec to deg/sec. Peak trunk rotation velocity was found to be strongly correlated with post-strike ball velocity (r2=0.57), suggesting that 57% of ball velocity is explained for by peak trunk rotation velocity. Finally, the correlation between peak hip flexion velocity and post-strike ball velocity was assessed (r2=0.39). CONCLUSION: The results of the study demonstrate the importance of trunk rotation velocity in the generation of momentum during a maximal instep soccer kick. While there is little doubt that the lower extremity plays an important role in producing greater ball velocities, it may be appropriate to suggest that training regimens also emphasize the importance of the trunk when increased ball velocity is a primary goal. Future research should evaluate the link between trunk-specific soccer training and changes in maximal instep kick velocity.. Method Nine healthy male adults (age, 21.4±3.47 years; height, 1.79±.069 m; weight 79.6±14.55 kg) participated in this investigation. A high-resolution 3-D motion analysis system was used to evaluate the select kinematic variables during a maximal instep soccer kick. Following a structured warm-up and stretching protocol, each subject performed ten maximal instep kick trials. Trunk and hip kinematics were assessed by calculating the Euler rotation angle between the pelvis and trunk in the body’s transverse plane and between the thigh and pelvis in the body’s sagittal plane. Ball velocity was calculated by tracking five markers on the ball for a minimum of 10 frames immediately after the foot struck the ball. Figure 2 Figure 3 Discussion The results of the study demonstrate the importance of trunk rotation velocity in the generation of momentum during a maximal instep soccer kick. While there is little doubt that the lower extremity plays an important role in producing greater ball velocities, there is an apparent generation of momentum and subsequent kinematic coupling that begins at the trunk. The increased trunk axial rotation velocity was found to contribute more to resulting post-strike ball velocity than lower-extremity sagittal plane rotation velocity. Accordingly, it may be appropriate to hypothesize that training regimens that emphasize increased trunk range of motion and rotation velocity may contribute to increased maximal instep kick ball velocity. Future research should evaluate the link between trunk-specific soccer training and changes in maximal instep kick velocity. Figure 1: Illustrates the anterior, posterior and sagittal views of the modified Helen Hayes full body marker set used (60 markers) Introduction Several studies have shown that the lower extremity plays a significant role in the velocity of a soccer ball during a maximal instep kick. While much emphasis is placed on the swing velocity of the lower extremity, there is substantial momentum generated by trunk rotation which may play an equally crucial role in ball velocity. Results The average post-strike ball velocity for the nine participants was 48.2±5.4 mph, and velocities ranged from 38.5 mph to 58.5 mph. References Juarez, D. et al, (2011).JSMPF, 51(3), 2. Myers, J. (2008). JSS, 26(2), 3. Stodden, D. et al. (2001). JAB, 17,


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