TY - JOUR
T1 - Proximal-to-distal sequencing and coordination variability in the volleyball spike of elite youth players
T2 - Effects of gender and growth
AU - Serrien, Ben
AU - Goossens, M
AU - Baeyens, Jean-Pierre
PY - 2018
Y1 - 2018
N2 - The aim of this article was to examine changes in elite youth volleyball players' performance, proximal-to-distal sequencing, and coordination variability of the spike motion between the start and after 1 year of a talent development program. Eight boys and eight girls in late puberty/early adolescence were measured with 3D motion capturing for 2 consecutive years. Performance and performance variability increased and decreased, respectively, but both changes were not significantly correlated with growth. Gender differences were identified for proximal-to-distal sequencing, but a very strong similarity between both years was observed for all seven degrees of freedom (pelvis and trunk rotation, trunk flexion, shoulder horizontal adduction, shoulder internal rotation, elbow extension, and wrist flexion). The fact that this sequence was kept stable, despite marked growth effects, likely indicates that this sequence is biomechanically efficient and the motor control systems try to preserve it. Coordination variability was analyzed by coordination profiling with self-organizing maps. The decrease in coordination variability correlated strongly and significantly with increase in body height. Participants with stronger growth rates were observed to show smaller decreases in coordination variability, which possibly represents a mechanismto explore various coordination patterns to adapt to the more rapidly changing organismic constraints.
AB - The aim of this article was to examine changes in elite youth volleyball players' performance, proximal-to-distal sequencing, and coordination variability of the spike motion between the start and after 1 year of a talent development program. Eight boys and eight girls in late puberty/early adolescence were measured with 3D motion capturing for 2 consecutive years. Performance and performance variability increased and decreased, respectively, but both changes were not significantly correlated with growth. Gender differences were identified for proximal-to-distal sequencing, but a very strong similarity between both years was observed for all seven degrees of freedom (pelvis and trunk rotation, trunk flexion, shoulder horizontal adduction, shoulder internal rotation, elbow extension, and wrist flexion). The fact that this sequence was kept stable, despite marked growth effects, likely indicates that this sequence is biomechanically efficient and the motor control systems try to preserve it. Coordination variability was analyzed by coordination profiling with self-organizing maps. The decrease in coordination variability correlated strongly and significantly with increase in body height. Participants with stronger growth rates were observed to show smaller decreases in coordination variability, which possibly represents a mechanismto explore various coordination patterns to adapt to the more rapidly changing organismic constraints.
KW - Adolescence
KW - Kinematics
KW - Motor development
KW - Sports
UR - http://www.scopus.com/inward/record.url?scp=85060215664&partnerID=8YFLogxK
U2 - 10.1123/jmld.2017-0049
DO - 10.1123/jmld.2017-0049
M3 - Article
VL - 6
SP - 250
EP - 266
JO - Journal of Motor Learning and Development
JF - Journal of Motor Learning and Development
SN - 2325-3193
IS - 2
ER -