[Purpose] This study investigated the characteristics of postural control following postural disturbance in elite athletes. [Subjects] Ten elite ski jumpers and ten control subjects participated in this study. [Methods] Subjects were required to maintain balance without stepping following unexpected horizontal surface perturbation in a forward or backward direction. [Results] A lower and reproducible peak magnitude of the center of mass velocity was shown in the athlete group compared to the control group. Cross-correlation analyses showed longer time lags at the moment of peak correlation coefficient between trunk flexor and extensor muscle activities, and shorter time lags and higher correlations between ankle flexor and extensor muscle activities were shown in the athlete group than in the control group. [Conclusion] The elite ski jumpers showed superior balance performance following surface perturbations, more reciprocal patterns in agonist-antagonist pairs of proximal postural muscles, and more cocontraction patterns in distal postural muscles during automatic postural responses than control individuals. This strategy may be useful in sports requiring effective balance recovery in environments with a dynamically changing surface, as well as in rehabilitation. © 2014 The Society of Physical Therapy Science.
CITATION STYLE
Mani, H., Izumi, T., Konishi, T., Samukawa, M., Yamamoto, K., Watanabe, K., & Asaka, T. (2014). Characteristics of postural muscle activation patterns induced by unexpected surface perturbations in elite ski jumpers. Journal of Physical Therapy Science, 26(6), 833–839. https://doi.org/10.1589/jpts.26.833
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