Journal article

Improved postural control after slackline training is accompanied by reduced H-reflexes

  • Keller, Martin Department of Medicine, Unit of Sports Science, University of Fribourg, Switzerland
  • Pfusterschmied, J. Department Sport Science and Kinesiology, University of Salzburg, Austria - Christian Doppler Laboratory “Biomechanics in Skiing”, Salzburg, Austria
  • Buchecker, M. Department Sport Science and Kinesiology, University of Salzburg, Austria - Christian Doppler Laboratory “Biomechanics in Skiing”, Salzburg, Austria
  • Müller, E. Department Sport Science and Kinesiology, University of Salzburg, Austria - Christian Doppler Laboratory “Biomechanics in Skiing”, Salzburg, Austria
  • Taube, Wolfgang Department of Medicine, Unit of Sports Science, University of Fribourg, Switzerland
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    08.03.2011
Published in:
  • Scandinavian Journal of Medicine & Science in Sport. - 2012, vol. 22, no. 4, p. 471–477
English “Slacklining” represents a modern sports activity where people have to keep balance on a tightened ribbon. The first trials on the slackline result in uncontrollable lateral swing of the supporting leg. Training decreases those oscillations and therefore improves postural control. However, the underlying neural mechanisms are not known. Therefore, the present study aimed to highlight spinal adaptations going along with slackline training. Twenty-four subjects were either assigned to a training or a control group and postural control was assessed before and after the 10 training sessions. Additionally, soleus Hoffmann (H)-reflexes were elicited to evaluate changes in the excitability of the spinal reflex circuitry. Trained subjects were able to maintain balance on the slackline for at least 20 s (P < 0.001) and reduced platform movements on the balance board (P < 0.05). The H-reflexes were significantly diminished (P < 0.05) while no changes occurred in the background electromyography (bEMG). The control group showed no significant changes. From a functional point of view the reflex reduction may serve to suppress uncontrollable reflex mediated joint oscillations. As the bEMG remained unchanged, presynaptic rather than post-synaptic mechanisms are speculated to be responsible for the changes in the Ia-afferent transmission.
Faculty
Faculté des sciences et de médecine
Department
Département de Médecine
Language
  • English
Classification
Sports sciences
License
License undefined
Identifiers
Persistent URL
https://folia.unifr.ch/unifr/documents/302247
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