Pre-landing muscle timing and post-landing effects of falling with continuous vision and in blindfold conditions

Dario G. Liebermann*, David Goodman

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review


The present study examined the effect of continuous vision and its occlusion in timing of pre-landing actions during free falls. When vision is occluded, muscle activation is hypothesized to start relative to onset of the fall. However, when continuous vision is available onset of action is hypothesized to be relative to the moment of touchdown. Six subjects performed 6 randomized sets of 6 trials after becoming familiar with the task. The 36 trials were divided in 2 visual conditions (vision and blindfold) and 3 heights of fall (15, 45 and 75 cm). EMG activity was recorded from the gastrocnemius and rectus femoris muscles during the falls. The latency of onset (Lo) and the lapse from EMG onset to touchdown (Tc) were obtained from these muscles. Vertical forces were recorded to assess the effects of pre-landing activity on the impacts at collision with and without continuous vision. Peak amplitude (Fmax), time to peak (Tmax) and peak impulse normalized to momentum (Inorm) were used as outcome measures. Within flight time ranges of ∼50-400 ms, the results showed that Lo and Tc follow a similar linear trend whether continuous vision was available or occluded. However, the variability of Tc for each of the muscles was larger in the vision occluded condition. Analyses of variance showed that the rectus femoris muscle started consistently earlier in no vision trials. Finally, impact forces were not different in vision or blindfold conditions, and thus, they were not affected by minor differences in the timing of muscles prior to landing. Thus, it appears that knowing the surroundings before falling may help to reduce the need for a continuous visual input. The relevance of such input cannot be ruled out for falls from high landing heights, but cognitive factors (e.g., attention to specific cues and anticipation of a fall) may play a dominant role in timing actions during short duration falls encountered daily.

Original languageEnglish
Pages (from-to)212-227
Number of pages16
JournalJournal of Electromyography and Kinesiology
Issue number2
StatePublished - Apr 2007


  • Continuous vision
  • Landing impacts
  • Preparatory EMG activity


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