ACL injury prevention, more effective with a different way of motor learning?

Anne Benjaminse*, Egbert Otten

*Corresponding author for this work

Research output: Contribution to journalArticleAcademicpeer-review

30 Citations (Scopus)

Abstract

What happens to the transference of learning proper jump-landing technique in isolation when an individual is expected to perform at a competitive level yet tries to maintain proper jump-landing technique? This is the key question for researchers, physical therapists, athletic trainers and coaches involved in ACL injury prevention in athletes. The need for ACL injury prevention is clear, however, in spite of these ongoing initiatives and reported early successes, ACL injury rates and the associated gender disparity have not diminished. One problem could be the difficulties with the measurements of injury rates and the difficulties with the implementation of thorough large scale injury prevention programs. A second issue could be the transition from conscious awareness during training sessions on technique in the laboratory to unexpected and automatic movements during a training or game involves complicated motor control adaptations. The purpose of this paper is to highlight the issue of motor learning in relation to ACL injury prevention and to post suggestions for future research.

ACL injury prevention programs addressing explicit rules regarding desired landing positions by emphasizing proper alignment of the hip, knee, and ankle are reported in the literature. This may very well be a sensible way, but the use of explicit strategies may be less suitable for the acquisition of the control of complex motor skills (Maxwell et al. J Sports Sci 18:111-120, 2000). Sufficient literature on motor learning and it variations point in that direction.

Original languageEnglish
Pages (from-to)622-627
Number of pages6
JournalKnee Surgery Sports Traumatology Arthroscopy
Volume19
Issue number4
DOIs
Publication statusPublished - Apr-2011

Keywords

  • Motor control
  • Explicit learning
  • Implicit learning
  • Knee injury
  • MIRROR-NEURON SYSTEM
  • CRUCIATE LIGAMENT INJURY
  • TEAM HANDBALL PLAYERS
  • LOWER-EXTREMITY BIOMECHANICS
  • DECREASING LANDING FORCES
  • DYNAMIC STABILIZATION
  • IMPLICIT KNOWLEDGE
  • TRAINING-PROGRAM
  • IMPACT FORCES
  • KNOW-HOW

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