Reduced knee joint moment in ACL deficient patients at a cost of dynamic stability during landing

Kai Oberländer, Gert-Peter Brüggemann, Jürgen Höher, Kiros Karamanidis

Publication: Contribution to journalJournal articlesResearchpeer-review

Abstract

The current study aimed to examine the effect of anterior cruciate ligament deficiency (ACLd) on joint kinetics and dynamic stability control after a single leg hop test (SLHT). Twelve unilateral ACLd patients and a control subject group (n=13) performed a SLHT over a given distance with both legs. The calculation of joint kinetics was done by means of a soft-tissue artifact optimized rigid full-body model. Margin of stability (MoS) was quantified by the difference between the base of support and the extrapolated center of mass. During landing, the ACLd leg showed lower external knee flexion moments but demonstrated higher moments at the ankle and hip compared to controls (p<0.05). The main reason for the joint moment redistribution in the ACLd leg was a more anterior position of the ground reaction force (GRF) vector, which affected the moment arms of the GRF acting about the joints (p<0.05). For the ACLd leg, trunk angle was more flexed over the entire landing phase compared to controls (p<0.05) and we found a significant correlation between moment arms at the knee joint and trunk angle (r² = 0.48;p<0.01). The consequence of this altered landing strategy in ACLd legs was a more anterior position of the center of mass reducing the MoS (p<0.05). The results illustrate the interaction between trunk angle, joint kinetics and dynamic stability during landing maneuvers and provide evidence of a feedforward adaptive adjustment in ACLd patients (i.e. more flexed trunk angle) aimed at reducing knee joint moments at the cost of dynamic stability control.

Original languageEnglish
JournalJournal of biomechanics
Volume45
Issue number8
Pages (from-to)1387-1392
Number of pages6
ISSN0021-9290
DOIs
Publication statusPublished - 11.05.2012

Research areas and keywords

  • Adult
  • Anterior Cruciate Ligament
  • Female
  • Gait
  • Humans
  • Knee Injuries
  • Knee Joint
  • Locomotion
  • Male
  • Range of Motion, Articular
  • Task Performance and Analysis
  • Torque

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