Task-specific initial impact phase adjustments in lateral jumps and lateral landings.

Fleischmann, Jana; Gehring, Dominic; Mornieux, Guillaume; Gollhofer, Albert

Load-dependant adjustments in lateral jumps are thought to rely on foot placement and on upper leg's kinematic and neuromuscular adaptations. The aim of this study was to elucidate task-specific adjustments during the initial impact phase under varying stretch-loads by the comparison of lateral jumps and lateral landings. Ten subjects performed lateral jumps and landings from four distances. Electromyographic (EMG) data of five lower extremity muscles were measured, whilst lower extremity kinematics and kinetics were analysed by 3D motion analysis. Lateral jumps were characterized by increased impact forces, higher lower extremity joint moments with exception of the initial knee abduction moment, greater sagittal knee and hip joint displacements, and a further exorotated foot placement. In lateral landings frontal ankle and hip joint displacements were greater. Thigh muscle and m. tibialis anterior (TA) pre-activity as well as initial post-impact EMG were higher in lateral jumps than in lateral landings, whilst during the reflex-induced phase thigh and shank muscle EMG, except for TA, were enhanced in lateral jumps. From these findings it can be concluded that task specificity in lateral jumps in contrast to lateral landings impedes a stretch-load adequate modulation of initial impact forces which particularly affects ankle joint loading. Foot placement seems to play a decisive role for limiting lateral ankle and medial knee joint loading. Therefore, in sports containing high-impact frontal plane movements a special emphasis in training routines should be paid to foot placement strategy in those movements. Such training interventions might contribute to injury prevention in lateral movements.

LEG muscles; MYONEURAL junction; ELECTROMYOGRAPHY; KINEMATICS in sports; PREVENTION of injury; KNEE physiology; LEG physiology; ANKLE physiology; HIP joint physiology; SKELETAL muscle physiology; PHYSIOLOGICAL adaptation; BIOLOGICAL models; COMPARATIVE studies; RANGE of motion of joints; KINEMATICS; RESEARCH methodology; MEDICAL cooperation; RESEARCH; TASK performance; EVALUATION research; BODY movement

European Journal of Applied Physiology, 2011, Vol 111, Issue 9, p2327

1439-6319

Academic Journal

10.1007/s00421-011-1861-z