Lower extremity and trunk sagittal plane coordination strategies and kinetic distribution during landing in males and females

ABSTRACT

Force attenuation during landing requires coordinated motion of the ankle, knee, hip, and trunk, and strategies may differ between sexes. Sagittal plane coordination of the ankle/knee, knee/hip, and knee/trunk, and lower extremity and trunk kinematics and kinetics was compared throughout landing between 28 males and 28 females. Coordination was assessed with a modified vector coding technique and binning analysis. Total support moments (TSM), each joint’s percent contribution, and timing of the TSM were compared. Females landed with less isolated knee flexion in the ankle/knee, knee/hip, and knee/trunk couplings, but more simultaneous ankle/knee flexion, less simultaneous knee flexion/hip extension, and more simultaneous trunk/knee flexion. Females landed with larger plantarflexion angles from 0–16% and smaller trunk flexion angles from 0–78%. In females, absolute TSM were larger from 0–6% and smaller from 42–100%, and normalized TSM were larger from 0–8% and 26–42%. Females had greater ankle contribution to the TSM from 14–15% and 29–35%, smaller absolute peak TSM, and the peak TSM occurred earlier. Females compensated for less isolated knee flexion with greater simultaneous ankle/knee flexion early in landing and knee/trunk flexion later in landing. Coordination and TSM differences may influence force attenuation strategies and have implications for knee injury disparity between sexes.

KEYWORDS:

• Vector coding
• total support moment
• drop vertical jump
• knee biomechanics

Disclosure statement

No potential conflict of interest was reported by the author(s).

Supplemental material

Supplemental data for this article can be accessed online https://doi.org/10.1080/02640414.2024.2323857

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Funding

The author(s) reported there is no funding associated with the work featured in this article.