Biomechanical effects of loading methods on the patellofemoral joint during stair climbing: based on statistical parametric mapping analysis
Hongwen Zhang, Xingchen Zhang, Jing Ma, Na Sun, Litai Zhang, Yuan Gao

TL;DR
This study compares how different ways of carrying loads affect the patellofemoral joint during stair climbing, using advanced biomechanical analysis.
Contribution
The study introduces the use of Statistical Parametric Mapping to analyze patellofemoral biomechanics during stair climbing with different loading methods.
Findings
Hand-carry carriage increases patellofemoral joint stress during single-support and second double-support phases.
Shoulder-load carriage maintains joint stability with shorter external moment arms despite initial stress spikes.
Hand-carry carriage reduces lower-limb co-activation, compromising joint stability.
Abstract
Stair negotiation with external loads imposes substantial demands on the structural and functional integrity of the patellofemoral joint. Current research predominantly focuses on singular loading modalities or level walking conditions, often employing discrete time-point comparisons. This study innovatively employs Statistical Parametric Mapping (SPM) to systematically analyze patellofemoral biomechanical characteristics during stair negotiation with different load-carrying strategies. Twenty healthy males performed stair negotiation tasks under shoulder-load carriage (SLC) and hand-carry carriage (HCC) conditions (15 kg). Kinematic (200 Hz), kinetic (2000 Hz), and electromyographic (2000 Hz) data were synchronized to compute patellofemoral joint stress(PFJS), center of pressure (COP) trajectories, and muscle co-activation indices across stair phases. HCC generated significantly…
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Taxonomy
TopicsLower Extremity Biomechanics and Pathologies · Occupational Health and Performance · Winter Sports Injuries and Performance
