Influences of altering footstrike pattern and cadence on lower extremity joint coordination and variability among runners with patellofemoral pain

Patellofemoral pain (PFP) is a common overuse injury among runners. It is not only a hindrance to the runner's training, but also to the runner's quality of life. PFP runners may strategize different running strategies to reduce patellofemoral joint stress, release pain, and improve functi...

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Bibliographic Details
Published in:PloS one 2023-01, Vol.18 (1), p.e0280477-e0280477
Main Authors: Liu, Yue, Qi, Yujie, Song, Yanliqing, Feng, Li, Wang, Lin
Format: Article
Language:English
Subjects:
Ankle
Biology and Life Sciences
Biomechanical Phenomena
Biomechanics
Care and treatment
Complications and side effects
Coordination
Fitness equipment
Foot
Gait
Health aspects
Hip
Humans
Joints (anatomy)
Kinematics
Knee
Lower Extremity
Male
Medical research
Medicine and Health Sciences
Medicine, Experimental
Movements
Overtraining
Pain
Patellofemoral Pain Syndrome
Physiological aspects
Quality of Life
Risk factors
Runners (Sports)
Running
Sound
Sports injuries
Stress management
System theory
Variability
Warm up (exercise)
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Summary:Patellofemoral pain (PFP) is a common overuse injury among runners. It is not only a hindrance to the runner's training, but also to the runner's quality of life. PFP runners may strategize different running strategies to reduce patellofemoral joint stress, release pain, and improve function. This study aimed to determine the changes in joint coordination and variability under combinations of foot strike pattern and cadence for runners with patellofemoral pain. Twenty male runners with PFP performed six running strategies which were two strike patterns named forefoot (FFS) and rearfoot (RFS) accompanied by three running cadences named slow10%, normal, and fast10%. A modified vector coding technique and circular statistics were respectively used to identify the coordination pattern and variability between hip sagittal-knee frontal (HsKf), hip sagittal-knee sagittal (HsKs) and knee transverse-ankle frontal (KtAf) during stance phase. Coordination patterns which were conformed with anatomical motion pattern was classified as mechanically sound, and the distribution frequency of each coordination pattern was quantified. Switching to FFS, the HsKf couples (p < 0.001, ES = 1.34) and the HsKs couples (p = 0.001, ES = 0.82) displayed significantly greater frequency in mechanically unsound coordination pattern during the initial stance phase. The effect of increasing running cadence on RFS displayed significantly greater frequency in mechanically unsound hip dominancy (p = 0.042, ES = 0.65) and knee dominancy (p = 0.05, ES = 0.70) coordination patterns for HsKf couples as well as for HsKs couples (p = 0.023, ES = 0.86) during the initial stance phase. Combined with FFS and fast10% cadence, HsKs couples showed more hip-dominated mechanical sound coordination pattern (p = 0.002, ES = 1.25). Further, altering footstrike pattern and cadence failed to change the coordination variability. Changing running cadence (± 10%) combined with transfer strike pattern from RFS to FFS could not increase the distribution frequency in mechanically sound coordination patterns and change coordination variability for PFP runners.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0280477