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Main Authors: Bouchouras, Georgios, Sofianidis, Georgios, Charisi, Syragoula, Pavlopoulos, Charalampos, Hatzitaki, Vassilia, Samoladas, Efthimios
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2510.16942
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author Bouchouras, Georgios
Sofianidis, Georgios
Charisi, Syragoula
Pavlopoulos, Charalampos
Hatzitaki, Vassilia
Samoladas, Efthimios
author_facet Bouchouras, Georgios
Sofianidis, Georgios
Charisi, Syragoula
Pavlopoulos, Charalampos
Hatzitaki, Vassilia
Samoladas, Efthimios
contents Background. Knee Osteoarthritis (OA) is a common chronic joint condition, and its prevalence increases with age. This study aims to examine whether flattened vertical ground reaction force (vGRF) waveforms and reduced knee range of motion (RoM) occur together during gait as compensatory strategies to maintain gait speed. Methods. Twelve women with knee OA and twelve healthy women of the same age completed the Western Ontario and McMaster University Index (WOMAC) to assess self-reported pain, stiffness, and function. The groups were divided into two groups: OA vs. control 2 limbs or left and right in the Control group. A mixed-design ANOVA was used to examine differences in vertical ground response forces (VGRFs) peaks, minimum VGRF, anterior-posterior weight acceptance (ADWA) and propulsive force (ADPO), knee RoM, and gait speeds. Results. In the OA group, the mean Peak 1 vGFR was 1.109 (SD = 0.05) for the right leg (p 0.05), while the mean min vGFFR was 0.87 (SD=0.04) for the left leg. The OA leg exhibited a mean ADWA of 0.23 0.04 kg/BW, which was significantly lower than the control group's right leg (0.28 0.09 kg/bw, p0.05). No group differences in gait velocity were detected. Conclusions. We interpret the flattening of the vFGFR waveform and the reduction in knee RoM as components of an adaptive, yet potentially maladaptive, motor strategy
format Preprint
id arxiv_https___arxiv_org_abs_2510_16942
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Vertical Ground Reaction Forces Waveform Flattening during Gait in Women with Knee Osteoarthritis
Bouchouras, Georgios
Sofianidis, Georgios
Charisi, Syragoula
Pavlopoulos, Charalampos
Hatzitaki, Vassilia
Samoladas, Efthimios
Tissues and Organs
Background. Knee Osteoarthritis (OA) is a common chronic joint condition, and its prevalence increases with age. This study aims to examine whether flattened vertical ground reaction force (vGRF) waveforms and reduced knee range of motion (RoM) occur together during gait as compensatory strategies to maintain gait speed. Methods. Twelve women with knee OA and twelve healthy women of the same age completed the Western Ontario and McMaster University Index (WOMAC) to assess self-reported pain, stiffness, and function. The groups were divided into two groups: OA vs. control 2 limbs or left and right in the Control group. A mixed-design ANOVA was used to examine differences in vertical ground response forces (VGRFs) peaks, minimum VGRF, anterior-posterior weight acceptance (ADWA) and propulsive force (ADPO), knee RoM, and gait speeds. Results. In the OA group, the mean Peak 1 vGFR was 1.109 (SD = 0.05) for the right leg (p 0.05), while the mean min vGFFR was 0.87 (SD=0.04) for the left leg. The OA leg exhibited a mean ADWA of 0.23 0.04 kg/BW, which was significantly lower than the control group's right leg (0.28 0.09 kg/bw, p0.05). No group differences in gait velocity were detected. Conclusions. We interpret the flattening of the vFGFR waveform and the reduction in knee RoM as components of an adaptive, yet potentially maladaptive, motor strategy
title Vertical Ground Reaction Forces Waveform Flattening during Gait in Women with Knee Osteoarthritis
topic Tissues and Organs
url https://arxiv.org/abs/2510.16942