Evaluating pelvic external forces and moments in assisted walking: implications for the development of robotic-assisted walkers

Evaluating pelvic external forces and moments in assisted walking: implications for the development of robotic-assisted walkers

Abstract Securing sufficient walking volume is crucial for maintaining and improving gait function after stroke. Robot-assisted gait training devices play a significant role in enhancing gait ability; however, challenges such as their large size, high cost, and limited adaptability exist. This study...

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Bibliographic Details
Main Authors: Hiroki Aoyama, Daijiro Tsutsumi, Katsushi Ogawa, Seonghee Jeong
Format: Article
Language:English
Published: SpringerOpen 2025-08-01
Series:ROBOMECH Journal
Subjects:
Robot-assisted walking device
Gait rehabilitation
Physical therapist assistance
Pelvic control
Periodicity of external forces/moments
Online Access:https://doi.org/10.1186/s40648-025-00318-1
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Summary:Abstract Securing sufficient walking volume is crucial for maintaining and improving gait function after stroke. Robot-assisted gait training devices play a significant role in enhancing gait ability; however, challenges such as their large size, high cost, and limited adaptability exist. This study aimed to quantify the manual assistance techniques employed by physical therapists (PTs) in controlling the pelvis during gait training and utilize these findings for robot control strategies. Two healthy adult volunteers simulating individuals with limited right lower-limb load (approximately 70% of body weight) walked with a wheeled walker while eight PTs provided manual assistance by applying external forces and moments to the participants’ pelvis via a sensor-equipped pelvic belt. Data analysis revealed recurring patterns and notable periodicity (Average Peak Cross-Correlation Coefficient, APCC $$\ge$$ ≥ 0.6) in several key assistive actions: forward force by the right hand (0.175 N/kg at 19% of gait cycle), upward force by the left hand (0.475 N/kg at 30%), pelvic rotational moment by the left hand (0.013 Nm/kg at 44%), and upward force by the right hand (0.212 N/kg at 79%). These assistive techniques effectively increased weight-bearing on the right limb, prolonged the right stance phase, and extended the left swing phase, resulting in improved gait symmetry and demonstrating that PTs employ consistent and periodic manual techniques to control the pelvis during gait assistance for individuals with unilateral weight-bearing limitations.
ISSN:2197-4225

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