Title: Stepping towards independence: a creative low-cost robotic ankle-foot mechanism for post-stroke rehabilitation
Authors: Nader A. Rahman Mohamed; Mohamed A. Aboamer
Addresses: Biomedical Engineering Department, Faculty of Engineering, Misr University for Science and Technology (MUST), Giza 12568, Egypt ' Department of Medical Equipment Technology, College of Applied Medical Sciences, Majmaah University, Majmaah 11952, Saudi Arabia
Abstract: This paper presents a robotic ankle-foot system for post-stroke rehabilitation, addressing ankle-joint issues in stroke patients. The system interfaces with MATLAB mobile sensors and consists of two key components: a basic robotic platform and a control system with a shared microcontroller and two IR sensor modules for angle adjustment limits. The mechanical construction utilises plain carbon steel SAE 1030 due to its strength properties. Computer simulations were used to validate the technique, focusing on angular velocity as a key parameter. Analysis of passive/active joint parameters showed significant improvements, with maximal dorsiflexion/plantarflexion angles increasing from 12.0 to 28.0 degrees and 20.5 to 27.0 degrees. This system effectively reduces ankle spasticity and contracture, offering a viable clinical rehabilitation option. Mathematical models for stress, strain, displacement, and safety factor were provided with strong correlation. Promising results have prompted further testing on real stroke survivors and exploration of lightweight, weight-bearing materials for future research.
Keywords: post-stroke rehabilitation; rehabilitation robotic systems; robotic ankle-foot mechanism; ankle-foot rehabilitation; continuous passive motion; CPM.
DOI: 10.1504/IJBET.2024.138972
International Journal of Biomedical Engineering and Technology, 2024 Vol.45 No.3, pp.237 - 267
Received: 12 Sep 2023
Accepted: 27 Nov 2023
Published online: 05 Jun 2024 *