Robotic Stroke Rehabilitation: Enhancing Motor Function And Independence
*Corresponding Author:Received Date: Aug 01, 2025 / Accepted Date: Aug 29, 2025 / Published Date: Aug 29, 2025
Citation: Acharya DS (2025) Robotic Stroke Rehabilitation: Enhancing Motor Function And Independence. jnp 15: 856.DOI: 10.4172/2165-7025.1000856
Copyright: © 2025 Dr. Sunita Acharya This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permitsunrestricted use, distribution and reproduction in any medium, provided the original author and source are credited.
Abstract
Robot-assisted rehabilitation is demonstrating significant advancements in enhancing motor function and independence for stroke survivors. These technologies offer consistent, quantifiable, and intensive therapy, proving effective in gait training, upper limb recovery, and fine motor skill improvement through personalized feedback and engagement strategies. The synergy with virtual reality amplifies these benefits by creating immersive, task-specific environments. Robotic exoskeletons aid in gait restoration, while upper limb devices facilitate functional recovery. Beyond motor gains, these systems boost patient motivation and adherence. Key to optimizing outcomes is personalization, adapting therapy to individual needs. Emerging intelligent systems offer adaptive assistance, moving beyond repetitive exercises. Despite challenges in cost and accessibility, quantitative data collection supports informed clinical decisions. Telerehabilitation models, powered by robotics, extend care access and maintain therapeutic intensity.
