Effectiveness of Robot-Assisted Structured Foot-Ankle Sensorimotor Training in Stroke Patients
NCT07091045 · Status: RECRUITING · Phase: NA · Type: INTERVENTIONAL · Enrollment: 30
Last updated 2026-05-28
Summary
Introduction: Stroke is a leading cause of long-term disability worldwide. Persistent lower-extremity motor and somatosensory impairments after stroke commonly limit walking and balance despite rehabilitation. Virtual reality (VR)-integrated robotic rehabilitation may support structured, goal-directed ankle-foot practice; however, there is limited evidence for ankle-foot-focused sensorimotor protocols. In particular, approaches that combine robot-assisted motor training with a plantar tactile localization task and VR-supported joint position sense (JPS) training to target plantar sensory and proprioceptive function are scarce. Therefore, this study aims to evaluate the effectiveness of a structured, VR-integrated, robot-assisted ankle-foot sensorimotor rehabilitation protocol in individuals with chronic stroke and to examine its effects on clinical and sensorimotor outcomes.
Methods and analysis: This is an assessor-blinded, two-arm, parallel-group randomized controlled trial. Thirty individuals with chronic stroke will be randomized 1:1 to the Robot-assisted Training Group (RTG) or the Manual Training Group (MTG). All participants will receive conventional rehabilitation; in addition, RTG will receive a structured robot-assisted ankle-foot training program integrated with virtual reality and assist-as-needed control, whereas MTG will receive the same structured ankle-foot training protocol delivered manually by a physiotherapist. Interventions will be delivered three times per week for 6 weeks (18 sessions), and total session duration will be time-matched between groups (50-60 min per session). The primary outcome will be the change in walking speed, derived from the 10-Meter Walk Test, from baseline to 6 weeks. Secondary outcomes will include 2-Minute Walk Test distance, ankle range of motion, joint position sense, plantar tactile sensation, muscle tone, motor performance, static and dynamic balance, and stroke-specific quality of life.
Conditions
Interventions
- OTHER
-
Robot-Assisted Foot-Ankle Training
Stage 1: Vibration Training Applied for Proper Stepping on the Sole of the Foot and Proper Pressure Distribution: The first step of the training will be constant vibration, and the second step will be sensory localization training with vibration. Stage 2: Passive Joint Range of Motion Training with Virtual Reality: The platform will move the ankle passively (passive stretching). Stage 3: Joint Position Sense Training: The platform will bring the patient's ankle to a certain dorsiflexion position, the patient will be asked to feel and be aware of this angle, then the patient will be asked to return to the neutral position and perform ankle dorsiflexion at the angle that the platform initially brought. Stage 4: Active Joint Range of Motion Training with Virtual Reality: Along with active dorsiflexion, when necessary, assistance will be provided with the Assistance as Needed (AAN) control paradigm, a feature of the robotic device. Stage 5: It is the same as Stage 1
- OTHER
-
Conventional Foot-Ankle Training
Stage 1: Sensory Training to the Sole of the Foot: In the first step of the training, the physiotherapist will manually apply constant pressure with a blunt object, and in the second step, sensory localization training with a blunt object will be performed. Stage 2: Passive Joint Range of Motion Training: The ankle will be manually moved passively (passive stretching) by the physiotherapist. Stage 3: Joint Position Sense Training: The physiotherapist will bring the patient's ankle to a certain dorsiflexion position, the patient will be asked to feel and be aware of this angle, then the patient will be asked to return to the neutral position and perform ankle dorsiflexion at the angle that the physiotherapist initially brought. Stage 4: Active Joint Range of Motion Training: This stage will be performed with manual assistance provided by the physiotherapist when necessary, along with active dorsiflexion. Stage 5: It is the same as Stage 1
Sponsors & Collaborators
-
The Scientific and Technological Research Council of Turkey
collaborator OTHER -
Medipol University
lead OTHER
Study Design
- Allocation
- RANDOMIZED
- Purpose
- TREATMENT
- Masking
- SINGLE
- Model
- PARALLEL
Eligibility
- Min Age
- 40 Years
- Max Age
- 65 Years
- Sex
- ALL
- Healthy Volunteers
- No
Timeline & Regulatory
- Start
- 2026-03-01
- Primary Completion
- 2027-02-15
- Completion
- 2027-05-15
Countries
- Turkey (Türkiye)
Study Locations
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