Robotic Gait Training
Rehabilitation technology for patients with stroke, muscle weakness, or walking instability
Why Does Robotic Gait Training Matter?
For patients with stroke or muscle weakness, starting physical therapy at home often leads to slower recovery than expected. Walking practice without professional support makes it difficult to control gait rhythm, posture, and step count at the level the brain needs to relearn movement.
Robotic gait training was developed to simulate correct walking patterns and enable hundreds or thousands of repetitive steps per session, allowing the brain and muscles to re-coordinate more effectively.
Research confirms that robotic-assisted gait training improves balance, increases walking ability and step count, and reduces injury risk compared with conventional physical therapy in stroke patients. Repeating hundreds to thousands of steps per session stimulates neuroplasticity, helping the brain form new neural pathways. The more consistently a patient trains, the faster recovery tends to be.
A new technology that enhances recovery
- Faster recovery with intelligent assist-as-needed technology
The robot adjusts assistance in real time based on the patient’s leg strength, unlike older systems that fully support movement automatically. As patients regain strength, the robot gradually reduces assistance, encouraging the brain to relearn walking patterns more effectively - Real-world walking simulation to boost motivation
Patients train in virtual environments such as gardens, city paths, or tracks, combined with interactive walking games. This increases engagement and motivation, helping patients continue training without boredom - Suitable for all ages, from children to older adults
The system adapts to each patient’s body structure, including leg length and joint alignment. It is therefore suitable for patients with muscle weakness, knee or hip degeneration, stroke, Parkinson’s disease, cerebral palsy, and spinal cord injuries - Clear, measurable progress
Training data such as distance, number of steps, and muscle force improvements are displayed after each session. This allows patients and physical therapists to clearly monitor progress and maintain motivation throughout the program
Robotic gait training procedure
- Consultation with a rehabilitation medicine doctor
Before starting, patients undergo an assessment including muscle strength, range of motion, and balance. The doctor designs a personalized training plan, sets the initial robotic assistance level, and defines rehabilitation goals. - Start robotic gait training sessions
Sessions last approximately 45-60 minutes and occur 2-3 times per week. The robot supports and guides leg movement in a natural walking pattern, while recording data such as step count, distance, speed, and assistance level. - Ongoing evaluation
Every 5-10 sessions, the doctor conducts a re-assessment to evaluate progress, such as improved stability, better balance, or increased muscle strength. - Expected timeline for results
Most patients begin to notice changes within the first 4-6 weeks* with consistent training. Significant functional improvements, such as standing independently or walking with a walker, are often seen after 10-20 sessions. Patients who begin rehabilitation early, for example within 3 months after a stroke, generally achieve better outcomes than those who start later.
*Rehabilitation results depend on the individual's physical condition.
Consult a rehabilitation medicine doctor to start your recovery journey.
| Program | Promotional Price (THB) |
| Robotic Gait Training (1 session) Buy 50 sessions and receive 1 free session. |
2,500 |
