Exoskeleton-Based Physiotherapy Supporting Motor Relearning

Biotronix Exoskeleton-Based Physiotherapy Supporting Motor Relearning

Exoskeleton-based physiotherapy is supporting motor relearning by delivering controlled, repetitive, and task-specific rehabilitation for patients with neurological and orthopedic impairments. These wearable robotic systems are designed to guide accurate movement patterns, regulate assistance, and reduce compensatory actions during therapy. By combining intelligent sensors, adaptive control algorithms, and therapist-guided protocols, exoskeleton-based physiotherapy creates an optimal environment for motor relearning, helping patients re-establish neural pathways, improve coordination, and regain functional movement in modern rehabilitation settings.

Key Features

• Wearable exoskeleton designed for motor relearning-focused physiotherapy

• Adaptive robotic assistance based on patient motor response and learning progress

• Multi-joint support for hips, knees, and ankles to ensure coordinated movement patterns

• Real-time sensor-based control for precise regulation of speed, range, and force

• Adjustable assistance levels to encourage active participation and relearning

• Therapist-controlled interface for structured motor relearning protocols

• Advanced safety systems, including emergency stop and torque limitation

• Continuous performance monitoring for objective motor relearning assessment

Applications

• Stroke rehabilitation for relearning voluntary movement and gait patterns

• Spinal cord injury rehabilitation for assisted motor activation and coordination training

• Neurological rehabilitation for traumatic brain injury, Parkinson’s disease, and multiple sclerosis

• Orthopedic rehabilitation for restoring correct movement control after injury or surgery

• Post-surgical rehabilitation for safe motor re-education

• Gait training, balance therapy, and functional movement relearning programs

Benefits

• Enhances motor relearning through repetitive, task-specific physiotherapy

• Promotes neuroplasticity and reorganization of neural pathways

• Improves coordination, balance, and controlled muscle activation

• Reduces compensatory and inefficient movement patterns

• Ensures patient safety during assisted and upright therapy sessions

• Provides objective, data-driven insights into motor relearning progress

• Reduces physical strain and workload for physiotherapists

• Supports consistent, measurable, and functional recovery outcomes

Technical Specifications

• System type: Wearable rehabilitation exoskeleton for physiotherapy

• User weight range: Approximately 40–120 kg

• User height range: Approximately 150–195 cm

• Assisted joints: Hip (2 degrees of freedom), Knee (1 degree of freedom), Ankle (1 degree of freedom per side)

• Actuation system: High-torque brushless DC motors with integrated torque sensors

• Control system: Intelligent adaptive control with real-time feedback algorithms

• Power supply: Rechargeable lithium-ion battery pack

• Battery backup: Approximately 3–5 hours of continuous operation

• Charging time: Approximately 2–3 hours

• Training modes: Passive, assisted, active-assist, adaptive

• Sensor system: IMU sensors, joint encoders, force and torque sensors

• Safety features: Emergency stop button, torque limiters, mechanical braking system

• Connectivity: Bluetooth, Wi-Fi, USB data export

• Compliance: Medical device certifications (model dependent)

• Operating temperature: 10°C to 40°C

• Storage temperature: –20°C to 60°C

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