Robotic Wearable Exoskeletons for Professional Physiotherapy

About Robotic Wearable Exoskeletons for Professional Physiotherapy

Biotronix Robotic Wearable Exoskeletons for Professional Physiotherapy

Robotic wearable exoskeletons for professional physiotherapy are designed to deliver precise, reliable, and clinician-controlled rehabilitation aligned with advanced physiotherapy practices. These sophisticated wearable robotic systems support accurate joint alignment, controlled assistance, and high-repetition, task-specific movement training essential for effective neurological and orthopedic recovery. In professional physiotherapy environments, robotic wearable exoskeletons enable therapists to maintain consistent treatment quality while managing complex rehabilitation needs with confidence and efficiency.

By integrating intelligent sensors, adaptive control algorithms, and therapist-defined physiotherapy protocols, robotic wearable exoskeletons enhance therapy precision and reproducibility. Physiotherapists can finely adjust assistance, resistance, speed, and range of motion based on patient capability and therapeutic goals, supporting progressive motor relearning, strength development, coordination improvement, and functional mobility restoration while ensuring high standards of patient safety and clinical reliability.

Key Features

• Medical-grade robotic wearable exoskeleton designed for professional physiotherapy

• Adaptive robotic assistance and resistance aligned with patient capability and therapy goals

• Multi-joint support for hips, knees, and ankles, ensuring biomechanically correct movement

• Real-time sensor-based control for smooth, precise, and repeatable physiotherapy execution

• Adjustable training parameters for structured and progressive physiotherapy programs

• Therapist-controlled interface for standardized yet patient-specific treatment protocols

• Advanced safety systems, including emergency stop and torque limitation

• Continuous performance monitoring for objective physiotherapy assessment

Applications

• Stroke rehabilitation for structured gait training and motor relearning

• Spinal cord injury rehabilitation for assisted standing and walking physiotherapy

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

• Orthopedic rehabilitation following joint replacement, fractures, and ligament reconstruction

• Post-surgical rehabilitation for early mobilization and functional retraining

• Professional physiotherapy programs focusing on gait training, balance therapy, and mobility recovery

Technical Specifications

• System Type: Wearable medical-grade rehabilitation exoskeleton

• User Weight Range: Approx. 40–120 kg

• User Height Range: Approx. 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: Approx. 3–5 hours of continuous clinical operation

• Charging Time: Approx. 2–3 hours

• Training Modes: Passive, Assisted, Active-Assist, Resistive, 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