Key Concepts of Robotic Rehabilitation Devices to Know for Medical Robotics

Robotic rehabilitation devices play a crucial role in medical robotics, helping patients regain mobility and function. These innovative technologies provide tailored support for various physical challenges, enhancing recovery through real-time feedback and engaging therapy experiences.

1. Lokomat (gait rehabilitation robot)

   • Designed to assist patients with gait training through robotic support.
   • Utilizes a treadmill and robotic legs to simulate natural walking patterns.
   • Provides real-time feedback and data to therapists for personalized rehabilitation.

2. MIT-MANUS/InMotion ARM (upper limb rehabilitation)

   • Focuses on improving upper limb function through robotic assistance.
   • Incorporates interactive tasks to engage patients and enhance motivation.
   • Tracks progress and adapts therapy based on individual performance.

3. Armeo Power (robotic arm exoskeleton)

   • Offers support for patients with limited arm mobility, promoting active movement.
   • Features a lightweight design for ease of use during rehabilitation exercises.
   • Provides adjustable resistance to tailor the difficulty level for each patient.

4. Ekso GT (powered exoskeleton for lower limb rehabilitation)

   • Enables individuals with lower limb paralysis to stand and walk.
   • Integrates sensors to detect user intention and facilitate natural movement.
   • Portable and user-friendly, allowing for use in various rehabilitation settings.

5. Hand of Hope (robotic hand rehabilitation device)

   • Aims to restore hand function through targeted exercises and therapy.
   • Utilizes a combination of robotic assistance and patient engagement.
   • Provides feedback on performance to enhance rehabilitation outcomes.

6. REX (robotic exoskeleton for standing and walking)

   • Designed for individuals with mobility impairments to regain independence.
   • Allows users to stand upright and walk with minimal assistance.
   • Features intuitive controls for easy operation and adaptability.

7. ReoGo (upper limb rehabilitation robot)

   • Focuses on improving arm and hand function through engaging activities.
   • Offers customizable therapy programs based on patient needs.
   • Monitors progress and adjusts difficulty to optimize rehabilitation.

8. Amadeo (robotic hand and finger rehabilitation system)

   • Targets fine motor skills and hand function through robotic exercises.
   • Provides individualized therapy sessions with real-time feedback.
   • Compact design suitable for use in clinical and home settings.

9. Hocoma Erigo (tilt table with integrated leg movement)

   • Combines verticalization and leg movement for early rehabilitation.
   • Supports patients in an upright position while facilitating leg exercises.
   • Enhances circulation and promotes weight-bearing activities.

10. Cyberdyne HAL (Hybrid Assistive Limb exoskeleton)

    • Integrates wearable robotics to assist with movement and rehabilitation.
    • Responds to user intentions, promoting natural movement patterns.
    • Aims to improve mobility and independence for individuals with disabilities.