Honda

Honda developed the Walking Assist Device for gait rehabilitation. The hip-powered system assists users in improving stride length and walking speed. The technology is informed by Honda’s research into bipedal robotics.

Gloreha

Gloreha (Idrogenet) specializes in upper-limb rehabilitation robotics, specifically focusing on the hand. Their robotic gloves provide active and passive-assisted exercises for individuals with hand impairments resulting from neurological conditions such as stroke. The systems incorporate virtual reality to assist in the rehabilitation process.

Bionic Yantra

Bionic Yantra develops the Robotic Exoskeleton Assisted Rehabilitation System (REARS). The system is a powered lower-limb exoskeleton designed to assist patients with spinal cord injury and stroke during gait training. The company aims to increase access to advanced rehabilitation technology.

Harmonic Bionics

Harmonic Bionics develops the Harmony SMR (Shoulder-Mid-arm-Radial), a bilateral upper-limb robotic exoskeleton for clinical rehabilitation. The system is designed to provide anatomical shoulder movement for neurorehabilitation of conditions such as stroke.

Rex Bionics

Rex Bionics manufactures the REX, a self-supporting robotic exoskeleton for individuals with spinal cord injury. The system is designed to be inherently stable, allowing users to stand and walk without the need for crutches.

Myoswiss

MyoSwiss develops the Myosuit, a lightweight, active soft exosuit designed to assist individuals with muscle weakness. The system provides powered support at the hip and knee joints during walking and movement, aimed at users with neuromuscular or orthopedic conditions.

TWIICE

TWIICE is an EPFL spin-off that develops modular robotic exoskeletons for individuals with lower-limb mobility impairments. Their systems are designed for portability and adaptability, intended to support users with complete paraplegia in standing and walking tasks.

ExoAtlet

ExoAtlet produces powered robotic exoskeletons for clinical rehabilitation and personal mobility. Their devices support individuals with gait impairments resulting from spinal cord injury, stroke, and cerebral palsy. The portfolio includes specialized systems for pediatric rehabilitation.

ABLE Human Motion

ABLE Human Motion develops lightweight robotic exoskeletons for mobility impairments. The ABLE Exoskeleton is an active hip-knee powered device designed to assist individuals with spinal cord injury (SCI) in standing and walking during clinical rehabilitation.

B-Temia

B-Temia is a medical technology company that develops the Keeogo, a powered device worn on the lower body. The device provides motorized assistance at the knee joint to complement existing muscle strength. It is used for rehabilitation and personal mobility for gait impairments associated with stroke, MS, and other conditions.