Neurolutions
Neurolutions specializes in neuro-rehabilitation technology utilizing Brain-Computer Interfaces (BCI). Their primary product, IpsiHand, is an FDA-approved system for chronic stroke rehabilitation. It consists of a wearable EEG headset and a robotic handpiece; the system detects movement intentions from the healthy side of the brain and translates them into physical assistance at the hand, aiming to […]
Myorobotics
Myorobotics provides an open-source, modular robotic toolkit designed to mimic human musculoskeletal structures. The platform includes muscle-like actuators, bone-like links, and tendons, which are used by researchers to develop next-generation exoskeletons and humanoid robots. It serves as an enabling technology platform for the wearable robotics research community.
Healer ICT
Healer ICT specializes in AI-driven wearable systems for healthcare and mobility. Their focus is on intention detection for wearable robot hands and ankle exosuits for post-stroke rehabilitation. They leverage wearable sensor data, such as EMG and IMU, to provide adaptive control and coordinated assistance for individuals with neurological impairments.
ExoSystems
ExoSystems develops wearable healthcare devices for neurological and orthopedic rehabilitation. Their product, the exoRehab, is a wearable device that combines electrical stimulation with motion sensors and AI analysis. It is designed to provide personalized muscle strengthening and gait training for patients with muscle atrophy or mobility limitations.
Bioventus (Bioness)
Bioness, now part of Bioventus, develops wearable functional electrical stimulation (FES) systems. Their primary products, the L300 Go and H200 Wireless, are wearable devices designed to improve mobility for patients with foot drop or hand impairments resulting from stroke, MS, or TBI. These systems utilize stimulation to activate muscles, integrated into low-profile wearable orthoses.
Rehab-Robotics
Rehab-Robotics Company Limited, a spin-off from the Hong Kong Polytechnic University, specializes in neuro-rehabilitation robotics. Their flagship product, the Hand of Hope, is an EMG-controlled robotic glove that assists patients with stroke or hand injuries in regaining motor function through intent-based active-assisted exercises.
Myolyn
Myolyn develops wearable and stationary devices that combine Functional Electrical Stimulation (FES) with mechanical support. Their MyoCycle allows individuals with paralysis to pedal a bike using their own muscles. They also focus on FES technology for gait assistance, targeting patients with SCI, MS, and stroke to improve functional movement and overall health.
Oymotion
Oymotion specializes in bio-signal detection and human-computer interaction. Their wearable portfolio includes the gForce series of EMG armbands for gesture control and the OY-680 robotic glove for hand rehabilitation. They also produce EMG-controlled bionic hands, integrating advanced sensor technology to allow intent-based movement for amputees and neurological patients.
Myomo
Myomo produces MyoPro, an electronically controlled powered arm brace that assists people with weakened or paralyzed arms due to stroke, spinal cord injury or other neuromuscular conditions.
Cyberdyne
Cyberdyne develops cyborg-type wearable robots that use bio-electric signals to support movement. Its HAL product family serves medical rehabilitation, elderly care and industrial labor-support contexts.