Ortho Robotics

Ortho Robotics develops robotic medical systems designed to assist with post-surgical and neurological rehabilitation. Their technology focuses on providing powered assistance for gait and joint mobility, aimed at helping patients recover faster and more effectively after orthopedic surgery or neurological injury. They emphasize data-driven clinical outcomes and portable robotic design.

Navist

Navist specializes in the development of healthcare and medical robotics. Their portfolio includes powered gait rehabilitation systems designed to assist patients in reclaiming motor function after neurological injury. They focus on the clinical market in South Korea, providing automated therapy solutions for hospitals.

Maroon Assistive Technologies

Maroon Assistive Technologies develops wearable robotic systems for lower-limb assistance. Their primary product, the Mak Active Knee, is a powered orthotic device designed to assist individuals with knee weakness or stability issues. The company focuses on accessibility and enhancing daily mobility for the elderly and those with musculoskeletal conditions.

Hellstern Medical

Hellstern Medical designs systems to support healthcare professionals during long medical procedures. Their primary product, the S3 No-Weight (formerly Surgeon Support System), is a wearable exoskeleton designed to support the surgeon’s weight and stabilize the upper body while sitting or standing during surgery. It aims to reduce musculoskeletal strain and fatigue in operating rooms.

HoustonBionics

HoustonBionics develops wearable robotic technology for neurorehabilitation. Their flagship device, the ExoGlove, is a powered robotic glove designed to help patients with hand motor impairments regain movement and strength. The system is designed for both clinical use and eventual home-based therapy.

NextStep Robotics

NextStep Robotics develops wearable rehabilitation devices focused on treating foot drop. Their AMBLE system is a powered ankle exoskeleton designed to be used in clinical rehabilitation settings to retrain the gait of stroke survivors. The system utilizes personalized training algorithms to help patients regain independent walking ability.

MEBSTER

MEBSTER develops accessible and cost-effective medical devices to improve mobility. Their UNILEXA system is a unilateral, passive (non-powered) exoskeleton designed to assist individuals with lower-limb impairments, particularly those with partial paralysis. The system focuses on providing mechanical stability and step initiation support without the need for motors or batteries.

Cybernetic Healthcare

Cybernetic Healthcare focuses on robotic medical equipment for functional recovery. Their portfolio includes powered lower-limb systems for gait rehabilitation and mobility assistance for patients with stroke and SCI. They focus on the clinical market in Taiwan and Asia, developing automated therapy solutions for neurological recovery.

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.

G-Therapy

G-Therapy develops medical robotic devices specialized for lower-limb neurorehabilitation. Their systems provide powered gait training and motion assessment for patients with walking difficulties. The company focuses on clinical-grade reliability and evidence-based therapy outcomes for the Korean healthcare market.