G.TEC medical engineering

g.tec medical engineering develops high-end brain-computer interfaces (BCI) and neuro-monitoring systems. Their recoveriX system is a specialized BCI solution for stroke rehabilitation that combines mental imagination with electrical stimulation and visual feedback. They provide enabling technology for the control and validation of wearable robotics and neuro-prosthetics in research and clinical medicine.

MOTOmed (RECK)

RECK-Technik developed the MOTOmed series, a world-leading range of motorized movement therapy devices. While functionally cycle-based trainers, they are integrated into the clinical neuro-rehabilitation ecosystem alongside exoskeletons. They provide passive, motor-assisted, and active resistance training for patients with neurological and orthopedic impairments.

Biodex

Biodex provides medical technology for sports medicine and rehabilitation. Their System 4 robotic dynamometer is a global standard for muscle strength testing and orthopedic rehabilitation. They also offer the Gait Trainer series, which includes instrumented treadmills and body-weight support systems used to retrain walking patterns in neurological and orthopedic patients.

Made for Movement

Made for Movement develops systems to facilitate physical activity for people with severe motor disabilities. Their Innowalk is a motorized, robotic movement trainer that allows users to experience whole-body movement in a standing position. Their NF-Walker is a specialized gait trainer for children. They focus on improving health and participation for individuals with conditions like […]

Thera-Trainer

Thera-Trainer (Medica Medizintechnik) is a major developer of movement therapy systems. Their ‘Gait & Balance’ division produces the Lyra robotic gait trainer (end-effector system) and the Balo standing balance system. They provide clinical solutions for all phases of neurological rehabilitation, from early mobilization to overground training.

Articares

Articares develops intelligent rehabilitation systems designed to behave as clinical partners for therapists. Their flagship product, the H-Man, is a compact, portable robotic device for upper-limb neurorehabilitation. It uses AI-driven assessments to adapt therapy difficulty to the patient’s real-time performance, aimed at stroke, brain injury, and elderly patients.

Instead Technologies

Instead Technologies develops innovative robotic solutions for healthcare. Their flagship system, In-Touch, is designed for the intensive rehabilitation of the upper limbs in patients with neurological damage. They focus on providing affordable, evidence-based robotic tools that facilitate motor recovery through repetitive, task-oriented exercises in clinical settings.

GaitBetter

GaitBetter develops an add-on system that transforms any standard treadmill into a motor-cognitive training platform. The system uses VR and motion sensors to provide real-time cognitive challenges and gait feedback, designed to improve executive function and reduce fall risk in neurological and geriatric patients. While not a wearable exoskeleton, it is a primary clinical robotic […]

Kinestica

Kinestica develops medical devices for the rehabilitation of patients with neuromotor disorders. Their product line includes BiMeo, a sensor-based system for active-assisted and bimanual upper-limb training, and Equio, an all-in-one balance rehabilitation platform. They combine motion-capture technology with gamified software to improve functional recovery and clinical assessment outcomes.

BioX

BioX develops wearable robotic systems focusing on healthcare and elderly mobility. Their portfolio includes powered lower-limb systems for gait rehabilitation and portable assistive devices for daily mobility. They utilize advanced motion control and sensor fusion to provide personalized walking support and clinical training metrics.