Médimex
Medimex is a French reference company in evaluation, rehabilitation, and performance solutions. With over 30 years of experience, it offers scientifically validated technologies tailored to the needs of healthcare professionals, research centers, and sports professionals. The company specializes in advanced rehabilitation and assessment equipment, including robotic systems, motion analysis tools, and physiotherapy devices, aiming to improve patient outcomes and optimize performance. It actively develops and integrates innovative solutions such as robotic exoskeletons, virtual reality, and neuro-rehabilitation devices to support recovery across various neurological and musculoskeletal conditions.
Industries
Nr. of Employees
small (1-50)
Products
Motorized upper-limb exoskeleton with spring-assist for active training
Motorized upper-limb orthosis that provides adjustable weight-relief and assistance across a multi-degree-of-freedom 3D workspace; connects to therapy software offering goal-setting and visual feedback to support repetitive, task-oriented training for patients with limited voluntary activation.
Treadmill-integrated lower-limb robotic gait trainer
Electromechanical exoskeleton integrated with a treadmill to deliver individualized, intensive gait training with options for augmented-reality feedback and modules to increase physiological gait patterns.
End-effector robotic trainer for limb rehabilitation
Robotic trainer applying distal interaction (hand or foot) to generate global limb trajectories for gait restoration or upper-limb task practice with rapid patient setup and real-time feedback.
Anti-gravity unweighting treadmill with integrated gait analysis
Treadmill system using differential air pressure to reduce effective body weight and provide integrated software for live gait symmetry and cadence analysis.
Driving simulator with integrated gaze/pupil monitoring
Clinical-grade driving simulator with vehicle-like ergonomics and optional gaze/pupil-tracking integration for visual-cognitive and functional assessment related to return-to-driving evaluations.
Integrated motion analysis packages (IMUs, 3D capture, force plates, EMG)
Comprehensive motion analysis systems combining inertial sensors, optical capture, force platforms and electromyography for biomechanical assessment, performance optimization and research.
Motorized upper-limb exoskeleton with spring-assist for active training
Motorized upper-limb orthosis that provides adjustable weight-relief and assistance across a multi-degree-of-freedom 3D workspace; connects to therapy software offering goal-setting and visual feedback to support repetitive, task-oriented training for patients with limited voluntary activation.
Treadmill-integrated lower-limb robotic gait trainer
Electromechanical exoskeleton integrated with a treadmill to deliver individualized, intensive gait training with options for augmented-reality feedback and modules to increase physiological gait patterns.
End-effector robotic trainer for limb rehabilitation
Robotic trainer applying distal interaction (hand or foot) to generate global limb trajectories for gait restoration or upper-limb task practice with rapid patient setup and real-time feedback.
Anti-gravity unweighting treadmill with integrated gait analysis
Treadmill system using differential air pressure to reduce effective body weight and provide integrated software for live gait symmetry and cadence analysis.
Driving simulator with integrated gaze/pupil monitoring
Clinical-grade driving simulator with vehicle-like ergonomics and optional gaze/pupil-tracking integration for visual-cognitive and functional assessment related to return-to-driving evaluations.
Integrated motion analysis packages (IMUs, 3D capture, force plates, EMG)
Comprehensive motion analysis systems combining inertial sensors, optical capture, force platforms and electromyography for biomechanical assessment, performance optimization and research.
Services
Delivery, installation and technical commissioning of rehabilitation equipment at clinical sites; includes international deployments.
Hands-on training programs and webinars for therapists, clinicians and technicians to operate devices, configure protocols and interpret assessment outputs.
Advisory services to select equipment portfolios and design rehabilitation pathways tailored to specific patient populations and facility objectives, including continuum-based approaches.
Assistance preparing applications for public funding calls and project proposals to finance acquisition of rehabilitation equipment and related facility upgrades.
Organization and participation in product demonstrations, webinars and congress exhibitions to showcase rehabilitation and performance solutions and enable hands-on evaluation.
Delivery, installation and technical commissioning of rehabilitation equipment at clinical sites; includes international deployments.
Hands-on training programs and webinars for therapists, clinicians and technicians to operate devices, configure protocols and interpret assessment outputs.
Advisory services to select equipment portfolios and design rehabilitation pathways tailored to specific patient populations and facility objectives, including continuum-based approaches.
Assistance preparing applications for public funding calls and project proposals to finance acquisition of rehabilitation equipment and related facility upgrades.
Organization and participation in product demonstrations, webinars and congress exhibitions to showcase rehabilitation and performance solutions and enable hands-on evaluation.
Expertise Areas
- Rehabilitation robotics (upper- and lower-limb)
- Gait training and locomotor therapy
- Motion analysis and biomechanics
- Isokinetic assessment and targeted muscle rehabilitation
Key Technologies
- Multi-degree-of-freedom upper-limb exoskeletons
- Lower-limb electromechanical exoskeletons
- End-effector robotic trainers
- Pressure-based unweighting treadmills
News & Updates
No upcoming events in July 2025
The article discusses how biomechanical movement analysis helps prevent injuries and improve athletic performance through technological tools and personalized training.
This article explains the role of end-effector robotic devices in neuro-motor rehabilitation, especially post-stroke, and their advantages in therapy.
Details the stages, techniques, and advances in upper limb rehabilitation, emphasizing the importance of personalized and continuous therapy.
Explains the principles of isokinetic training, its origins, applications in rehabilitation and sports, and the technological devices used.
Describes innovative devices and programs supported by Medimex to improve care for accident victims, including robotic and assessment tools.
No upcoming events in July 2025
The article discusses how biomechanical movement analysis helps prevent injuries and improve athletic performance through technological tools and personalized training.
This article explains the role of end-effector robotic devices in neuro-motor rehabilitation, especially post-stroke, and their advantages in therapy.
Details the stages, techniques, and advances in upper limb rehabilitation, emphasizing the importance of personalized and continuous therapy.
Explains the principles of isokinetic training, its origins, applications in rehabilitation and sports, and the technological devices used.
Describes innovative devices and programs supported by Medimex to improve care for accident victims, including robotic and assessment tools.