
Project developed in collaboration
Within the framework of R&D projects linked to personalized medicine and advanced therapies.
Joint ISCIII-CDTI initiative - Project: IDI-20230070. Pending CE certification.

Exoskeletons Backed by Scientific Analysis
Backed by clinical studies, the EXPLORER exoskeleton offers an innovative solution to improve mobility and quality of life. Its benefits have been widely documented, highlighting its positive impact on physical rehabilitation and emotional well-being.
WHAT BENEFITS DOES EXPLORER PROVIDE?
- Engagement in physical activity.
- Improvement in motor function, range of motion, and spasticity.
- Stimulation of confidence and social integration.
- Enhancement of cardiovascular, respiratory, and gastrointestinal systems.
- Contribution to physical and emotional development.
Safety and Satisfaction
Clinical studies conducted at home, schools, and outdoor environments involving 69 patients affected by cerebral palsy, neuromuscular disease, acquired brain injury, or spinal cord injury.
SAFETY
- Average safety score: 100%
- 98% satisfaction with device safety
- No serious adverse events during use
- Less than 3% of mild pain episodes
SATISFACTION
- Dimensions
- Ease of adjustment
- Weight
- Durability
- Effectiveness
- Comfort
- Ease of use
- Safety
Clinical Studies on Pediatric Exoskeletons
Various scientific studies have demonstrated the transformative benefits that exoskeletons can offer to children with conditions such as cerebral palsy and spinal muscular atrophy. Inspired by these advancements and specifically designed for children, EXPLORER has the potential to replicate and expand these benefits, providing mobility, stability, and new developmental opportunities for young users in their everyday environments.

Benefits of robotic gait assistance with an Exoskeleton in children with cerebral palsy
Significant improvements in mobility, autonomy, quality of life, social interaction and pain reduction in children with cerebral palsy
Usability and Safety of a Robotic Gait Device in Children with Cerebral Palsy and Spinal Muscular Atrophy
Effects of a gait exoskeleton on strength and range of motion in children with spinal muscular atrophy
Using a robotic exoskeleton at home: An activity tolerance case study of a child with spinal muscular atrophy
Pediatric Gait Exoskeleton: Changes on Range of Motion, Strength and Spasticity in Children With Cerebral Palsy
PROJECT FUNDED BY THE EUROPEAN MECHANISM FOR TRANSFORMATION AND RESILIENCE
Within the framework of R&D projects related to personalized medicine and Advanced Therapies under the joint ISCIII-CDTI initiative. Pending CE certification.



IN COLLABORATION WITH





