Ekso Bionics
Developer and distributor of wearable robotic exoskeleton systems and rehabilitation technologies for clinical, outpatient, home and industrial use. Provides clinical programs, clinician training and competency services, session-level data capture with cloud analytics, distribution and center network operations, clinical research collaborations, and regulatory and reimbursement engagement. Pursues AI and human-motion modeling for integration into health and occupational devices.
Industries
Nr. of Employees
medium (51-250)
Ekso Bionics
101 Glacier Point, Suite A, San Rafael, CA 94901, USA
Patents
Advanced gait control system and methods enabling continuous walking motion of a powered exoskeleton device
US-11679056-B2
View DetailsMobility assistance devices with automated assessment and adjustment control
US-11642272-B2
View Details
Advanced gait control system and methods enabling continuous walking motion of a powered exoskeleton device
US-11679056-B2
View DetailsMobility assistance devices with automated assessment and adjustment control
US-11642272-B2
View DetailsProducts
Inpatient neurorehabilitation exoskeleton (FDA‑cleared)
A powered lower‑extremity exoskeleton intended for inpatient rehabilitation to support standing and gait training for patients with brain injury, stroke and multiple sclerosis.
Therapy exoskeleton for outpatient gait training
A modular lower‑extremity exoskeleton intended for outpatient therapy to improve strength and walking ability in patients with lower‑extremity weakness or paralysis.
Personal/home‑and‑community exoskeleton for spinal cord injury
A lightweight, modular exoskeleton designed for individuals with spinal cord injuries to stand and walk in home and community settings within specified indication levels.
Perturbation‑based balance training system (multi‑directional treadmill)
A rehabilitation system that combines a multidirectional perturbation treadmill with integrated force and motion sensors for reactive balance, fall‑prevention training and objective assessment.
Inpatient neurorehabilitation exoskeleton (FDA‑cleared)
A powered lower‑extremity exoskeleton intended for inpatient rehabilitation to support standing and gait training for patients with brain injury, stroke and multiple sclerosis.
Therapy exoskeleton for outpatient gait training
A modular lower‑extremity exoskeleton intended for outpatient therapy to improve strength and walking ability in patients with lower‑extremity weakness or paralysis.
Personal/home‑and‑community exoskeleton for spinal cord injury
A lightweight, modular exoskeleton designed for individuals with spinal cord injuries to stand and walk in home and community settings within specified indication levels.
Perturbation‑based balance training system (multi‑directional treadmill)
A rehabilitation system that combines a multidirectional perturbation treadmill with integrated force and motion sensors for reactive balance, fall‑prevention training and objective assessment.
Services
Onsite and remote training for clinicians and therapy teams covering safe operation, clinical competency, and program implementation for exoskeleton and balance systems.
Capital equipment sales, distributor management, exclusive sales agency arrangements for select rehabilitation and industrial exoskeletons, and global center support.
Deployment of exoskeleton-assisted rehabilitation programs with session-level data capture and clinician analytics to monitor outcomes and support therapy decisions.
Post-sale customer support, field service coordination, and warranty/maintenance liaison between clinical sites, distributors and engineering teams.
Assessment and deployment services for exoskeleton solutions in construction, manufacturing and logistics to reduce fatigue and work‑related injuries.
Onsite and remote training for clinicians and therapy teams covering safe operation, clinical competency, and program implementation for exoskeleton and balance systems.
Capital equipment sales, distributor management, exclusive sales agency arrangements for select rehabilitation and industrial exoskeletons, and global center support.
Deployment of exoskeleton-assisted rehabilitation programs with session-level data capture and clinician analytics to monitor outcomes and support therapy decisions.
Post-sale customer support, field service coordination, and warranty/maintenance liaison between clinical sites, distributors and engineering teams.
Assessment and deployment services for exoskeleton solutions in construction, manufacturing and logistics to reduce fatigue and work‑related injuries.
Expertise Areas
- Neurorehabilitation program implementation
- Clinical training and competency development for rehabilitation technologies
- Wearable exoskeleton engineering and R&D
- Regulatory clearance and reimbursement strategy for medical devices
Key Technologies
- Powered and passive wearable exoskeleton architectures
- Lower‑extremity exoskeleton systems
- Upper‑body exosuits and vests
- Force and motion sensing (instrumented treadmills, load sensors)
News & Updates
Overview of occupational and industrial benefits of exoskeletons including productivity, postural support, reduced muscle fatigue, improved work quality and fewer injuries.
Strategies for improving patient engagement including segmentation, education, shared decision‑making, continuous care and use of preferred communication channels.
Discussion of common manufacturing and industrial injuries and how exoskeletons can reduce musculoskeletal strain and improve workplace safety.
Clinical and functional benefits of exoskeletons for patients with stroke, acquired brain injury and spinal cord injury, including posture support, adaptive gait training and data tracking.
Patient story describing use of an inpatient exoskeleton during rehabilitation after spinal injury, with progress tracked via session metrics and clinician adjustments.
Overview of a neurorehabilitation exoskeleton used for gait training, balance and progressively reducing robotic assistance as patients regain function.
Overview of occupational and industrial benefits of exoskeletons including productivity, postural support, reduced muscle fatigue, improved work quality and fewer injuries.
Strategies for improving patient engagement including segmentation, education, shared decision‑making, continuous care and use of preferred communication channels.
Discussion of common manufacturing and industrial injuries and how exoskeletons can reduce musculoskeletal strain and improve workplace safety.
Clinical and functional benefits of exoskeletons for patients with stroke, acquired brain injury and spinal cord injury, including posture support, adaptive gait training and data tracking.
Patient story describing use of an inpatient exoskeleton during rehabilitation after spinal injury, with progress tracked via session metrics and clinician adjustments.
Overview of a neurorehabilitation exoskeleton used for gait training, balance and progressively reducing robotic assistance as patients regain function.