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ExoAtlet I

An exoskeleton for research and early mobility
for patients with locomotor disorders.


Request a demo


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Since 2017 we have been supporting more than 25 clinical research projects with such nosologies as spinal cord injury, cerebral palsy, stroke, multiple sclerosis, traumatic brain injury and athropalthy in different clinics worldwide.


Since 2019 several American and European projects have started working on an exoskeleton controlled by the user’s brain that also utilizes virtual reality, tactile and thermal feedback.

For patients with

— STROKE

— CEREBRAL PALSY

— SPINAL CORD INJURY

— MULTIPLE SCLEROSIS

— TRAUMATIC BRAIN INJURY

— and after ARTHROPLASTY

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Since 2015, ExoAtlet has participated in multiple trials that have proven safety and efficacy of its products.

The device is certified in India, Kazakhstan, Russia, Thailand, South Korea, and Vietnam.
ISO:13485 certified.

EXOATLET

"ExoAtlet exoskeleton allowed me to test my scientific hypothesis, answer the questions that would remain unanswered otherwise, and state new questions. With its help, I compared patterns of neural activity occurring in the human brain in healthy and pathological conditions. For example, the use of the exoskeleton during brain-machine interface control tests revealed fundamentally different dynamics of neural activity occurring in different patterns of locomotion."

Miguel Pais-Vieira, Professor, PhD., Doctor at Católica University, Portugal
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"ExoAtlet is the best solution not only for practical tasks of my patients’ rehabilitation but also for research on the motor control of posture and locomotion – the fundamental studies that eventually lead to new clinical applications. With the aid of a brain-machine interface, human participants can simply give commands to the exoskeleton by thinking about it. Moreover, we’ve been investigating how such a brain-to-exoskeleton link could contribute to functional restoration and rehabilitation of patients suffering from lower-limb paralysis."

Mikhail Lebedev, Ph.D., Senior Research Scientist at Duke University, the USA.
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Key characteristics 


  • Ergonomic handles on the back for physical therapist, can be controlled via remote control on a crutch by the pilot or a tablet by the assistant.
  • Walking up and down stairs.
  • Auditory cues for each step.
  • Tolerance to uneven surfaces.
  • ExoCloud service used to store training data and plan sessions.
  • Rigid back for pilots with cervical injuries.
  • Spasticity protection unit.
  • Exoskeleton weighs up to 25 kg.
  • No external cables.
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  • up to 110 kg
    – the patient’s weight
  • 160-190 cm 
    – the patient’s height