TECHNOLOGY
The neurorehabilitation system VIBRAINT RehUp (former eeOnDo Rehab) helps stroke victims to re-gain arm movement faster using brain-computer interface, artificial intelligence and virtual reality.
Unlike most of existing devices it works even when the arm is heavily paralyzed and intended for stroke centers and neurology departments where it can be used from the first day after the patient left intensive care unit.
Our device analyses both the patient’s brain and muscular neural activity, recognizes the intention to move the disabled arm and then move it accordingly using a robotic device. In short, VIBRAINT RehUp translates thoughts into motions.
We use the virtual reality to create an environment with a variety of life-like exercises requiring different arm movements to provide and improve visual and proprioceptive biofeedback.
According to recent studies, moving the affected arm into the desired position simultaneously as the brain is sending such a signal facilitates the process of neuroplasticity that helps the brain create new neural connections to circumvent the stroke-affected areas, allowing for patients to regain full and voluntary control of their arm.
Our solution do not compete to traditional therapy – it helps to increase its performance.
BENEFITS
ACKNOWLEDGEMENT
PROSPECTIVE
2019
In 2018 – 2019 an improved version of the simulator will be developed and clinically tested, realizing more advanced robotics and EEG analysis algorithms based on the artificial intelligence.
2021
In 2021, a simulator will be created to restore the ability to walk.
We are open to communicate with potential partners – researchers, hospitals, innovators, investors and are happy with any new contacts.
Please contact us by e-mail
Rehabilitation is available:
- from the first day of decease
- for totally paralyzed arm
- for bedridden patients
- Unique algorithms provide high accuracy of EEG and EMG signal analysis
- Convenient and intuitive user interface
- Reliable and functional exoskeleton design
- The neurocomputer interface implements a direct connection between intent and motion
- Training in the virtual environment increases the patient's involvement
- Measuring electrical muscular activity helps to improve progress