Neurogress.io. A stroke is a debilitating brain injury, capable of striking down a healthy person and rendering them completely dependent on care. Innovative neurotechnological treatments shows great promise in delivering a better outlook for many stroke victims.
Invest in the interactive mind-controlled devices of the future by buying tokens now. Visit Neurogress.io.
1. A neurointerface is used in conjunction with a motorized exoskeleton attached to
the stroke victim’s paralyzed limb.
The stroke victim then attempts to
initiate movement and the
neurointerface sends a command to move
to the robotic limb.
Innovative new treatments like these
have the potential to bring a tangible
difference to millions of lives each
year.
The key to unlocking these new treatments has been artificial intelligence.
Neurogress, an innovator in
neurotechnology is developing software
which utilizes artificial intelligence
to read the brain’s signals and
translate these signals to a device,
such as an exoskeleton which might be
used for stroke treatment.
Effectively an active process of give
and take plays out between mind and
machinery, greatly increasing a
patient’s ability to control the
device.
The software actively analyzes and works to understand the brain’s signals,
greatly speeding up the process of becoming comfortable with using a
brain-computer interface.
Neurotechnological innovations such as those being developed by Neurogress may
alter the course of millions of lives each year.
NEUROTECHNOLOGY
HELPINGWITHSTROKE
THERAPY
In the United States and Western Europe
alone, US $100 billion is spent each year
on the treatment of people who have
suffered from a stroke
It affects over 15 million people per year and is a worsening condition in modern
society with a 180% increase observed each year.
NewkindsofAI-enhancedneurocontrolsoftware
andprototypessuchasthosebeingdevelopedby
Neurogressshowextraordinarypromisein
treatingdebilitatingbraininjuries
After a person suffers a stroke, the road to recovery is often a long one.
Treatment is expensive and for the vast majority of sufferers, ineffective.
The typical method for treatment in the
past had been to work on stimulating the
brain to reactivate indirectly, through
intensive and expensive physical therapy.
However, there was no way to directly
target the injured brain directly.
ALONGROADTORECOVERY
The challenge in treating the brain directly though is that all brains are
different. Our brains process the same stimuli very differently.
Whereas a human arm tends to always
function in roughly the same way, the same
can’t be said for the complexity of the
human brain.
Today, innovations in neurotechnology may radically change how stroke is treated.
A powerful new form of therapy is being
devised which directly targets the
brain and which shows distinct promise
in greatly improving the outlook for
many sufferers.
A neurointerface is used in conjunction with a motorized exoskeleton attached to
the stroke victim’s paralyzed limb.
The stroke victim then attempts to
initiate movement and the
neurointerface sends a command to move
to the robotic limb.
When set into motion, the intelligent exoskeleton will use thoughts to trigger
repetitive motions and retrain the brain's motor networks.
NEW TREATMENTSFORSTROKETHANKSTO
NEUROTECHNOLOGY
AIANDOURGROWINGUNDERSTANDINGOFTHEBRAIN