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DUKAS_183840890_FER
Minimally invasive brain implant gets regulatory clearance
Ferrari Press Agency
Brain 1
Ref 16752
22/04/2025
See Ferrari text
Pictures must credit: Precision Neuroscience
A brain-computer interface thin enough to slip under the skull has become the first of its kind to win extended government approval in the USA.
Precision Neuroscience has created a wireless implant for restoring independence to millions of severely paralysed people. that can be left in place for up to 30 days.
The Layer 7 Cortical Interface translates brain signals into commands to control external devices like computers or robotic limbs.
This allows people with motor or communication impairments, such as those with paralysis or neuro-genetic disease ALS, to regain some level of functionality and independence.
It was set up by three former employees of Tesla billionaire Elon Musk’s rival Neuralink implant.
The implant resembles a thin sheet of flexible film and is designed to rest on the surface of the brain.
Unlike more invasive options that require deeper implants, Layer 7 records and stimulates neural activity using1,024 tiny electrodes.
The goal is to gather high-fidelity brain data in a way that’s less traumatic and more adaptable to a wide range of patients.
Its wafer-thin structure can be inserted through an incision narrower than a millimetre and removed without causing lasting damage.
OPS:The Layer 7 Cortical Interface.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_183840889_FER
Minimally invasive brain implant gets regulatory clearance
Ferrari Press Agency
Brain 1
Ref 16752
22/04/2025
See Ferrari text
Pictures must credit: Precision Neuroscience
A brain-computer interface thin enough to slip under the skull has become the first of its kind to win extended government approval in the USA.
Precision Neuroscience has created a wireless implant for restoring independence to millions of severely paralysed people. that can be left in place for up to 30 days.
The Layer 7 Cortical Interface translates brain signals into commands to control external devices like computers or robotic limbs.
This allows people with motor or communication impairments, such as those with paralysis or neuro-genetic disease ALS, to regain some level of functionality and independence.
It was set up by three former employees of Tesla billionaire Elon Musk’s rival Neuralink implant.
The implant resembles a thin sheet of flexible film and is designed to rest on the surface of the brain.
Unlike more invasive options that require deeper implants, Layer 7 records and stimulates neural activity using1,024 tiny electrodes.
The goal is to gather high-fidelity brain data in a way that’s less traumatic and more adaptable to a wide range of patients.
Its wafer-thin structure can be inserted through an incision narrower than a millimetre and removed without causing lasting damage.
OPS:The Layer 7 Cortical Interface.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_183840888_FER
Minimally invasive brain implant gets regulatory clearance
Ferrari Press Agency
Brain 1
Ref 16752
22/04/2025
See Ferrari text
Pictures must credit: Precision Neuroscience
A brain-computer interface thin enough to slip under the skull has become the first of its kind to win extended government approval in the USA.
Precision Neuroscience has created a wireless implant for restoring independence to millions of severely paralysed people. that can be left in place for up to 30 days.
The Layer 7 Cortical Interface translates brain signals into commands to control external devices like computers or robotic limbs.
This allows people with motor or communication impairments, such as those with paralysis or neuro-genetic disease ALS, to regain some level of functionality and independence.
It was set up by three former employees of Tesla billionaire Elon Musk’s rival Neuralink implant.
The implant resembles a thin sheet of flexible film and is designed to rest on the surface of the brain.
Unlike more invasive options that require deeper implants, Layer 7 records and stimulates neural activity using1,024 tiny electrodes.
The goal is to gather high-fidelity brain data in a way that’s less traumatic and more adaptable to a wide range of patients.
Its wafer-thin structure can be inserted through an incision narrower than a millimetre and removed without causing lasting damage.
OPS:The Layer 7 Cortical Interface.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_183840887_FER
Minimally invasive brain implant gets regulatory clearance
Ferrari Press Agency
Brain 1
Ref 16752
22/04/2025
See Ferrari text
Pictures must credit: Precision Neuroscience
A brain-computer interface thin enough to slip under the skull has become the first of its kind to win extended government approval in the USA.
Precision Neuroscience has created a wireless implant for restoring independence to millions of severely paralysed people. that can be left in place for up to 30 days.
The Layer 7 Cortical Interface translates brain signals into commands to control external devices like computers or robotic limbs.
This allows people with motor or communication impairments, such as those with paralysis or neuro-genetic disease ALS, to regain some level of functionality and independence.
It was set up by three former employees of Tesla billionaire Elon Musk’s rival Neuralink implant.
The implant resembles a thin sheet of flexible film and is designed to rest on the surface of the brain.
Unlike more invasive options that require deeper implants, Layer 7 records and stimulates neural activity using1,024 tiny electrodes.
The goal is to gather high-fidelity brain data in a way that’s less traumatic and more adaptable to a wide range of patients.
Its wafer-thin structure can be inserted through an incision narrower than a millimetre and removed without causing lasting damage.
OPS:The Layer 7 Cortical Interface.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_183840886_FER
Minimally invasive brain implant gets regulatory clearance
Ferrari Press Agency
Brain 1
Ref 16752
22/04/2025
See Ferrari text
Pictures must credit: Precision Neuroscience
A brain-computer interface thin enough to slip under the skull has become the first of its kind to win extended government approval in the USA.
Precision Neuroscience has created a wireless implant for restoring independence to millions of severely paralysed people. that can be left in place for up to 30 days.
The Layer 7 Cortical Interface translates brain signals into commands to control external devices like computers or robotic limbs.
This allows people with motor or communication impairments, such as those with paralysis or neuro-genetic disease ALS, to regain some level of functionality and independence.
It was set up by three former employees of Tesla billionaire Elon Musk’s rival Neuralink implant.
The implant resembles a thin sheet of flexible film and is designed to rest on the surface of the brain.
Unlike more invasive options that require deeper implants, Layer 7 records and stimulates neural activity using1,024 tiny electrodes.
The goal is to gather high-fidelity brain data in a way that’s less traumatic and more adaptable to a wide range of patients.
Its wafer-thin structure can be inserted through an incision narrower than a millimetre and removed without causing lasting damage.
OPS:The Layer 7 Cortical Interface.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_183840885_FER
Minimally invasive brain implant gets regulatory clearance
Ferrari Press Agency
Brain 1
Ref 16752
22/04/2025
See Ferrari text
Pictures must credit: Precision Neuroscience
A brain-computer interface thin enough to slip under the skull has become the first of its kind to win extended government approval in the USA.
Precision Neuroscience has created a wireless implant for restoring independence to millions of severely paralysed people. that can be left in place for up to 30 days.
The Layer 7 Cortical Interface translates brain signals into commands to control external devices like computers or robotic limbs.
This allows people with motor or communication impairments, such as those with paralysis or neuro-genetic disease ALS, to regain some level of functionality and independence.
It was set up by three former employees of Tesla billionaire Elon Musk’s rival Neuralink implant.
The implant resembles a thin sheet of flexible film and is designed to rest on the surface of the brain.
Unlike more invasive options that require deeper implants, Layer 7 records and stimulates neural activity using1,024 tiny electrodes.
The goal is to gather high-fidelity brain data in a way that’s less traumatic and more adaptable to a wide range of patients.
Its wafer-thin structure can be inserted through an incision narrower than a millimetre and removed without causing lasting damage.
OPS:The Layer 7 Cortical Interface.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_183840884_FER
Minimally invasive brain implant gets regulatory clearance
Ferrari Press Agency
Brain 1
Ref 16752
22/04/2025
See Ferrari text
Pictures must credit: Precision Neuroscience
A brain-computer interface thin enough to slip under the skull has become the first of its kind to win extended government approval in the USA.
Precision Neuroscience has created a wireless implant for restoring independence to millions of severely paralysed people. that can be left in place for up to 30 days.
The Layer 7 Cortical Interface translates brain signals into commands to control external devices like computers or robotic limbs.
This allows people with motor or communication impairments, such as those with paralysis or neuro-genetic disease ALS, to regain some level of functionality and independence.
It was set up by three former employees of Tesla billionaire Elon Musk’s rival Neuralink implant.
The implant resembles a thin sheet of flexible film and is designed to rest on the surface of the brain.
Unlike more invasive options that require deeper implants, Layer 7 records and stimulates neural activity using1,024 tiny electrodes.
The goal is to gather high-fidelity brain data in a way that’s less traumatic and more adaptable to a wide range of patients.
Its wafer-thin structure can be inserted through an incision narrower than a millimetre and removed without causing lasting damage.
OPS:The Layer 7 Cortical Interface.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_183840883_FER
Minimally invasive brain implant gets regulatory clearance
Ferrari Press Agency
Brain 1
Ref 16752
22/04/2025
See Ferrari text
Pictures must credit: Precision Neuroscience
A brain-computer interface thin enough to slip under the skull has become the first of its kind to win extended government approval in the USA.
Precision Neuroscience has created a wireless implant for restoring independence to millions of severely paralysed people. that can be left in place for up to 30 days.
The Layer 7 Cortical Interface translates brain signals into commands to control external devices like computers or robotic limbs.
This allows people with motor or communication impairments, such as those with paralysis or neuro-genetic disease ALS, to regain some level of functionality and independence.
It was set up by three former employees of Tesla billionaire Elon Musk’s rival Neuralink implant.
The implant resembles a thin sheet of flexible film and is designed to rest on the surface of the brain.
Unlike more invasive options that require deeper implants, Layer 7 records and stimulates neural activity using1,024 tiny electrodes.
The goal is to gather high-fidelity brain data in a way that’s less traumatic and more adaptable to a wide range of patients.
Its wafer-thin structure can be inserted through an incision narrower than a millimetre and removed without causing lasting damage.
OPS:Diagram shbowing how the Layer 7 Cortical Interface slots into the skull and rests gently on the brain
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_183840882_FER
Minimally invasive brain implant gets regulatory clearance
Ferrari Press Agency
Brain 1
Ref 16752
22/04/2025
See Ferrari text
Pictures must credit: Precision Neuroscience
A brain-computer interface thin enough to slip under the skull has become the first of its kind to win extended government approval in the USA.
Precision Neuroscience has created a wireless implant for restoring independence to millions of severely paralysed people. that can be left in place for up to 30 days.
The Layer 7 Cortical Interface translates brain signals into commands to control external devices like computers or robotic limbs.
This allows people with motor or communication impairments, such as those with paralysis or neuro-genetic disease ALS, to regain some level of functionality and independence.
It was set up by three former employees of Tesla billionaire Elon Musk’s rival Neuralink implant.
The implant resembles a thin sheet of flexible film and is designed to rest on the surface of the brain.
Unlike more invasive options that require deeper implants, Layer 7 records and stimulates neural activity using1,024 tiny electrodes.
The goal is to gather high-fidelity brain data in a way that’s less traumatic and more adaptable to a wide range of patients.
Its wafer-thin structure can be inserted through an incision narrower than a millimetre and removed without causing lasting damage.
OPS:Diagram shbowing how the Layer 7 Cortical Interface slots into the skull and rests gently on the brain
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_183840881_FER
Minimally invasive brain implant gets regulatory clearance
Ferrari Press Agency
Brain 1
Ref 16752
22/04/2025
See Ferrari text
Pictures must credit: Precision Neuroscience
A brain-computer interface thin enough to slip under the skull has become the first of its kind to win extended government approval in the USA.
Precision Neuroscience has created a wireless implant for restoring independence to millions of severely paralysed people. that can be left in place for up to 30 days.
The Layer 7 Cortical Interface translates brain signals into commands to control external devices like computers or robotic limbs.
This allows people with motor or communication impairments, such as those with paralysis or neuro-genetic disease ALS, to regain some level of functionality and independence.
It was set up by three former employees of Tesla billionaire Elon Musk’s rival Neuralink implant.
The implant resembles a thin sheet of flexible film and is designed to rest on the surface of the brain.
Unlike more invasive options that require deeper implants, Layer 7 records and stimulates neural activity using1,024 tiny electrodes.
The goal is to gather high-fidelity brain data in a way that’s less traumatic and more adaptable to a wide range of patients.
Its wafer-thin structure can be inserted through an incision narrower than a millimetre and removed without causing lasting damage.
OPS:Diagram shbowing how the Layer 7 Cortical Interface slots into the skull and rests gently on the brain
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_183840880_FER
Minimally invasive brain implant gets regulatory clearance
Ferrari Press Agency
Brain 1
Ref 16752
22/04/2025
See Ferrari text
Pictures must credit: Precision Neuroscience
A brain-computer interface thin enough to slip under the skull has become the first of its kind to win extended government approval in the USA.
Precision Neuroscience has created a wireless implant for restoring independence to millions of severely paralysed people. that can be left in place for up to 30 days.
The Layer 7 Cortical Interface translates brain signals into commands to control external devices like computers or robotic limbs.
This allows people with motor or communication impairments, such as those with paralysis or neuro-genetic disease ALS, to regain some level of functionality and independence.
It was set up by three former employees of Tesla billionaire Elon Musk’s rival Neuralink implant.
The implant resembles a thin sheet of flexible film and is designed to rest on the surface of the brain.
Unlike more invasive options that require deeper implants, Layer 7 records and stimulates neural activity using1,024 tiny electrodes.
The goal is to gather high-fidelity brain data in a way that’s less traumatic and more adaptable to a wide range of patients.
Its wafer-thin structure can be inserted through an incision narrower than a millimetre and removed without causing lasting damage.
OPS:Diagram shbowing how the Layer 7 Cortical Interface slots into the skull and rests gently on the brain
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_183840879_FER
Minimally invasive brain implant gets regulatory clearance
Ferrari Press Agency
Brain 1
Ref 16752
22/04/2025
See Ferrari text
Pictures must credit: Precision Neuroscience
A brain-computer interface thin enough to slip under the skull has become the first of its kind to win extended government approval in the USA.
Precision Neuroscience has created a wireless implant for restoring independence to millions of severely paralysed people. that can be left in place for up to 30 days.
The Layer 7 Cortical Interface translates brain signals into commands to control external devices like computers or robotic limbs.
This allows people with motor or communication impairments, such as those with paralysis or neuro-genetic disease ALS, to regain some level of functionality and independence.
It was set up by three former employees of Tesla billionaire Elon Musk’s rival Neuralink implant.
The implant resembles a thin sheet of flexible film and is designed to rest on the surface of the brain.
Unlike more invasive options that require deeper implants, Layer 7 records and stimulates neural activity using1,024 tiny electrodes.
The goal is to gather high-fidelity brain data in a way that’s less traumatic and more adaptable to a wide range of patients.
Its wafer-thin structure can be inserted through an incision narrower than a millimetre and removed without causing lasting damage.
OPS:Diagram shbowing how the Layer 7 Cortical Interface slots into the skull and rests gently on the brain
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_183840878_FER
Minimally invasive brain implant gets regulatory clearance
Ferrari Press Agency
Brain 1
Ref 16752
22/04/2025
See Ferrari text
Pictures must credit: Precision Neuroscience
A brain-computer interface thin enough to slip under the skull has become the first of its kind to win extended government approval in the USA.
Precision Neuroscience has created a wireless implant for restoring independence to millions of severely paralysed people. that can be left in place for up to 30 days.
The Layer 7 Cortical Interface translates brain signals into commands to control external devices like computers or robotic limbs.
This allows people with motor or communication impairments, such as those with paralysis or neuro-genetic disease ALS, to regain some level of functionality and independence.
It was set up by three former employees of Tesla billionaire Elon Musk’s rival Neuralink implant.
The implant resembles a thin sheet of flexible film and is designed to rest on the surface of the brain.
Unlike more invasive options that require deeper implants, Layer 7 records and stimulates neural activity using1,024 tiny electrodes.
The goal is to gather high-fidelity brain data in a way that’s less traumatic and more adaptable to a wide range of patients.
Its wafer-thin structure can be inserted through an incision narrower than a millimetre and removed without causing lasting damage.
OPS:Diagram shbowing how the Layer 7 Cortical Interface slots into the skull and rests gently on the brain
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_183840877_FER
Minimally invasive brain implant gets regulatory clearance
Ferrari Press Agency
Brain 1
Ref 16752
22/04/2025
See Ferrari text
Pictures must credit: Precision Neuroscience
A brain-computer interface thin enough to slip under the skull has become the first of its kind to win extended government approval in the USA.
Precision Neuroscience has created a wireless implant for restoring independence to millions of severely paralysed people. that can be left in place for up to 30 days.
The Layer 7 Cortical Interface translates brain signals into commands to control external devices like computers or robotic limbs.
This allows people with motor or communication impairments, such as those with paralysis or neuro-genetic disease ALS, to regain some level of functionality and independence.
It was set up by three former employees of Tesla billionaire Elon Musk’s rival Neuralink implant.
The implant resembles a thin sheet of flexible film and is designed to rest on the surface of the brain.
Unlike more invasive options that require deeper implants, Layer 7 records and stimulates neural activity using1,024 tiny electrodes.
The goal is to gather high-fidelity brain data in a way that’s less traumatic and more adaptable to a wide range of patients.
Its wafer-thin structure can be inserted through an incision narrower than a millimetre and removed without causing lasting damage.
OPS:Diagram shbowing how the Layer 7 Cortical Interface slots into the skull and rests gently on the brain
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS)