【瘫痪病人通过脑内植入芯片弹奏钢琴】

【瘫痪病人通过脑内植入芯片弹奏钢琴】科学家们发明了一种革命性的装置,可以让瘫痪的人用思维来完成他们从未想过能再次完成的任务。实验中瘫痪志愿者的大脑中植入了一个阿司匹林大小的芯片,该芯片连接到一台电脑上,电脑可以检测大脑何时在形成思维,并将其转换成可读的指令,发送到平板电脑上,参与者可以使用电子邮件、聊天APP,查看天气,在YouTube上观看视频,网上购物等。一名志愿者甚至在应用程序上演奏了贝多芬的《欢乐颂》。研究人员称,这项研究对瘫痪病人将有深远的影响。http://www.looooker.com/?p=61594

Tiny chip implanted in the brain lets paralyzed patients type text messages with their thoughts - and even play the piano

  • Paralyzed volunteers had a 'baby aspirin'-sized chip implanted into their brains
  • The chip is connected to a computer which can detect when the brain is forming thoughts and translate them into readable commands sent to a Nexus tablet
  • From there, users could text, watch videos and, in one case, even play the piano 

Scientists have developed a revolutionary device that lets paralyzed people use their thoughts to perform tasks they never thought they'd be able to do again.

A brain-computer interface, called BrainGate, has demonstrated how it can help paraplegics in the past, but new research shows that the device can be hooked up to a basic tablet to send text messages, show the weather forecast and even play a digital piano.

Volunteers with severe paralysis had to have a chip the size of a baby aspirin implanted into their brains in order to use the tablet.

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HOW DOES IT WORK?

Participants have a 'baby aspirin'-sized chip implanted into their brain's motor cortex.

The motor cortex is a part of the brain that is responsible for the planning, control and execution of involuntary movements.

The chip has 100 electrodes that send signals to a computer.

The computer is equipped with algorithms that can detect when the brain is forming thoughts and transform those into commands that can be read by a tablet.

Each command is sent to the tablet via Bluetooth connection, similar to a traditional wireless mouse.

From there, participants are able to use all kinds of popular apps on a tablet just by using their thoughts.

The study, which published last week in scientific journal PLOS ONE, was conducted by scientists from Brown University, the Providence Veterans Affairs Medical Center, Massachusetts General Hospital and Stanford University.

Three people with quadriplegia took part in the experiment, which involved a small sensor being placed in their motor cortex.

The chip is equipped with 100 electrodes that send signals to a computer.

The computer is equipped to detect certain patterns of activity, such as thoughts of performing specific tasks, and those actions are then translated into commands performed on the tablet.

A Google Nexus 9 tablet was used in the study and had all of its accessibility functions disabled.

Each command was sent to the tablet via a Bluetooth connection, meant to function like a wireless mouse.

Participants were able to use popular email, chat and video-sharing apps, check the weather, watch videos on YouTube and shop online.

In one case, a volunteer was able to play a rendition of Beethoven's famous 'Ode to Joy' on a digital piano app.

Participants could email, chat and video-sharing apps, check the weather,  and shop online. In one case, a volunteer played a rendition of Beethoven's 'Ode to Joy' on a digital piano app

Participants could email, chat and video-sharing apps, check the weather, and shop online. In one case, a volunteer played a rendition of Beethoven's 'Ode to Joy' on a digital piano app

Using the brain chip, participants were able to make as many as 22 point-and-click selections per minute in a range of apps. In text apps, such as Google Hangouts (pictured) and text messages, users could type up to 30 characters per minute

Using the brain chip, participants were able to make as many as 22 point-and-click selections per minute in a range of apps. In text apps, such as Google Hangouts (pictured) and text messages, users could type up to 30 characters per minute

'One of the participants told us at the beginning of the trial that one of the things she really wanted to do was play music again,' said Dr. Paul Nuyujukian, lead author of the study, in a statment.

'So to see her play on a digital keyboard was fantastic.'

Using the brain chip, participants were able to make as many as 22 point-and-click selections per minute in a range of apps.

In text apps, such as Google Hangouts and text messages, users could type up to 30 characters per minute.

'We've harnessed that know-how to restore people's ability to control the exact same everyday technologies they were using before the onset of their illnesses,' Dr. Jaimie Henderson, a senior author of the paper and a Stanford University neurosurgeon, said in a statement.

The three respondents, two of which suffer from weakness or loss of movement in their arms and legs due to ALS, said they found the device extremely useful

The three respondents, two of which suffer from weakness or loss of movement in their arms and legs due to ALS, said they found the device extremely useful

'It was wonderful to see the participants express themselves or just find a song they want to hear.'

The respondents, two of which suffer from weakness or loss of movement in their arms and legs due to ALS, said they found the device extremely useful.

'It felt more natural than the times I remember using a mouse,' one participant said.

Other BrainGate studies have demonstrated the technology enabling a paraplegic woman to sip coffee using just her thoughts.

A woman paralyzed from a stroke for 15 years had the chip implanted in her brain, which connected to a thought-controlled robotic arm.

WHAT IS BRAINGATE?

BrainGate is based on technology to sense, transmit, analyse, and apply the language of neurons.

It consists of a sensor that is implanted on the motor cortex of the brain and a device that analyses brain signals.

The principle behind the BrainGate system is that with intact brain functionality, brain signals are generated even though they are not sent to the arms, hands, and legs.

With BrainGate, the signals are interpreted and translated into cursor movements, offering the user an alternate 'BrainGate Pathway' to control a computer with thought, just as individuals who have the ability to move their hands use a mouse.

In particular, the system is designed to restore functionality for a limited, immobile group of severely motor-impaired individuals.

It is expected that people using the BrainGate system will employ a personal computer as the gateway to a range of self-directed activities.

These activities may extend beyond typical computer functions (e.g., communication) to include the control of objects in the environment such as a telephone, a television, lights, and even a wheelchair.

From there, she could use her thoughts to command the arm to grip a bottle of coffee, bring it to her mouth, sip it and then return it to the table.

The researchers believe BrainGate has far-reaching implications for paralyzed patients.

'This has great potential for restoring reliable, rapid and rich communication for somebody with locked-in syndrome who is unable to speak,' Jose Albites Sanabria, a researcher involved in the study, said in a statement.

'That not only could provide increased interaction with their family and friends, but can provide a conduit for more thoroughly describing ongoing health issues with caregivers.'

原文链接:https://www.dailymail.co.uk/sciencetech/article-6431287/Tiny-chip-implanted-brain-lets-paralyzed-type-text-messages-play-piano.html


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