Mind-reading machine allows people with 'locked-in' syndrome to communicate - and all four patients said it has made them HAPPY
- Brain-computer interface can detect blood oxygen levels and brain activity
- Participants were asked yes/no questions and asked to think the answer
- The device correctly relayed what they were thinking 70 per cent of the time
Without the ability to move any muscles, people with locked-in syndrome can find it almost impossible to communicate.
But a new brain-computer interface could make it easier for these people to relay their thoughts.
Researchers hope that their device could vastly improve the quality of life for people with locked-in syndrome.
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The device is non-invasive, but can measure blood oxygenation and electrical activity in the brain to relay answers
Patients suffering from complete paralysis, but with preserved awareness, cognition, and eye movements and blinking are classified as having locked-in syndrome.
To help these people to communicate, researchers at the Wyss Centre for Bio and Neuroengineering in Geneva created a new brain-computer interface.
Until now, it had been thought that people with locked-in syndrome lacked the goal-directed thinking needed to use a brain-computer interface.
But this new study overturns those theories.
The study involved four patients with ALS – a progressive diseases that leads to the complete destruction of the part of the nervous system responsible for movement.
The researchers asked personal questions with known answers and open questions that needed 'yes' or 'no' answers including: 'Your husband's name is Joachim?' and 'Are you happy?'.
The participants were asked to think their answer, while wearing the non-invasive device, which detected their responses by measuring changes in blood oxygen levels in the brain.
The results showed that the device relayed the correct responses in 70 per cent of the trials.
Professor Niels Birbaumer, who led the study said: 'The striking results overturn my own theory that people with completely locked-in syndrome are not capable of communication.
'We found that all four patients we tested were able to answer the personal questions we asked them, using their thoughts alone.
The researchers asked questions with known answers and open questions that needed 'yes' or 'no' answers including: 'Your husband's name is Joachim?' and 'Are you happy?'. The participants were asked to think their answer, while wearing the non-invasive device
'If we can replicate this study in more patients, I believe we could restore useful communication in completely locked-in states for people with motor neuron diseases.'
The brain-computer interface in the study used near-infrared spectroscopy combined with electroencephalography (EEG) to measure blood oxygenation and electrical activity in the brain.
While other brain-computer interfaces have previously helped some paralyzed patients to communicate, near-infrared spectroscopy is, so far, the only successful approach to restore communication to patients suffering from completely locked-in syndrome.
To their surprise, the researchers found that all four participants answer 'yes' when asked 'Are you happy?', repeated over weeks of questioning.
Professor Birbaumer added: 'We were initially surprised at the positive responses when we questioned the four completely locked-in patients about their quality of life.
'All four had accepted artificial ventilation in order to sustain their life, when breathing became impossible; thus, in a sense, they had already chosen to live.
'What we observed was that as long as they received satisfactory care at home, they found their quality of life acceptable.
'It is for this reason, if we could make this technique widely clinically available, it could have a huge impact on the day-to-day life of people with completely locked-in syndrome'.
In one case, a family requested that the researchers asked one of the participants whether he would agree for his daughter to marry her boyfriend.
The answer was 'no', nine times out of ten.
Professor John Donoghue, Director of the Wyss Center, said: 'Restoring communication for completely locked-in patients is a crucial first step in the challenge to regain movement.
'The Wyss Center plans to build on the results of this study to develop clinically useful technology that will be available to people with paralysis resulting from ALS, stroke, or spinal cord injury.
'The technology used in the study also has broader applications that we believe could be further developed to treat and monitor people with a wide range of neuro-disorders.'
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