BrainGate

BrainGate is a brain implant system built and previously owned by Cyberkinetics, currently under development and in clinical trials, designed to help those who have lost control of their limbs, or other bodily functions, such as patients with amyotrophic lateral sclerosis (ALS) or spinal cord injury. The Braingate technology and related Cyberkinetic’s assets are now owned by privately held Braingate, Co.[1][2] The sensor, which is implanted into the brain, monitors brain activity in the patient and converts the intention of the user into computer commands.

Technology

Dummy unit illustrating the design of a BrainGate interface

In its current form, BrainGate consists of a sensor implanted in the brain and an external decoder device, which connects to some kind of prosthetic or other external object. The sensor is in the form of a microelectrode array, formerly known as the Utah Array, which consists of 100 hair-thin electrodes that sense the electromagnetic signature of neurons firing in specific areas of the brain, for example, the area that controls arm movement. The sensor translates that activity into electrically charged signals, which are then sent to an external device and decoded in software. The decoder connects to and can use the brain signals to control an external device, such as a robotic arm, a computer cursor, or even a wheelchair. In essence, BrainGate allows a person to manipulate objects in the world using only the mind.

In addition to real-time analysis of neuron patterns to relay movement, the BrainGate array is also capable of recording electrical data for later analysis. A potential use of this feature would be for a neurologist to study seizure patterns in a patient with epilepsy.

BrainGate was originally developed by researchers in the Department of Neuroscience at Brown University in conjunction with bio-tech company Cyberkinetics, Inc. Cyberkinetics later spun off the device manufacturing to Blackrock Microsystems, who now manufactures the sensors and the data acquisition hardware.[3] The BrainGate Company purchased the intellectual property and related technology from Cyberkinetics and continues to own the intellectual property related to BrainGate.[1][2][3]

Research and experimental results

The first reported experiments involving the implantation of the microelectrode array in one human subject were carried out in 2002 by Kevin Warwick, Mark Gasson and Peter Kyberd.[4] The procedure, which was performed at the Radcliffe Infirmary, involved the implantation of the array in the peripheral nerves of the subject in order to successfully bring about both motor and sensory functionality, i.e. bi-directional signalling.[5]

The subsequent full clinical trial of BrainGate, was led by researchers at Massachusetts General Hospital, Brown University, and the Department of Veterans Affairs and ran from 2004 to 2006, involving the study of four patients with tetraplegia. The results, published in a 2006 article in the journal Nature, showed that a human with tetraplegia was able to control a cursor on a computer screen just by thinking, enabling him to open emails, and to operate devices such as a television.[6] One participant, Matt Nagle, had a spinal cord injury, whilst another had advanced ALS.[7]

In July 2009, a second clinical trial (dubbed "BrainGate2") was initiated by researchers at Massachusetts General Hospital, Brown University, and the Providence VA.[8][9] In November 2011, researchers from the Stanford University Neural Prosthetics Translational Laboratory joined the trial as a second site.[10][11] This trial is ongoing.

In May 2012, BrainGate researchers published a study in Nature demonstrating that two people paralyzed by brainstem stroke several years earlier were able to control robotic arms for reaching and grasping.[12] One participant, Cathy Hutchinson, was able to use the arm to drink coffee from a bottle,[13] the first time she was able to drink unaided in 15 years.[14][15][16] This took place on site at The Boston Home in Dorchester, Massachusetts, a specialized residence where Ms. Hutchinson resided.[17] The study included researchers at Brown University, the Department of Veterans Affairs, Massachusetts General Hospital, Harvard Medical School, and the German Aerospace Center.[16]

Current clinical trials

Clinical trials began in 2009 under the name "BrainGate2 Neural Interface System".[18][19] As of October 2014, Stanford University, Massachusetts General Hospital, Case Western Reserve University (Ohio) and Providence VA Medical Center were actively recruiting participants for the ongoing BrainGate2 clinical trial.[19][20]

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See also

References

  1. BrainGate gets a new lease on life, The Boston Globe, August, 2009
  2. BrainGate intellectual property and patents
  3. Blackrock Microsystems
  4. Warwick, K, Gasson, M, Hutt, B, Goodhew, I, Kyberd, P, Andrews, B, Teddy, P and Shad, A: "The Application of Implant Technology for Cybernetic Systems", Archives of Neurology, 60(10), pp1369-1373, 2003
  5. Legato, M Editor: ”Principles of Gender-Specific Medicine”, Academic Press, 2017
  6. Hochberg LR, Serruya MD, Friehs GM, Mukand JA, Saleh M, Caplan AH, Branner A, Chen D, Penn RD, Donoghue JP (July 2006). "Neuronal ensemble control of prosthetic devices by a human with tetraplegia". Nature. 442 (7099): 164–171. doi:10.1038/nature04970. PMID 16838014.
  7. "Mind Control". Wired. March 2005.
  8. "BrainGate - Turning thought into Action". 2015-12-04.
  9. "BrainGate2: Feasibility Study of an Intracortical Neural Interface System for Persons With Tetraplegia (BrainGate2)".
  10. "Stanford joins BrainGate team developing brain-computer interface to aid people with paralysis". Stanford. November 11, 2011.
  11. TANYA LEWIS. "Stanford joins BrainGate team developing brain-computer interface to aid people with paralysis". Stanford School of Medicine. Archived from the original on December 9, 2011.
  12. Hochberg LR, Bacher D, Jarosiewicz B, Masse NY, Simeral JD, Vogel J, Haddadin S, Liu J, Cash SS, van der Smagt P, Donoghue JP (May 2012). "Reach and grasp by people with tetraplegia using a neurally controlled robotic arm". Nature. 485 (7398): 372–375. doi:10.1038/nature11076. PMC 3640850. PMID 22596161.
  13. Paralysed woman moves robot with her mind - by Nature Video on YouTube
  14. "People with paralysis control robotic arms using brain-computer interface". Brown University. May 2012.
  15. Abbott, Alison (May 16, 2012). "Mind-controlled robot arms show promise". Nature. doi:10.1038/nature.2012.10652.
  16. "People with paralysis control robotic arms using brain-computer interface". Stanford University. May 2012.
  17. "THE BOSTON HOME CONNECTION TO A TECHNOLOGY BREAKTHROUGH". May 16, 2012. Archived from the original on 2013-11-15. Retrieved 2012-10-30.
  18. BrainGate2 - Now recruiting, Braingate2.org
  19. Clinicaltrials.gov
  20. Intracortical Neural Prosthetics Clinical Trial Recruitment, Stanford University
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