Thought-Controlled Nanoscale Robots in a Living Host.

Thought-Controlled Nanoscale Robots in a Living Host.

We report a new type of brain-machine interface enabling a human operator to control nanometer-size robots inside a living animal by brain activity. Recorded EEG patterns are recognized online by an algorithm, which in turn controls the state of an electromagnetic field. The field induces the local...

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Main Authors: Shachar Arnon, Nir Dahan, Amir Koren, Oz Radiano, Matan Ronen, Tal Yannay, Jonathan Giron, Lee Ben-Ami, Yaniv Amir, Yacov Hel-Or, Doron Friedman, Ido Bachelet
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2016-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC4985062?pdf=render
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spelling doaj-939589b0d50d44ed9a7389755f1bd5132020-11-25T01:49:45ZengPublic Library of Science (PLoS)PLoS ONE1932-62032016-01-01118e016122710.1371/journal.pone.0161227Thought-Controlled Nanoscale Robots in a Living Host.Shachar ArnonNir DahanAmir KorenOz RadianoMatan RonenTal YannayJonathan GironLee Ben-AmiYaniv AmirYacov Hel-OrDoron FriedmanIdo BacheletWe report a new type of brain-machine interface enabling a human operator to control nanometer-size robots inside a living animal by brain activity. Recorded EEG patterns are recognized online by an algorithm, which in turn controls the state of an electromagnetic field. The field induces the local heating of billions of mechanically-actuating DNA origami robots tethered to metal nanoparticles, leading to their reversible activation and subsequent exposure of a bioactive payload. As a proof of principle we demonstrate activation of DNA robots to cause a cellular effect inside the insect Blaberus discoidalis, by a cognitively straining task. This technology enables the online switching of a bioactive molecule on and off in response to a subject's cognitive state, with potential implications to therapeutic control in disorders such as schizophrenia, depression, and attention deficits, which are among the most challenging conditions to diagnose and treat.http://europepmc.org/articles/PMC4985062?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Shachar Arnon
Nir Dahan
Amir Koren
Oz Radiano
Matan Ronen
Tal Yannay
Jonathan Giron
Lee Ben-Ami
Yaniv Amir
Yacov Hel-Or
Doron Friedman
Ido Bachelet
spellingShingle Shachar Arnon
Nir Dahan
Amir Koren
Oz Radiano
Matan Ronen
Tal Yannay
Jonathan Giron
Lee Ben-Ami
Yaniv Amir
Yacov Hel-Or
Doron Friedman
Ido Bachelet
Thought-Controlled Nanoscale Robots in a Living Host.
PLoS ONE
author_facet Shachar Arnon
Nir Dahan
Amir Koren
Oz Radiano
Matan Ronen
Tal Yannay
Jonathan Giron
Lee Ben-Ami
Yaniv Amir
Yacov Hel-Or
Doron Friedman
Ido Bachelet
author_sort Shachar Arnon
title Thought-Controlled Nanoscale Robots in a Living Host.
title_short Thought-Controlled Nanoscale Robots in a Living Host.
title_full Thought-Controlled Nanoscale Robots in a Living Host.
title_fullStr Thought-Controlled Nanoscale Robots in a Living Host.
title_full_unstemmed Thought-Controlled Nanoscale Robots in a Living Host.
title_sort thought-controlled nanoscale robots in a living host.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2016-01-01
description We report a new type of brain-machine interface enabling a human operator to control nanometer-size robots inside a living animal by brain activity. Recorded EEG patterns are recognized online by an algorithm, which in turn controls the state of an electromagnetic field. The field induces the local heating of billions of mechanically-actuating DNA origami robots tethered to metal nanoparticles, leading to their reversible activation and subsequent exposure of a bioactive payload. As a proof of principle we demonstrate activation of DNA robots to cause a cellular effect inside the insect Blaberus discoidalis, by a cognitively straining task. This technology enables the online switching of a bioactive molecule on and off in response to a subject's cognitive state, with potential implications to therapeutic control in disorders such as schizophrenia, depression, and attention deficits, which are among the most challenging conditions to diagnose and treat.
url http://europepmc.org/articles/PMC4985062?pdf=render
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